hdpe application

Geberit HDPEApplication Technique

100 212

90 194

80 176

70 158

60 140

50 122

40 104

35 95

30 86

25 77

20 68

15 59

10 50

5 41

0 32

–5 23

–10 14

–15 5

–17,8 0

–20 –4

–25 –13

–30 –22

Converting tables

Converting table Inch–Millimeter

Inch 3⁄8" 1⁄2" 3⁄4" 1" 11⁄4" 11⁄2" 2" 21⁄2" 3" 31⁄2" 4" 5" 6" 8" 10"

mm 9,5 12,7 19 25,4 31,8 38,1 50,8 63,5 76,2 88,9 101,6 127 152,4 203,2 254

Geberit Ø outside - - - 32 40 50 56 63 75 90 110 125 160 200 250

Geberit Ø inside - - - 26 34 44 50 57 69 83 101,4 115,2 147,6 187,6 234,4

Temperature scales Pressure scale

1 bar = 1000 mbar

1 bar = 100 000 Pa (= )

1 bar = 10,2 m Water column

1 bar = 14,5 psi

1 psi = 6896.43

1 psi = 1 lb/square inch

Length scale

1 m = 1000 mm

1 m = 100 cm

1 m = 10 dm

1 cm = 10 mm

1 dm = 10 cm = 100 mm

°°CC °°FF

To convert Centigrade to Fahrenheit:Multiply Centigrade by 1,8 and add 32.

°F = (°C x 1,8) + 32

To convert Fahrenheit to Centigrade:Subtract 32 from Fahrenheit and divideby 1,8.

°C = (°F –32) : 1,8

Nm2

Nm2

Geberit HDPE page

Drainage system 3Application field for pipes and fittings 4HDPE pipes, fittings and tools 5– 7Jointing methods 8–17Water proofing 19

Thermal movement 20–21

Accomodating thermal movement

Deflection leg 22Expansion socket 23Anchor brackets and guide brackets 24–26Installation examples 27–30

Prevention of thermal movement

Rigid installation 31Brackets, embedded fixed points 32–33

Mounting instructions

Butt welding 34–36Electro welding 37–39Prefabrication 40–42Repair tool 43Expansion sockets 44

Special application fields

Underground drainage 45–49Pipe penetration through building walls 50Connection to manhole 51Drainage of bridges 52–53Low pressure installation 54External and internal pressure 55Fire protection 56–58

Geberit HDPE characteristics

Physical characteristics 59 Ecological properties 60–61Comments on individual properties 62–65Tempering (Geberit Licence) 66–67pH Value 68Chemical resistance list 69–78

Norms/Certificates 81

Overview

3

Drainage system

1 Ground pipe

2 Main stack

3 Branch pipe

4 Connector pipe

5 Ventilation stack

6 Rainwater down pipe

7 Domestic drainage

8 Public sewer

2

4

5

66

7

8

3

1

44

Description Symbol House Underground Bridge Pressure Pluviadrainage drainage drainage load

Pipe X X X X X

Bend 45° X X X X X

Bend 881⁄2° X — — — X

Bend 90° X X X X X

Branch 45° X X X — X

Branch 881⁄2° X — — X X

Ball fittings X — X — —

Reducer X X X X X

Apparatus connections X — — — —

Butt welded joints X X X X X

Electroweld sleeve coupling/flange X X X X X

Expansion socket X X X —

Ring seal socket X — — — —

Flange bushing X X X X X

Double flange bushing X X X X X

Access pipe X X X X X

X = Applicable— = Not applicable = For horizontal installation max. ∅ 110

Application field for Geberit HDPE pipes and fittings

5

Geberit HDPE pipes

5 m

HDPE pipes

Nominal (Outside) Wall Inside Area Weight Weight Pressure* Seriesdia. thickness dia. empty full nominal (ISO)d (mm) s (mm) di (mm) A (cm2) kg/m kg/m PN S Art. No.32 3 26 5,3 0,259 0,790 10 5 379.000.16.0

40 3 34 9,0 0,331 1,239 6 6,3 360.000.16.0

50 3 44 15,2 0,420 1,940 6 8,3 361.000.16.0

56 3 50 19,6 0,471 2.434 6 — 363.000.16.0

63 3 57 25,4 0,536 3,087 4 10 364.000.16.0

75 3 69 37,3 0,644 4,383 4 12,5 365.000.16.0

90 3,5 83 54,1 0,903 6,313 4 12,5 366.000.16.0

110 4,3 101,4 80,7 1,350 9,424 4 12,5 367.000.16.0

125 4,9 115,2 104,5 1,750 12,171 4 12,5 368.000.16.0

160 6,2 147,6 171,1 2,840 19,947 4 12.5 369.000.16.0

200 6,2 187,6 276,4 3,580 31,216 3,2 16 370.000.16.0

250 7,8 234,4 431,5 5,630 48,774 3,2 16 371.000.16.0

315 9,8 295,4 685,3 8,920 77,442 3,2 16 372.000.16.0

Standard length of Geberit HDPE pipes = 5 meters (5000 mm)* = Nominal pressure refers to pipe only not to fittings

ISO = International Standard Organisation

Standards – International ISO 8770 / 8772

– European CEN / TC 155 / CEN EN 12056

– Switzerland SN 592 000

– Germany DIN 8075 / 19535 / 19537

– Austria B 5177

– France NF T 54 072

– Italy UNI 8451

– Belgium NBN 42-112

– Netherlands NEN 7008

– Denmark NKB Nr. 8

– Great Britain BS /6367/5572/6437/5114

– Australia MP52 W Spec 005

– Singapore PSB/ENV

cm2A

d

sdi

Geberit HDPE fittings

Prefabricated or conventional installation. Pipeline embedded in concrete. Underground drainage pipes.

HDPE fittings

Silent fittings and pipes

66

7

Geberit tools

Pipe Cutter Hand Mitre Saw

"BA

RY

""B

AR

Y"

Kun

stst

off-

Sch

wei

ssap

par

ate

Kun

stst

off-

Sch

wei

ssap

par

ate

Typ

e: A

-Ty

pe:

A-

Vol

t 23

0V

olt

230

Wat

tW

att

Nr.

Nr.

W.R

iese

n B

asel

(Sch

wei

z)

W.R

iese

n B

asel

(Sch

wei

z)

Ditt

inge

rstr

asse

45

Ditt

inge

rstr

asse

45

Welding Plate Repair Tool

B.3

56.2

20/0

01

Electrofusion Machine Start Switch

506375110

90125

160

TYP

MEDIA 84

MASCH. NR.

Welding Machine MEDIA Welding Machine UNIVERSAL

8

Geberit HDPE jointing methods Overview

The many Geberit jointing methods offer solutions for all situations.

Butt weld Electroweld sleeve coupling

Ring-seal socket Screw-threaded joint

Linear expansion socket

Flange joint Contraction sleeve Coupling for PE-Silentand adaptor only

These connections have different properties, and are therefore classified according to the way inwhich they are assembled as follows:

a) To be openedJointing methods which can be disconnected after assembly.

b) Not to be openedJointing methods which cannot be disconnected after assembly.

c) Tension-resistantConnections which withstand tensional forces.

d) Non-tension-resistantConnections which cannot withstand tensional forces.

Buttweld

Jointingmethods

Situation

Tension resistantNot to be opened

Tension resistantTo be opened

Non-tension resistantNot to be opened

Non-tension resistantTo be opened

Ring-sealsocket

Screw-threaded joint with-out flange bushing

Screw-threadedjoint withflange bushing

Expan-sion soc-ket

Contrac-tionsleeve

CouplingFlange joint

Application

X X

X X X

XX

XX

Electro-weldsleevecoupling

9

All diameters from ∅ 32 to 315 mm can be welded.Connection properties

b) not to be openedc) tension-resistant

Use

Welding is the easiest jointing method, providing the many advantageous bene-fits of prefabrication; HDPE needs no other component in order to be welded.

It can be used in all circumstances where prefabrication is used on site or in theworkshop.

The essential conditions for a perfect weld are:

• Cleanliness of the welding plate and the parts which are to be welded.

• A correct welding plate temperature.

• The correct pressure for jointing the parts.

• The parts to be welded must be cut square <) 90°.

Butt welding takes up little space. The edge of the weld does not obstruct thepipe, leaving its internal cross-section virtually unchanged. Even quite complica-ted distribution parts can be assembled in a small space, without wastage ofmaterial, because lengths of pipe or elbow sections can be easily reusedthrough butt welding.

The allowance for butt welds is approx. as big as the wall thickness of the pipe.

pipe diameter (mm) 32–75 90 110 125 160 200 250 315

butt weld s (mm) 3 4 5 5 7 7 8 10

506375110

90125

160

TYP

MEDIA 84

MASCH. NR.

Butt welding

A simple and reliable connection

Machine welding Media ø 40 – 160 mm Universal ø 40 – 315 mm

Manual welding up to Ø 75 mm

Indicative values of operating pressure

Wel

ding

tim

e in

min

.

Welding time

Warming-up time

5

4

3

2

1

0mm 2 4 6 8 10 12

ø kg32 540 650 756 863 975 1090 15

110 22125 28160 45200 57250 90315 140

Warming-up and welding times Guidevalues for

weldingpressure

A

B

Allowance for butt welds

ø 56 110 250

Pipe wallthickness

Electroweld sleeve coupling

A short, simple and reliableconnection

Available from ∅ 40 to 315 mm.

Connection properties

b) not to be openedc) tension-resistant

Use

On-site welding, conversion, additional installations, repairs. The small outsidediameter provides a great advantage.

Conventional assembly, on the nesting principle, made for easy use. The jointobtained is simple, quick and reliable.

The heating and melting zone is divided into two fields, as there are no electricalresistances in the centre of the sleeve. This provides a very satisfactory safetyfactor.

Also the ends of the pipes are not heated, the zones remain effectively cold,and provide further reinforcement, thus cancelling out shrinkage of the pipe.

The pressure required for welding is obtained from the shrinking effect of thesleeve when it is heated, and is evenly distributed over the entire weld. Thisshrinkage has a compensating effect on pipe diameter measurement toleran-ces.

The electrical resistance wires will not corrode. Once the weld has been madethey are entirely covered by PE.

The use of original Geberit equipement, especially tempered Geberit HDPEpipes, are recommended for correct welding.

Electrical sleeves can be made to slide by removing the central stop ring, thusmaking system conversion and repair work easier.

B.500.000/191

The stop ring can easily be removed with a screwdriver.

60

150

Ø 40 – 160

Ø 200 – 315

Electroweld sleeve coupling ø 40-160 mm

10

Assembly instructions are the same for both ring-seal sockets and screw-threadedjoints, the sleeve lengths are the same for corresponding diameters. The effective sleeve length, i. e. the measurement – X – from the O-ring to the base of the socketgoverns the maximum length of pipe which can be connected by individual joints.

For HDPE approximately 15 mm of spigot should be allowed for every 1 m of pipe.

The pipe must be fully inserted into the socket, because the socket does not act as an expander. Owing to the pipe thickness and the low thermal conductivity of HDPE, thesocket seal has very satisfactory resistance to heat and no shrinkage of the O-ringoccurs. The O-ring has a round seat regardless of pipe movements. The O-ring remains fixed inthe seat and is always in contact with the pipe.

Protection cap

Length «X» varies with the diameter Ideal fitting is obtained by chamfering the pipeend to approximately 15°, lubricating it withsoft soap, Silicone or Vaseline. Do not usemineral oil or grease which can damage therubber seal.

x

Ring-seal socket joint



a) to be openedd) non-tension-resistant

Use

Ring-seal socket joints can be used to provide a connection between various prefabri-cated parts for simpler assembly.

Assembly

May be used either vertically or horizontally. The small overall dimensions provide an advantage where space is limited. Can easily be assembled or released even whereaccess is difficult.

Ring-seal sockets are provided with a yellow protection cap to prevent the ingress ofdebris during installation.

11

12

Screw-threaded joint



a) to be openedd) non-tension-resistant

Use

Screw-threaded joints are used for assembly of various prefabricated partswhen it is necessary to easily dismantle and also as the connection to sinktraps and shower trays.

1

2

3

4

Complete screw-threaded joint

1. Nut2. Washer3. Seal4. Thread

The seal is pressed against the thread.

A minimum surface area of the seal is in contact with water.

The seal is pressed against the flange bushingand the thread.



a) to be openedc) tension-resistant

Use

Wherever there is the possibility that a pipe can be pulled out of a screw-threa-ded joint by axial tensile forces a flange bushing must be used to ensure thatthe connection will resist these forces. It is also recommended that a screw-threaded joint with flange bushing should be used when installing in floors orslabs, where the length of pipe between two connections (elbows, branches orsleeves) is longer than 2 metres.

1

2

3

4

1. Nut2. Flange bushing3. Seal4. Thread

Screw-threaded jointwith flange bushing

Screw-threaded jointwithout flange bushing

1

2

3

4

1

2

3

4

13

Expansion socket



b) not to be openedd) non-tension-resistant

Use

An expansion socket is recommended between anchor brackets, particularly oninstallations assembled with rigid joints and where excessive thermal movementis anticipated. At least one expansion joint must be provided on vertical stacks running fromfloor to floor, long collector pipelines and before connecting to the buried drainpipework.

Different conditions apply for underground installations. For this application fieldsee page 48.

Installation

Can be used either vertically or horizontally. One advantage is the depth of thesleeve which makes the assembly of downpipes and mains easier, allowingboth vertical and horizontal corrections (e.g. in level, and in the precise positio-ning of the direction of branches and elbows).

A firm anchor bracket must always be located behind the expansion socket toavoid any movement of the socket in the event of expansion or contraction.

The special shape of the seal allows the pipe to slide within the socket duringexpansion and contraction, ensuring that the connection remains perfectlywatertight even under heavy hydraulic load.

Horizontal assembly (e.g. at 20°C)

Example: Insertion depth in an ambient temperature of 20°C(Vertical assembly).

The following conditions are important to ensure perfect and easy assembly ofthe sleeve:

1. Chamfering the inserted pipe end to approximate <) 15°.

2. Check the scale on the outer surface of the expansion socket for insertion depth.

3. Mark the correct insertion depth on the pipe.

4. Lubricate the pipe end well with soft soap, Silicone or Vaseline.N.B. Do not use oil or grease which can damage the rubber seal.

For more information see pages 22, 28, 43.

A special expansion socket with stainless steel protection for the rubber sealcan be used for heavy duty industrial and laboratory applications.

14

Flanged joint

Loose flange

Nut and bolt

Seal

Flange adaptor

Blind flange

Bolts

Loose flange,PE coated

Flange adaptor

Seal

Flange adaptor

Loose flange

Nuts



a) to be openedc) tension-resistant

Use

Flanges are normally used as disconnectable joints for low pressure installations(industrial plant, pump connection, tanks and swimming pools).

The flange connection system offers easy connection to existing iron and steelinstallations.

As inspection access opening made by using a blind flange.

Flanges are sintered, i.e. they are coated with polyethylene, and have standarddimensions (PN 3.2 – PN 10).

15

PE-Silent coupling

d

D

H

E

E



a) to be opened

d) non tension resistant

Use

The application field of the coupling for HDPE-Silent is to connect HDPE-Silentpipes and fittings. The coupling enable an even inner surface of the connectionsand the noise requirements can be fulfilled.

Installation

It is advisable to mark the inseration depth of HDPE Silent coupling.Do the pipeends accordingly in order to ensure that they are not subject to tension.Support rings are not required for the Silent pipes and fittings.

PE-Silent coupling

d (mm) D (cm) H (cm) E (cm) Art. No.56 7.2 5.0 2.3 305.003.14.263 7.9 5.6 2.6 359.429.00.175 9.1 5.0 2.3 307.003.14.290 10.6 5.0 2.3 308.003.14.2

110 12.6 5.0 2.3 310.003.14.2135 14.5 5.2 2.5 312.003.14.2

16

Geberit HDPE contraction sleeve

d di (mm) H (cm) h (cm) h1 (cm) K (cm) for Ø (mm) Art. No.50/ 60 30 24 6 17 53– 54 152.651.16.1

73 27,5 22 5,5 17 60– 67 152.197.16.180 28,5 23 5,5 17 67– 74 152.198.16.190 30,5 23,5 7 17 80– 84 152.652.16.1

100 31 24 7 17 90– 94 152.653.16.156/ 60 26,5 20,5 6 14 53– 54 152.654.16.1

73 24,5 19 5,5 14 60– 67 152.149.16.180 24,5 19 5,5 14 67– 74 152.150.16.1

63/ 73 26,5 20,5 6 14 60– 67 152.657.16.180 24,5 19 5,5 14 67– 74 152.658.16.190 26,5 19,5 7 14 80– 84 152.659.16.1

75/ 80 25 19 6 12 67– 74 152.152.16.190 24,5 17,5 7 12 80– 84 152.151.16.1

100 15 8 7 12 90– 94 152.661.16.190/110 17 7 10 – 84– 98 366.550.16.1

110/125 16 6 10 – 102–111 367.551.16.1140 18 8 10 2,5 102–126 367.550.16.1

125/150 18 8 10 1 116–136 368.550.16.1160/195 20 8 12 1 148–180 369.550.16.1

230 30 14 18 5 189–212 369.551.16.1

200–315 available on request (see HDPE catalogue)

d

ABdi

K

Hh

h1

pipe end

ring seal rubber ring

Geberit HDPEcontraction sleeve

Laboratory sink

Available from ∅ 50 to 160 mm

Connection propertiesb) rigid, non-removabled) non-tension-resistant

UseThe Geberit HDPE contraction sleeve is a convenient connection possibility formost uneven, irregular or special materials.A common additional application method is also the connection from HDPE to different clay ware apparatus, e. g. for Laboratory sinks.

InstallationThe enclosed rubber ring will be placed over the pipe end. Make sure that the rubber ring will be placed in the middle of the sleeve length (h2). Then push thecontraction sleeve over the pipe end. Apply low heat (approx. 125°C) evenly around the socket, moving the blow lamp constantly.The sleeve will now shrink and give an absolute watertight and strong connection. Afterwards fix the contraction sleeve pipe with an anchor bracket.

For Ø 125–315 mm use two soft flames.

Contraction sleeve with seal

approx.125°C

Geberit contractionsleeve

Anchor bracket

rubber ring

AB

17

Geberit HDPE adapter clamp

Important:

If the joint from HDPE to steel –cast iron or earthenware – ismade with a coupling, it has tobe secured by an anchor bracket.

Install the anchor bracket as close as possible to the coupling.(Maximum 15 cm)

1 Anchor bracket

2 Butt weld seam

3 Coupling

4 PE adaptor with reinforcement ring

5 Steel, cast iron, clay, fibre cementpipes



a) to be opened

d) non tension resistant

Use

The adapter clamps have multiple functions and can consequently be used asadapters to thirdparty materials as well as any other types of connection.

Installation

It is necessary to insert an appropriate reinforcement ring into the ends of theHDPE-pipe first when these clamps are used as adapters to HDPE-pipes orfor HDPE-pipe connections.

18

Geberit HDPE adaptors

Pipe threads (for detail information see HDPE catalogue)

Connection to: Thread dia. Geberit dia. Material

Male pipe thread 1/2”–21/2” 40–75 mm HDPE with steel ring reinforcement

Female pipe thread 11/4"–21/2” 50 – 75 mm HDPE with steel ring reinforcement

Female pipe thread 11/2"–2" 50 + 56 mm Adaptor in brass + PE nut

Threaded pip ends (for detail information see HDPE catalogue)

Soldering / Welding (for detail information see HDPE catalogue)

Connection to: Thread dia. Geberit dia. Material

Connection to: Pipe dia. Geberit dia. Material

Male-thread 11/4”–2" 32–50 mm HDPE, upon request also available with nut in brass

Male-thread 60 x 1/8” 40 + 50 mm HDPE

Female-thread 1/2”–1" 40 + 50 mm HDPE, with brass nipple

Male pipe thread 2"– 3" 56 + 75 mm Adaptor in brass + PE nut

Lead 50/60 56 mm Brass with PE nut forsoldering

Lead 50/60 56 mm Lead with PE nut for welding or soldering

PVC 50 + 63 56 mm PVC for solvent cement joint + PE nut

19

Water proofing

Attention: Thermal expansion or contraction of the pipe is to be prevented.Maximum water pressure 0,1 bar.

Installation examples

50 cm

50 cm

PipeSealing

Waterproofingmembrane


Electroweld sleeve coupling (to prevent expansion or contraction)

Expansionsocket

Anchor BracketReducer

Access pipe

Sealing


Wherever a water proof layer is required, the Geberit sealing for passagesthrough walls or ceilings provides a perfect watertight seal between the HDPEpipe and the water proof membrane.

Type 1: «Resistit» for connection with bitumnType 2: PVC to be welded with PVC sheetType 3: PE to be welded with Sarnafil FPO-A-foilFor Geberit HDPE pipes Ø 50, 56, 75, 110, 125 mm

20

Thermal movement

Physical principal: All materials expand as temperature increase.If the temperature falls, the material contracts.

α = 0,2 mm/m • K

Rule of thumb: ∆t 50° = 10 mm/m

Geberit HDPE Expansion Coefficient

Length Variation Table

30°C

80°C

0°C

Example:

1. Sought: Thermal expansion ∆L

2. Given:Maximum temperature = 80°CInstallation temperature = 20°CTemperature difference ∆t = 60°C

Pipe length = 4 m

3. Result:Thermal expansion ∆L = 4,8 cm

= 48 mm

Pipe length

Tem

pera

ture

diff

eren

ce ∆

t in

°C

Determination of thermalexpansion of HDPE(average linear expansioncoefficient 0,2 mm/m K)

1000 mm

1010 mm

994 mm

5000 mm

5050 mm

4970 mm

Length alteration (∆L) of the expansion leg in cm

21

Thermal movement

There are alternativemethods of installing theGeberit HDPE Drainage

System.

Factors that will influencethermal movement

Methods of accomodatingthermal expansion

and contraction

Prevention of thermal expansion and contraction

Deflection Leg ExpansionSocket

Rigid Fastening InstallationEmbedded in

Concrete

22

2

4

6

8

10

12

14

16

18

20

0 20 40 60 80 100 120 140 160 180 200 220 240 260

4,8

73

Länge des Biegeschenkels BS in cm aus Formel BS = ca. 10 x L x D

Bestimmung desBiegeschenkels aus PE

Aussen-ø

Läng

enän

der

ung

L

des

Deh

nung

ssch

enke

ls in

cm

4032 50-63 75 90 110 125 140 160 200 250 315

Deflection leg

Compensating thermal expansion by deflection leg

+80°C +20°C –10°C

4000

G G A

A

DL

+ 60 – 30

G Guide bracketA Anchor bracketDL Deflection leg

Determining the length of the deflection leg by calculation

Length of the deflection leg (DL) in mm according the formula

Outer-Ø

Line

ar e

xpan

sion

or

cont

ract

ion ∆

L in

cm

Determination of the deflection leg of HDPE

10 x √∆L x ∅ Example: DL = 10 x √48 x 110 = 730

Determining the length of the deflection leg fromchart

Length of deflection leg DL in cm. Formula DL = ca. 10 x √∆L x ∅

∆L = L x α x ∆t

23

Expansion socket

The Geberit expansion socket is designed to counteract the variation in length due tothermal expansion and contraction of max. 6 m Geberit HDPE pipes.

Application: HorizontallyVertically

Diameter: Ø 32 – 315 mm

Legend: Expansion socket: compensates the change of lengthBracket: provides an anchor pointElectroweld sleeve: holdes anchor bracket in position

Note: Each expansion socket needs to be fixed with 1 anchor bracket.

Anchor bracket for expansion socket

Thrust force «P» when inoperationØ Thrust force P (kg)50–63 1075 1290 20

110 30125 40160 70200 100250 150315 220

The table beside shows the correct pipe nipple diameter required depending on distance «L» to effectively withstand thrust force «P».

The main purpose of the anchor bracket is to prevent any movement of the expansion socket.

The distance «L» and the thrust forces «P» have to be taken in account, when selecting the diameter of the pipe nipple between mounting plate andbracket.

The thrust force «P» is the slide resistance between rubber seal and HDPE pipe.This force depends on the pipe diameter.

Diameters of Geberit HDPE pipe

Distance 50/56/63/75/90 110 125 160 200 250 315from ceiling Pipe nipple used

L (mm) Ø Ø Ø Ø Ø Ø Ø

100 1⁄2" 1⁄2" 1⁄2" — — — —

150 1⁄2" 1⁄2" 1⁄2" 1⁄2" — — —

200 1⁄2" 1⁄2" 1⁄2" 1⁄2" 3⁄4" 1"

250 1⁄2" 1⁄2" 1⁄2" 3⁄4" 1" 1" 5⁄4"

300 1⁄2" 1⁄2" 1⁄2" 3⁄4" 1" 5⁄4" 5⁄4"

350 1⁄2" 1⁄2" 1⁄2" 1" 1" 5⁄4" 11⁄2"

400 1⁄2" 1⁄2" 3⁄4" 1" 1" 5⁄4" 11⁄2"

450 1⁄2" 1⁄2" 3⁄4" 1" 5⁄4" 5⁄4" 11⁄2"

500 1⁄2" 3⁄4" 3⁄4" 1" 5⁄4" 11⁄2" 2"

550 1⁄2" 3⁄4" 3⁄4" 1" 5⁄4" 11⁄2" 2"

600 1⁄2" 3⁄4" 1" 1" 5⁄4" 11⁄2" 2"

P

24

Guide brackets

The main purpose of guide brackets is to support the pipe and allow the axial movement caused by the effects of expansion and contraction.

Application: For all fixations of Geberit HDPE pipes Ø40-315mm except for anchor brackets.

+B.362.826/001

+

+ +

+

+ +

Diameter Ø 40 –160 mm

+

+

B.362.837/001

B.362.826/001

B.362.826/001

1⁄2" 1⁄2" 1⁄2"

1⁄2" 1⁄2"1⁄2"

1" 1" 1"

M10 M10M10

Diameter Ø 200 –315 mm

Geberit PE-Silent Ø 75 +110 mm

OR

25

Spacing for brackets

Horizontal installation:

SA = max. 10 x ∅

Vertical installation:

SA = max. 15 x ∅

A = Anchor BracketG = Guide BracketSA = Spacing between anchor bracket and guide bracketSB = Spacing between guide brackets (see table below)E = Expansion socket

A

SB SA

Spacing of guide brackets SB:The table indicates the maximum distance between guide brackets (G) for Geberit HDPE pipes.

Nominal Spacingoutside of brackets (SB)diameterd Horizontal Vertical(mm) (m) (m)

32 0,5 1,2

40 0,5 1,2

50 0,8 1,2

56 0,8 1,5

63 0,8 1,5

75 0,8 1,5

90 1,0 2,0

110 1,5 2,0

125 1,5 2,0

160 1,5 2,0

200 2,0 2,0

250 3,0 3,0

315 3,0 3,0

max. 6 m

SB

SA max. 15 x ∅

A

G

G

G

A

Geberit HDPE pipes are to be fixed with anchor brackets (A) and guide brackets (G).

The distance between the anchor bracket and the first guide bracket must be respected as follows:

26

E A

A Examples of installing Geberit HDPE expansion socket

Principal: Every pipe installation exceeding a certain distance (6 meters) must be protected against mechanical load with an expansion socket.

A Rainwater downpipe

Rainwater downpipes are generally not subjected to large temperature changes except for those outside of buildings exposed to sunlight.

In vertical pipelines the distance between the brackets can be calculated approx. as follows:

15 x pipe diameter

(max. distance see p. 26)

A = Anchor bracketG = Guide bracket

27

B Examples of installing Geberit HDPE expansion socket

B Stacks

Not only does the HDPE expansion socket absorb thermal expansion and contraction due to temperature changes caused by water discharge, but it alsomakes pipe assembly easier, assisting connection at each floor level.

Rule: One Geberit HDPE expansion socketat each floor level

1. Free-standing stack with branch 2. Stack with branch in concrete

Anchor point

A

G G

A

G

A

G


28

C Examples of installing Geberit HDPE expansion socket

C Horizontal suspended collector pipeline

When fitting collector pipelines extend 6 m it is necessary to fit expansion sockets and secure them with anchor brackets (see p. 24).Between the anchor brackets, guide brackets must be installed at the distanceSA or SB (see p. 26).

Rules: – Maximum distance between Geberit HDPE expansion sockets 6 m

– Inserting depth depending on ambient temperature– Anchor bracket directly on each Geberit HDPE expansion

socket– Guide brackets located along the collector pipeline

(see page 26).

Example

max. 6 m max. 6 m max. 6 m


GGGG G G G G G

AA

A A A

29

D Examples of installing Geberit HDPE expansion socket

D Combination of stacks and collector pipelines

Rules: – One Geberit HDPE expansion socket at each floor level– One Geberit HDPE expansion socket at each branch – One Geberit HDPE expansion socket at each change

of direction – Anchor bracket on each Geberit HDPE expansion socket.

Example

8 m

4,2 m

A

A

A

A

A

A

AA

A

A

8,4 m4,2 m

5,5 m

10 m

5 m

5 m

5,5 m

A = Anchor bracketG = Spacing between guide brackets in accordance to the rules (p. 25).

30

Principal: Any variation in length must be prevented by embedded fixed points (electroweld sleeve couplings, branches, bends or collar bushes) or by the provision ofcorresponding fixed point structures.

A Rigid installation with anchor brackets

Anchor brackets for rigid fixings must be stronger than possible expansion or contraction forces (P) of the HDPE pipe (see table).

Expansion and contractionforces

Geberit Ring- Column 1 Column 2HDPE pipe square (Normal installation) (Outside installation)

ca. + 20°C bis + 90°C ca. + 20°C bis – 20°Cd cm2 force kg force kg40 3,5 85 22150 4,4 105 27756 5,0 125 31563 5,8 140 36575 6,8 170 42890 9,5 240 598

110 14 350 882125 18,5 460 1165160 29,6 740 1865200 37,7 940 2375250 59,5 1490 3750315 93,9 2350 5915

Example:

This table shows that in the low temperature range (column 2) the forces are greater than in the high temperature range (column 1).

Prevention of thermal movement

31

Ø40–315

Anchor bracket for rigid installations

Rules: Anchor brackets must be stronger than the possible forces generated during thermal expansion or contraction of Geberit HDPE pipes.

Examples of anchor brackets

Dimension of pipe nipple or flat iron profile

Mounting plates

The examples of anchor brackets below show a typical rigid installation.

Anchor bracket with double electroweld sleeve coupling.

Anchor bracket with electroweldingtape.

Anchor bracket with flat iron and electrowelding tape.

Ceiling Geberit-Dimensionsor wall 50–56 63–75 90 110 125 160distance Pipe W W WL · (mm) Ø Ø Ø Ø cm3 Ø cm3 Ø cm3

100 1⁄2" 3⁄4" 1" 1" 5⁄4"

150 3⁄4" 1" 1" 5⁄4" 5⁄4" 2"

200 3⁄4" 1" 5⁄4" 11⁄2" 11⁄2" 2"

250 1" 1" 5⁄4" 11⁄2" 2" 9,3

300 1" 5⁄4" 5⁄4" 2" 2" 11,2

350 5⁄4" 5⁄4" 11⁄2" 2" 2" 13,0

400 5⁄4" 5⁄4" 11⁄2" 2" 9,0 15,0

450 5⁄4" 11⁄2" 2" 2" 10,1 16,8

500 5⁄4" 11⁄2" 2" 9,5 11,3 17,7

550 5⁄4" 11⁄2" 2" 10,5 12,4 20,5

600 11⁄2" 11⁄2" 2" 11,4 13,6 22,4

These plates are dimensioned on the basis of stresses which they have to withstand (force P). Plates with 1" to 2" sockets can be provided on request.

The distance «L» and the thrustforce «P» have to be taken inaccount, when selecting the dia-meter of the pipe nipple betweenmounting plate and bracket. For therequired pipe nipple dimension seetable beside.

L L P L PP

100

W = indication coefficient for steel profile.

32

Embedded fixed points

Principal: Any variation in length must be prevented by embedded fixed points in concrete (e. g. electroweld sleeve couplings,branches, bends or collar bushes) or by the provision of corresponding fixed point structures.

B Embedding in concrete

Basically Geberit HDPE material absorbs within itself thermal movement due toits high elasticity. However, in the case of large diameters (e.g. 315 mm) the forces «P» (resultingfrom expansion and contraction) are considerable. They must be absorbed by the embedded fixpoints alone, since cement/concrete will not adhere toHDPE pipework.

Since the fitting has to act as a fixpoint, do not insulate it.

Under no circumstances should a ring seal or expansionsocket be embedded in concrete.

Reduced small branches of large pipe diameters must be securedby an additional anchor point (electroweld sleeve couplings orcollar bushes) to prevent shearingoff of the branch.

Branch equal Branch equal with reducer

33

Cut pipe properly with Pipe Cutter Hand Mitre Saw

Cutting surface must stay clean, therefore do not touch the cutting surface with your hands!

Cut pipe square!

Ø 32–160 mm Ø 200–315 mm

The allowance for butt welds is approx. as big as the wall thickness of the pipe

pipe diameter (mm) 32–75 90 110 125 160 200 250 315

butt weld s (mm) 3 4 5 5 7 7 8 10

Allowance for butt welds

34

Mounting instructionsGeberit HDPE butt welding – Preparation

Geberit HDPE butt welding by hand (for pipes ∅ 32 – 75 mm)

Check temperature of the welding plate. Do not start with welding procedurebefore the green light is on.

1

Only press the pipe sections at thebeginning against the welding plate.Then hold without pressure.Watch melting process carefully.

2

When melted bulge is about as bigas a half of the wall thikness, takeoff both pipe sections simultane-ously and quickly press them carefully together.Increase welding pressure until youattain necessary pressure (see tablebeside).

3

Maintain the max. pressure until thewelding seam has cooled (approx. 30 secs. down).Do not accelerate the cooling down by contact with cold objects orwater.

4

Check visually the welding joint

Indicative values for welding pressure

Ø kg

32 5

40 6

50 7

56 8

63 9

75 10

Correct

False:out of axial alinement

Too high pressure at the start of the welding procedure

Uneven welding heat

Indicative values for weldingand warming-up times

Wel

ding

tim

e in

min

.

Welding time

Warming-up time

5

4

3

2

1

0mm 2 4 6 8 10 Pipe wall

thicknessø 56 110 250

35

Geberit HDPE butt welding by machine(for pipes ∅ 40 – 315 mm)

506375110

90125

160

TYP

MEDIA 84

MASCH. NR.

Place pipe parts in the tension plates and fixthem in a line.

1

506375110

90125

160

TYP

MEDIA 84

MASCH. NR.

1 cm 1 cm

Press pipe partslightly against theplaning disc andcut the ends until they arecompletly cleanand plane.Check the cutfaces by bringingthem together.

2

506375110

90125

160

TYP

MEDIA 84

MASCH. NR.

506375110

90125

160

Melt pipe endswith weldingplate (green lighton) until the melted bulge isabout as big ashalf of the wallthickness de-pending on sizeof pipe.

3

506375110

90125

160

TYP

MEDIA 84

MASCH. NR.

Carefully presstogether bothparts with neces-sary welding pressure (seescale). Do not release the locking handle before the complete cooling(approx.40 secs.).

4

MEDIA∅ 40 – 160 mm

UNIVERSAL∅ 40 – 200 mm

Set of accessories∅ 200 – 315 mm(for UNIVERSAL only)

506375110

90125

160

TYP

MEDIA 84

MASCH. NR.

36

Geberit HDPE electro weldingPreparation

Cut pipe square

Dry, clean and scrape weldingends. Remove burr.Welding ends must remain dryduring the whole welding process.

ø 40–160 mm

ø 40–160 mm

ø 200–315 mm

3.5 cm3,5 cm

37

Geberit HDPE electro weld sleeve coupling(for pipes ∅ 40 – 160 mm)

B.500.000/192

3 cm3 cm

Insert pipe or fitting ends into the sleeve coupling.

1

Right

Wrong

2

3

4

Connect electrofusion machine,start welding procedure.Welding time approx. 70–90 sec.

After the «END» indicator has turned on, remove the connectioncable. The protruding yellow indicator indicates whether the welding process was performed correctly.

If required for the sake of appearan-ce, the electrical connector socketon 40–160 mm dia. electroweldingsleeves can be removed after theend of installation work.

Geberit Electro fusion machine ESG 40/200

Electroweld sleeve coupling

Note: Basically, electroweld sleeve couplings should not bewelded twice. However, in excep-tional cases a repetition can bedone, but wait at least 1 hour untilthe socket has completely cooleddown.

000/191

38

Geberit HDPE electroweld sleeve coupling (∅ 200 – 315 mm)

Dry, clean and scrape weldingends.Remove burr.Welding ends must remain dryduring the whole welding process.

11

22

33

44

55

Mark insertion length 75 mm.

Mount centering rings to ensure proper welding.

Insert pipe or fitting ends into the electroweld sleeve coupling.Connect start switch cable.Press start button briefly.Working temperature: –10 oC - +40 oC

Wait for at least 15 minutes after weld has been completed beforeremoving the centering rings.Do not remove the plastic sheet insulation until the sleeve has completely cooled down.

Geberit Start switch 230 V/50 Hz

Thermo sleeve coupling

Note: The same sleeve couplingcannot be welded twice , sincethe built-in thermo fuses shut offautomatically after the necessarywelding temperature has beenreached.

Welding time:ca. 5 to 7 minures at 20 oC

39

Prefabrication

«Light weight» – easy tohandle

Wide range of fittings, excellent tools and the light weight of Geberit HDPE = perfect performance for prefabrication.

• The good characteristics of the Geberit HDPE offer an easy way to prefabricate pipe assemblies.

• Through the butt welding technique, the pipes and fittings can be easily connected to make many big combinations.

• Complicated labour at the site is eliminated by the clean and easy organizedwork at the workshop.

• Afterwards, at the site the prefabricated combinations can be assembled very fast.

Description

Advantages • Simplified work

• Easy time management

• Time saving

• Higher performance

• Higher quality

• Professional impression

• Short time at the site

• No loss of material

40

10170

Prefabrication

Procedure Measurements (Preparation)Take measurements on site and mark the positions of all fixtures on thewalls and floor.

2.1 Using the isometrics method

Part Ø c–c ./. total

1 Pipe 110 450 140 3102 Pipe 63 620 430 1903 Pipe 63 765 188 5774 Pipe 63 .... .... ...5 .... ..... .... ... ...6 ...789

2.2 Using Geberit software

Design drawingPrepare the design and detailed drawing.

1

2

70 60 60 70 55

1614

41

Prefabrication

Cut pipe square

B.600.000/020

Prepare pipes and fittings

Shorten fitting

Weld pipes and fittings together with the Geberit welding machine MEDIA or UNIVERSAL.

Prefabrication of assemblies

The prefabricated assemblies can be connected on site with the electroweld sleeve coupling.

Installation on site

3

4

5

Jointing possibilities

42

Electric repair tool(Art. No. 395.049.00.0)

Clean repair area well withscraper, knife or emery cloth.

1

Screw suitably sized insertonto front or side of heater.

2

"BARY"

Kunststoff-Schweissapparate

Type: A-

Volt 230

Watt Nr. W.Riesen Basel (Schweiz)

Dittingerstra

sse 45

Heat simultaneously repairarea and patch.

3

Press softened patch quicklyonto repair area.

Cut of projecting tail. Clean the heater.

4

5 6

"BARY"

Kunststoff-Schweissapparate

Type: A-

Volt 230

Watt

Nr.W.Riesen Basel (Schweiz)

Dittingerstrasse 45

Repairing holes in HDPEpipes and fittings and in PEconcealed cisterns

43

Thermal expansion sockets (application in buildings)

Mounting instructions

Prepare pipe insertion end.

1

Mark insertion depth on the pipe. Consider outside temperature.

2

Remove yellow protection cap.

3

Lubricate pipe end and rubber seal. Only use soft soap, Silicone orVaseline. Do not use mineral oil or grease !

4

Push the pipe into the expansionsocket.

5 On the building site, protect the seal fromingress of dirt. Wrap a felt bandagearound and secure with adhesive tape.

6

at 0°C (32°F) at 20°C (68°F)

Important: Fix each expansion socketwith an anchor bracket !

Please note:

The marking of the insertiondepth and the assignedlength of pipe on the expansion socket does notapply for buried pipes, unlessthe same temperature fluctua-tions as in the building draina-ge system are anticipated.

maximal pipe length: 6 m !

8 cm 10,5 cm

44

Speciall application fieldsUnderground drainage pipes for housing

Underground drainage pipes of Geberit HDPE

Not only has Geberit HDPE provenitself excellently for many years fordrainage systems inside of buildingssuch as:– soil and waste stacks– vent pipes– connection and branch pipes– collector pipes

but it is also suitable for under-ground applications as:– ground pipes– domestic drainage pipes

Criteria for underground drainage pipes

1. Tightness

Environmental protection regulations do not permit leaking drainagepipes.

Geberit HDPE is a reliable water drainage system which assures maximum dependability with regardto tightness.

2. Resistance to chemicals

Geberit HDPE provides the assu-rance of universal resistanceto the greatly diversified types ofchemical attack by the disposalwater, as well as by external factors(acidic soils).

3. Flexibility

Geberit HDPE is a flexible, operatio-nally reliable drainage system, evenin soils in which a certain degree of settling of ground must be anti-cipated.

4. Resistance to frost

Geberit HDPE has proven itself excellently for many years in frost endangered soils such as in Scandinavia. It can be used in tem-peratures ranging down to –40°.

5. Material

As in domestic drainage systems,the quality of the material is themain criterion for underground

applications. In addition to theattack from the inside, the pipesare also subjected to attacks fromoutside. Geberit HDPE excellentlystands up to all these requirements.

1 Ground acids 2 Stray currents3 Disposal water (with chemical

and thermal attack)4 No enter of roots

6. Friendly to the environmentThe Geberit HDPE drainage systemscomply with environmental regulations.

13

2

4

45

D

10 cm

B

A

D

A=D + min. 100 mm

Trench profiles

Important for underground installa-tion is correct laying of the pipe in thetrench, as well as careful consolida-tion.

B = Bedding The pipe must have a bedding of atleast 100 mm.

C = Consolidation Side fill to upper edge of pipe.

P = Protective layerWith trench profile 1A cover toabove top edge of pipe over entirewidth of trench min. 300 mm

HS = Safety heightwhen using mechanical compac-tors:Vibration compactor

1,000 N HS = 0,4 mVibration roller

3,000 N HS = 0,3 mVibration roller

15,000 N HS = 0,5 m

D = Consolidation stratum depthmin. covering: In area of road 0,8 m Outside road area 0,5 m

Max. covering: Up to 6 m without problem

In cases of minimum coverings or heavy loading, measures such asload distribution plates or appropria-te trench profiles are to be used.

Traffic loadsHeavy traffic P = 9 tonsNormal traffic P = 6 tons

Away from roads:always P = 3 tons

Filling materialGrain size Round gravel 0 = 30 mmBroken material 0 = 10 mm

min. 60 cm

20 cm

D

HS

P

C

B

Profil V1A

Behavior: flexibleEmbedmentRound gravel 0 – 30 mmBroken material 0 – 10 mm

10 cm

B

A

Profil U4A

Behavior: rigidEmbedmentin concretePC 200 kg/m3

Profil U4B

Behavior: rigidEmbedmentin reinforced concretePC 250 kg/cm3

20 cm

HS

P

C

B

Profil U1A

Behavior: flexibleEmbedmentRound gravel 0 – 30 mmBroken material 0 – 10 mm

For all trenching work the local guidelines, standards and regulations must be observed.

46

Guidelines for laying drainage pipes

TrenchThe trench is to be dugas narrow as possible –but not narrower than thepipe diameter + 40 cm.The floor of the trenchmust be level and freefrom rocks and looseclumps. Correct elevationand slope are also impor-tant.

1 B = Bedding Under normal soil condi-tions the trench is provi-ded with a bedding layerof round gravel (gradingup to 30 mm) or of bro-ken material (grading upto 10 mm) of a thicknessof approx. 100 mm. Thebedding layer must becompacted and tamped.In certain cases it will beneccessary to reinforcethe ground.

2 U = Underpinning After the pipe has beenlaid, recesses are to beprovided for sockets andflanges so that the pipe issupported along its entirelength. The underpinning isto be done with a tampingpost or the like. It must bedone very carefully. If seve-ral pipes are laid, makesure that the lowest one isfully covered before theone above is placed. Thepipe must lay flat, and itmust be installed with thecorrect slope.

3 C = Consolidation layer The material is to be filledin layers of approx. 100mm thickness. Tampingcan be done by stampingwith the feet, or with aspecial tool. The purposeof this material is to helpprevent the pipe fromdeforming, so that it mustbe compacted well onboth sides at the sametime .

4

1

2

P = Protective layer Now fill in a layer of thesame material (must notcontain rocks whichcould cause point loadingof the pipe) of at least300 cm. Attention: To prevent thepipe from rising thetrench is to be finish-filledon the same day up toand including the protec-tion layer.

5 HS = Safety marginheight For the further filling the available material is to beused. The trench must notcontain rocks which can-not be lifted by hand.As soon as permitted by the safety margin height, this compacting can be done by machine. Theregulations and byelawson the refilling of trenchesare to be observed.

6 Distribution of ground pressureThe ground pressure and ground load distribution are gover-ned essentially by thecompaction. For calcu-lation the appropriatestandards and the local building and safety regulations are to beobserved.

1 Ground load and possible traffic load

2 Shoring pressure

For all trenching work the local guidelines, standards and regulations must be observed.

BU C

P

HS

47

Rigid installation

Rigid fixation The rigid fixings must be stronger than the possible expansion or contraction forces of the HDPEpipe.

Geberit pipes can be installed rigidly with relatively low effort, forwhich the following elements arerequired:

1 Concrete mound as an anchor point

2 Electroweld sleeve coupling 3 HDPE pipe

48

1

3

Please note:The scale found on the outer surface of the socket does not apply in the case of undergroundinstallations.

Underground installation ofGeberit expansion sockets

In addition to the butt-welded and electrically welded connection, the expansion socket is an idealconnection in underground draina-ge systems. Since in such systems lower temperature differences areusually encountered than in stacks and connector pipes, smaller length variations can be accounted for.

For this reason in underground installations the distance betweenexpansion sockets can be longer.

The values arev calculated accor-ding to the formula

SL – (0.3 • d)0.006

and rounded off.

Nominal Socket Pipe length Insertionoutside length SL PL (for ∆t depth IDdiameter ≤ 30°C)d (mm) (mm) PL (m) (mm)

110 140 15 130

125 140 15 130

160 140 15 130

200 220 20 230

250 220 20 230

315 220 20 230

Fitting of the underground expansion socket in the installations

Insert beveled pipe to maximum socket depth, mark and pull back 40 mm.

Prepare the pipe end

The pipe end should be chamferedand lubricated with soap to easeinserting.

d

ID (insertion depth)

PL (pipe length)

SL (socket length)

PL

4cm 4cmID

49

PL ≤

With regard to the ground line between the building wall and the street sewer, where extreme settling can occur, an installation mat must be wrapped around the ground line to act as a deflection leg.

In such cases Geberit HDPE is an ideal material, since it assures tightness and at the same time provides maximum flexibility.

Deflection leg The length of the deflection leg is dependent upon the expected settling and on the pipe diameter.

Length DL = 10 · |/ ∆ S · ∅

Note: The insulation must be thicker than the expected settling.

Pipes penetrating through building walls

Expected settling GeberitHDPE pipe Deflection leg∆ S ø DL20 – 40 mm 125 – 160 /200 – 315 1,0 m /1,0 m40 – 60 mm 125 – 160 /200 – 315 1,0 m /1,5 m60 – 80 mm 125 – 160 /200 – 315 1,5 m /1,7 m

1 See page pipe2 Settling3 Insulation mat4 HDPE pipe (Ø)5 Foundation slab6 See page liningDL = Deflection legS = Insulation thickness∆S = expected settling

H

d

D

LExamples for water proofing see p. 19

50

Connection to manhole

Open manhole

Access pipe with oval access cover

Plastic pipes should only be connected with manholes bymeans of a special manhole sleeve. Since settling of ground has to beexpected such a sleeve must have the same ideal characteristics as Geberit HDPE: it must assure tightness and at the same time fle-xibility.

A rubber ring provides the flexibleseal between sleeve and plasticpipe.

1 Concrete2 Manhole sleeve 3 Geberit HDPE pipe4 Bench5 Anchor point if required

1 Concrete

2 Manhole sleeve

3 Access pipe (Art nr. 3xx.454.16.1)

Geberit access pipe with oval access cover

51

1

2

3

Drainage requirements for bridges

Traffic safety/Maintenance

Geberit HDPE also meets the special requirements for all types ofbridges. The pipes and the widerange of fittings provide an easydesign and execution at the cons-truction site. The smooth walledpipes make a trouble-free mainte-nance and service possible, whereby all modern cleaning equip-ment can be used.

Heating tape

Where the bridge crosses a river, railway or another road, an absolu-tely watertight system is essential. In accordance with the anti-pollutionlaws, protection must be maintained in the event of an accident.

1 Silt trap2 Connector

pipe3 Collectorpipe

Frost protection

Ground water protection

Piping Arrangement

Geberit HDPE can be installed in temperatures down to –40°C. However, to ensure water flow in the pipe an automatic-controlledheat trace can be fitted.

Collector pipe (The inlet into the collector pipe is made with 135°Y-branch fittings).

52

Drainage of bridgesInstallation indications

Laid in concrete

Piping embedded in the bridgestructure can never be replaced. Itis therefore essential that a drainagematerial which offers the greatestsecurity is used. When choosingthis material, the consolidation ofthe concrete, temperature varia-tions, contraction and creep, as wellas the prestressing of the bridgemust be taken into consideration.

Thermal movement

The following points must be obser-ved

– Location of supports or piles

– Horizontal movement of

the bridge on the supports

– Deflection of the bridge

– Swaying of the bridge

– The watertightness of the expan-sion socket (example 1)

In the case of example 2 an expan-sion funnel is required to absorb thelateral movements.

Fixing

The spacing of the guide bracketsfor HDPE piping is 1,5 m and maynot be exceeded. With all plasticpiping, the pipe bracket should havea minimum width of 60 mm, inorder that the stresses due to theweight of the filled pipe is well distributed.

Expansion socket Expansion funnel

Guide bracket

Example 1 Example 2

53

Low pressure installation

Low pressure application

Discharge pipeline of a pump set

Generally the Geberit HDPE product range is designed for water drainagesystems. For the low pressure range, e. g. swimming pool, pipework through circulationpumps, Geberit has established maximum admissible stressing values for anendurance life of 10 years.

Pressure max. 1,5 bar

Temperature max. 30°C

Longterm rupture strength 10 years

All connections must be butt weld joints, electroweld sleeve couplings or flange joints.

Suitable fitting range for low pressure application see page 4.

The Geberit HDPE range of products can also be used for the discharge pipeline of a pump set, provided that the mechanical stress is low, only of shorttime and no thermal loaded medium (e.g. warm water) is pumped.

When designing discharge pipelines for drainage pumps the following importantpoints should be observed:

1. The discharge pipeline has to be installed higher than the lowest installedappliance by means of a pipe loop.

2. If the flow rate is smaller than 5 l/s the vertical fall section of the pipe loophas to be increased.

3. If the flow rate is above 5 l/s the vertical stack has to be vented with aventilation pipe of at least 50 mm inside diameter.

4. Long horizontal collector pipes have to be vented. The minimal inner diameter of the vent pipe must be 57 mm or 2 dimensions smaller thanthe discharge pipe.The ventilation pipe must be higher than the total delivery head of thepump and must go above the roof.

Pumpedpressurepipeline


Vertical stack

Vertical stack

Vertical stack

Collector pipe


Vertical stack

Collector pipe

PumpedpressurepipelineV· > 5 l/s

Vent≥ 50/56

Side vent≥ 50/56

Collector pipe

Vertical discharge stackPumped

pressurepipeline

Vent ≥ 50/56 Side vent≥ 50/56

Collector pipe

54

External pressures Internal negative pressures

External pressures

Permitted external pressures

Geberit HDPE pipes will withstand external pressures according to the tablebelow depending on the pipe diameter.

The maximum level of the groundwater table has to be taken into account whendesigning Geberit HDPE pipelines in a groundwater area.

Internal negative pressures Geberit HDPE pipes will withstand internal negative pressure according to thetable above depending on the pipe diameter.

Geberit HDPE pipes are sometimes used as suction pipelines for pumpsets. The higher the suction lift is, the higher the negative pressure inside the pipeline.Important with such an installation is that the foot valve and strainer are notblocked. Foot valve and strainer of the suction pipeline should be kept free from debris,possible blockage could lead to additional pressure increase.

Pipe Wall thickness External pressures (mm) bar m Water column

32 3 4,8 49,0

40 3 2,5 25,5

50 3 1,4 14,3

56 3 0,82 8,4

63 3 0,64 6,5

75–160 3–6,2 0,36 3,7

200–315 6,2–9,8 0,18 1,8

For adequate fittings see page 4

Permitted internal negative pressures

Pipe Wall thickness Internal negative pressures (mm) bar

32 3 1,0

40 3 1,0

50 3 1,0

56 3 0,82

63 3 0,64

75–160 3–6,2 0,36

200–315 6,2–9,8 0,18

For adequate fittings see page 4

55

Fire protection

Depending on the type of building different fire protection will be required (see local fire regulations for buildings).

Building partsThe requirments for building com-ponents are classified in fire resi-stant classes in order to maintain maximum integrity of the relevantwall, floor or ceiling.

The weakening of a fire protection wall or ceiling is not allowed underany circumstances.

The integrity of the wall or ceilingwill be maintained for the permitted periods when Geberit fire stoppersare used as illustrated.

Passing through wall andceiling

Installation and time of fire resistance

Fire resistance Fire resistance Materialclass time (minutes) (example)F 30 30 50 mm gipsum boardF 60 60 100 mm brick-wallF 90 90 120 mm brick-wallF 120 120 150 mm brick-wallF 180 180 250 mm brick-wall

Gr. 10 Gr. 10

Installed on the ceilingFire class F 90

Installed on both sides of the wall Fire class F 120

Use only for:

1211

109

8

7 6 5

43

2

1

STOP!90 Min

1211

109

8

7 6 5

43

2

1

STOP!90 Min

56

1211

109

8

7 6 5

43

2

1

STOP!90 Min

102683_ZEI_000_00.EPS

Geberit HDPE Fire stoppers

Housing with flexible fastening brackets

Foaming firestop material

Insulation against solid-bornenoise

Lock with locking ring

Wedge-type staybolts forfastening when retrofitting

Identification plate

Function:

Measurements: Art. Nr. d1 (cm) D (cm) L (cm) I1

363.815.00.1 6.2 7.2 8.5 3.5 3

364.815.00.1 6.5 7.7 8.5 3.5 3

365.815.00.1 8.8 10.8 10.0 5.0 4

366.815.00.1 10.1 12.1 10.0 5.0 4

367.815.00.1 12.0 14.0 10.0 5.0 4

368.815.00.1 13.4 16.6 11.0 6.0 5

312.815.00.1 14.2 17.2 11.0 6.0 5

369.815.00.1 16.7 19.9 11.0 6.0 6

370.815.00.1 20.5 23.7 13.0 8.0 7

994.871.00.0

Geberit R

ohrschott90

R 90

Z-19.17-1365

Geberit G

mbH,

D-88630 Pfullendorf

........

........

Rohrabschottung:

Dispositif coupe-fe

u

Compartimento non infiammabile

Leidingmanchet

Brandmanchet

Fire protectio

n sleeve

Feuerwiderstandsklasse:

Classe de résistance

Classificazione del fu

oco

Brandweerstandsklasse

Brandmodstandsklasse

Fire protectio

n classificatio

n

Zulassungs-Nr.:

Numéro de certificatio

n

Numero di concessione

Keuringsnummer

Godkendelses nummer

Approval number

Hersteller:

Fabricant

Produttore

Fabrikant

Fabrikant

Manufacturer

Herstellungsdatum:

Date de fabric

ation

Data di produzione

Productie datum

Produktionsdato

Date of fabric

ation

Montiert d

urch:

Installé par:

Montato da:

Gemonteerd door:

Monteret af:

Installed by:

D

L

l1

d1

Once the temperature in the roomwhich is ablaze reaches a certainlevel, the intumescent materialexpands as a foam and closes offthe cross-section of the pipe, therefore preventning (for a certainrequired length of time) the fire andsmoke from spreading through theopening.

Geberit HDPE Fire stopper

Installation see page 58

57

Installation

Gr. 10 Gr. 10

B C C

A

D D

B CD D

C

A

XX

X

ø 56/DN 50 X = 1.0-2.0 cm ø 75/DN 70 X = 2.0-4.0 cm ø 90/DN 80 X = 2.0-4.0 cm

ø (mm) A (cm) B (cm) C (cm)

50/56 9.0 9.0 17.0

63 9.0 9.0 17.5

75 10.5 10.5 20.5

90 11.5 11.5 22.0

110 12.5 12.5 24.0

125 13.5 13.5 26.5

135 14.0 14.0 27.5

160 15.0 15.0 20.0

200 17.0 17.0 34.0

ø (mm) A (cm) B (cm) C (cm)

50/56 4.0 4.0 9.0

63 4.5 4.5 9.5

75 10.5 6.0 12.0

90 11.5 7.0 13.0

110 12.5 8.0 15.0

125 13.5 9.0 18.0

135 14.0 9.5 19.0

160 15.0 10.5 22.0

200 17.0 13.0 26.0

ø 110/DN100 X = 2.0-4.0 cmø 135/DN125 X = 5.0 cm

Subsequent installation on the wall or ceiling(with bent-back fastening bracket)

Installation in wall or ceiling opening

ceiling wall

ceiling wall

Geberit HDPE Fire stoppers

58

Physical characteristics of Geberit HDPE

Physical characteristics of Geberit HDPE

The data given below was obtained with test specimens of pressed plates and foils. Individual values can deviate from these average values depending on the conditions under which the test specimens were made.

Characteristic Unit Test method Test specimen

Density g/cm3 DIN53479 Plate0,953...0,955Reduced specific dl/g ISO/R 1191 0,1% solution 3,0

viscosity (viscositycoefficient) in decalin

Melt-flow index MFI 190/5 g/10 mins. DIN 53735 granulate 0,4...0,7

Mechanical characteristics, measured under standard climatic conditions 23°C, 50% relative air humidity**

Tensile strength N/mm2 DIN 53455. ISO/ Test specimen 3 22Elongation at yield stress % R 527; test velocity with measurements 15Ultimate tensile strength N/mm2 125 mm/min in the ratio 1:4 32Elongation at break % > 800Limit bending strength N/mm2 DIN 53452 Standard small bar 28

injection mouldedTorsional rigidity N/mm2 DIN 53447 60 mm x 6,35 mm x 2 mm 240Bending creep modulus N/mm2 Bending creep test 120 mm x 20 mm x 6 mm 8001 minute value οb 3 N/mm2Indentation hardness N/mm2 DIN 53456 Sheet, 4 mm 4030 second value Test strength 132, 4NShore hardness D — DIN 53505 Sheet, 4 mm 60Impact strength mJ/mm2 DIN 53453 Standard small bar, moulded*** 15Impact strength at mJ/mm2 DIN 53453 Standard small bar, injection

+23°C and –40°C moulded

Thermal characteristics

Crystallite melting range °C Polarisation microscope Microtome section 127...131Mean linear expansion K–1 DIN 52328; ASTM D 696 50 mm x 4 mm x 4 mm 1,7·10–4coefficient between 20° and 90°C

W Heat conductivity at 20°C m · K DIN 52612 sheet method Plate, 8 mm 0,43

Injection, moulded

Electrical properties, measured under standard climatic conditions of 23°C, 50% relative air humidity

Specific transmission resistance Ω · cm DIN 53482 Foil, 0,2 mm >1016VDE 0303 Part 3

Surface resistance Ω DIN 53482 Sheet, 1 mm >1013VDE 0303 Part 3

Electric strength kV/cm DIN 53481 Foil, 0,2 mm 700VDE 0303 Part 2

Dielectric index εr,(relative dielectric constant)at 2 106Hz — DIN 53483, VDE 0303 Foil, 0,2 mm 2,50

Part 4 (immersion method)Dielectric loss factor DIN 53483, VDE 0303 Foil, 0,2 mmtan δ at 50 Hz — Part 4 6 · 10–4

103Hz — 5 · 10–4104Hz — 5 · 10–4105Hz — 6 · 10–4

Track resistance DIN 53 480 Sheet ≥ 3 mm KA 3cVDE 0303 Part 1 KC > 600

Arc resistance DIN 53484 120 mm x 120 mm x 10 mm L4VDE 0303, Part 5

In a number of countries, a tensile test The values given above relate exclusively In contrast with injection, mouldedis carried out on a test specimen taken to the corresponding test methods or specimens are free from flow in longitudinal (or transversed) direction test specimens. Results which are orientations. This strongly influences of the pipe, e.g. in Great Britain obtained with specimens taken from the test result.according to BS 3284. The values pipes may not agree. Measurement with moulded bars isthereby obtained do not necessarily therefore preferred.need to agree with those given in thetable, which applies especially for theelongation at break.

59

Ecological properties of Geberit HDPE

Polyethylene (PE) is a simple compound of carbon and hydrogen atoms, harmless to man, animals and plants.

PE is the perfect material for drainage systems from an ecological point of view. It has a long life span, no toxic gases rises from incineration (e. g. hydrochloric acid HCL from PVC) during disposal. It consumes much smaller quantities of energy during fabrication process and transport than steel, cast iron or cop-per pipes.

60

PE environmental loads relate to the fields of manufacture and disposal. In addition to the raw material crude oil, energy is used for the preparation of the plastic granulate and in the manufacture of the products.

Fore more information about environment and sustainability, please order ourreportLife Cycle AssessmentDrainage pipes for buildings

Ecological properties of Geberit HDPE

Environmental impact of different pipe material(Ecobalance)

The diagram shows the environmental impact of 1 m pipe Ø 110 during itsexpected life, beginning with its raw material and ending with its disposal.

The environmental impact is measured in environmental points (UP), accordingto the regulations of the Swiss Federal Office of Environment, Forest andCountryside (BUWAL), Publication series 132 and 133.

7000UP/m pipe

0

1000

2000

3000

4000

5000

6000

Cast iron50%recycledtin plate

Cast iron100%recycledtin plate

PVC ABS HD-PE

Disposal of pipes

Manufacture of pipes

Manufacture of raw material

61

Comments on the individual properties

Geberit High Density Polyethylene HDPE: Density 951 – 955 kg/m3 The density of various polyethylene types can be 910 – 960 kg/m3. The Geberit typeat up to 955 kg/m3, is of the hard quality and has increased durability properties.HDPE is lighter than water, which is beneficial particularly with regard to transportationand installation.

Tempered 10 mm per meter (licence Geberit International AG)The safest way of avoiding the inevitable heat reserves (shortening of dimensions) afterheat load in the plastic pipe, is to take preventative measures during manufacture. Geberit HDPE pipes are therefore stored in hot water baths after manufacture. This process increases the safety of the joints, as there is no chance of joints pullingapart later due to shortening of length.

Resistance to cold When Geberit HDPE parts are filled with water and then freeze, they stretch elasticallyas the ice expands. Once the ice melts, they resume their original shape, remainingcompletely intact and undamaged.

FlexibilityThe flexibility of the piping material can be the main criterion in certain buildings or onbridges, especially when pipes have to pass through expansion joints or are in buildings, which are subject to traffic vibration.

Melt-flow index 0,4 – 0,5 g/10 min. This describes the working properties of the pipe and at the same time gives information on the molecular weight, which is crucial for a number of raw material properties. The smaller the melt-flow index, the higher the molecular weight and thusthe pipe’s resistance to stress corrosion.

Heat conductivity 0,43 W/m · K HDPE is a bad heat conductor; for this reason the pipe does not become completelywarmed through when heat loaded for a short period. Heat loss is about 90% less, for instance, than a similar copper pipe.

62


Heat expansion 0,17 mm/m · K Heat expansion of HDPE is relatively high. As a rule of thumb, for every 50°C increasein temperature, an expansion of 10 mm of linear meter of pipe can be anticipated.

Resistance to hot water Geberit HDPE can be safely used as waste pipe with no mechanical load, up to 80°C.Temperatures of up to 100°C for short periods (e.g. surges of steam) are permissible.

Resistance to impact Geberit HDPE is unbreakable at room temperature. Its resistance to impact is very high even at extremely low temperatures (down to approx. –40°C) and thus meets the requirements for outlet pipes.

Condensate Geberit HDPE is a poor conductor of heat. No condensate should form during short periods of undercooling.

Resistance to radioactive effluents There is no risk of damage as a result of slightly radioactive water. However, pleaseask the manufacturer for more information relevant to the particular application.

Resistance to abrasion Drainage systems are increasingly becoming hidden refuse chutes. A pipe’s resistanceto abrasion is a particularly important factor in branch pipes, soil stacks and ground pipes. HDPE is highly resistant to abrasion; its extra thick walls offer additional protection.

63


Non-conductivePlastics have an excellent reputation as insulators in the electronics industry. HDPE cable protection ducts, cast resins, insulating paint etc.

Sealing material Although the chemical resistance of the seal does not equal that of HDPE, there is norisk of the seal being destroyed, because the rubber ring is installed under com-pression on all sides and therefore cannot swell. In addition, the wetting factor of therubber ring in the joint is very low. Many years of experience have shown that the sealing material can endure even the harshest conditions. NB: Such conditions do not occur in drainage pipes. Free halogens (chlorine, bromine etc.) cause halogenised polyethylene and hydrogenhalide to form at room temperature. The halogenised polyethylene has different physical and chemical properties from the original hydrocarbon, but the polymer is not destroyed. Geberit HDPE should therefore not be used at all in areas where free halogens are produced or used. The only criteria to be observed here are the purposefor which the pipe is intended and the concentration of halogens.

Solar radiation Geberit HDPE pipes are protected against ageing and embrittlement caused by UVrays by the addition of approximately 2% soot.

NoiseHDPE is a soft material with a low E-modulus. HDPE limits solid-borne conduction, but airborne noise should be insulated. This can be done by means of the duct wall,HDPE Silent or Geberit Isol.

Chemical resistance Because of its paraffinic structure, Geberit HDPE is highly resistant to chemicals. Its resistance can be summarized briefly as follows: Geberit HDPE is insoluble in all inorganic and organic solutions at 20°C. Geberit HDPE is only soluble in aliphatic andaromatic carbons and their chlorinating products at over 90°C. The material will be attacked by heavily oxidized media (conc. HN03, conc. H2 S04) when exposed overlong periods at room temperature.

Behaviour in fire Plastics are inflammable. However, the classification of plastics according to the usual fire test for construction materials does not permit a valid statement on the behaviourof plastic construction parts in the event of a fire.

64


Protection against blockages HDPE’s water-repelling properties are highly beneficial in this regard. – Rapid outflow of water – Prevention of deposits

Welding temperature Thermoplasts are processed with a high level of energy efficiency. The temperaturesrequired are relatively low in comparison with metals. The welding temperature for HDPE is approximately 230°C. Simple tools allow for easy processing.

Non-toxic Plastics are well suited for use in the food industry as packaging material, containers,bottles etc. Geberit HDPE pipes are used for milk transportation lines in mountainareas and in the food canning and packing industry.

Scope of use Geberit HDPE pipes are designed for drainage systems. Their use in low-pressureareas (swimming pools, transportation lines etc.) is subject to a maximum pressure load of 15 m Water Column (1,5 bar) and a temperature of 30°C (10 years). There is also a certain range of moulded fittings.

PaintingGeberit HDPE is not suitable for painting. Its water repellent properties and the flexibili-ty of the material both have a negative impact on paint. If painting is unavoidable, thepaint product to be used should be tested for compatibility with the HDPE.

Tightness Many years of experience with welding HDPE-Pipes, have shown that the butt weldsdo not give any problems as the welding parts are circular on the inside and do notadd to the normal risk of blocking.

65

The importance of tempering

Manufacturing process ofHDPE pipes

1 Driving motor 4 Screw 7 Gauging device 9 Drawing device 2Raw material 5 Electric strip heaters 8 Cooling bath 10 Finished pipe3 Extruder 6 Mould

As a result of manufacturing, the molecule chains are stretched and than cooled down from about 230°C to 40°C. This enormous drop in temperature results in tensile stresses which are «frozen in» by the coolingdown process.

When hot water flows through a streched pipe or the pipe is heated up by doing a welding joint, e.g. with an electroweld sleeve coupling, the expanded molecules relax and return to their normal state. The pipe becomes shorter.

Stretched molecules after manufacturing(non tempered pipes)

Without tempering, shortening of dimensions can create gaps between pipeand fitting, pipes can be pulled apart high risk of leakage!

66

Length = 5000 mm

Effects of annealing of Geberit HDPEpipes

Molecules after Geberit annealing process(all Geberit HDPE pipes)

The safest way of avoiding the inevitable heat shortening of dimensions afterheat load in the plastic pipe is to take preventative measures (Tempering)during manufacture. Geberit pipes are therefore stored in a hot water bathafter manufacture, this allows the expanded molecules to relax and return totheir normal state = No stresses on Geberit pipes.

Tempering of Geberit pipes reduces mechanical stress on joints and fixations. Through this process even the high precision requirements forelectroweld sleeve couplings can be met.

After manufacture

Admitted shortening according to standards 150 mm

Max. admitted shortening according to Geberit licence 50 mm

The importance of tempering

67

slightly acid

The significance of the pH value

One of the most crucial factors in selecting a material for a drainage installationis the chemical loading of the effluent being discharged.

Effluent with a low or a high pH is harmful because of its corrosive effects. E. g. some drain cleaning fluids have a pH value of up to 12.

Therefore in order to select the most suitable material to handle a specificdischarge it is important not only to know the pH value of the effluent but the chemical resistance of the pipe materials. (see Chemical Resistance tables on pages 65 to asses the performance of Geberit HDPE at various temperatures)

The pH value is therefore important in assessing the chemical level as it will indicate whether the effluent is acid, neutral or alkaline. The pH scale ranges from 0 to 14 (see table below). PH valve 7 neutral.

increasingly acid increasingly alkaline

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14

very acidslightlyalkaline very alkaline

NE

UTR

AL

HDPE . . .

. . . can be used safely with pHvalues from 0 to 14.

. . . is therefore suitable, forexample, for use with effluents containing over30% hydrochloric acid.

pH values of some drinks andcleaning agents

pH-valueCola drinks 2,8Apple juice 3,5Tartaric acid 2,2Citric acid 2,8Washing solutions 9 –13Toilet cleaner 2 – 4

68

Chemical resistance list

69


Explanation

When the pipe wall material comes into contact with substan-ces flowing through the pipe, different processes can takeplace, such as the absorption of liquid (swelling), the extractionof soluble elements in the material (shrinkage) or chemical reac-tions (hydrolysis, oxidation etc.), which can sometimes causethe properties of the pipes or pipeline parts to change.

The performance of pipes and pipeline parts when in contactwith effluent substances can be classed as follows:

Resistant The pipe wall material is generally regarded as being suitable

Limited resistance The suitability of the pipe wall material must be checked ineach individual case; if necessary, further tests should be carried out.

Not resistant The pipe wall material is generally regarded as being unsuitable.

The following symbols and abbreviations are used to indicatethe composition of the flow substances:

% Percentages refer to mass proportions in %.

VL Aqueous solution, mass proportion <= 10%.

L Aqueous solution, mass proportion > 10%.

GL Aqueous solution saturated at 20°C.

TR Chemical is at least technically pure.

H Normal commercial composition.

S Traces < 0,1%

G Usual mass proportion of any saturated solution or dilution.

Data is based on immersion tests without mechanical load andreflects current levels of knowledge. No claims under guaranteemay be made on the basis of this information.

AAcetic aldehyde 40 Acetic aldehyde TR Acetic aldehyde+acetic acid 90:10

Acetanhydride (acetic anhydride) TR Acetamide TR

Acetanhydride TR Acetic acid 70

Acetic acid 100 Acetic acid butyl ester Acetic ether (ethylacetate) 100

Aceto-acetic acid

Acetone VL

Acetone TR

Acetophenone TR

Acetylene

Acronal dispersions H Acronal solutions H Acrylonitrile TR

Acrylic acid-emulsions

Acrylic acid ethylester 100Activine (chloramine 1%)

Adipinic acid GL

Adipinis acid ester Allyl acetate Allyl alcohol 96

Allyl chloride Alum (potassium aluminium sulphate) any

Aluminium chloride VL

Aluminium chloride GL

Aluminium chloride, solid

Aluminium fluoride GL

Aluminium hydroxide

Aluminium metaphosphate

Aluminium sulphate any

Aluminium sulphate, solid

Amidosulphates(amido-sulphonic acid salts) any

Amido-sulphonicacid any

Amino acids

Ammonia, gaseous 100

Ammonia, liquid 100

Ammonia solution (ammonium hydroxide) any

Ammonium acetate any

Ammonium carbonateand bicarbonate of ammonium GL

Ammonium carbonate any

Ammonium chloride (sal-ammoniac) any

Ammonium dihydrogen phosphate GL

Ammonium fluoride L

Ammonium hydrosulphide any

Ammonium metaphosphate

Ammonium nitrate any Ammonium phosphate any

Ammonium sulphate any

Amonium sulphide any

Ammonium thiocyanate

Amyl acetate TR

Amyl alcohol TR

Amyl chloride 100

Amyl phthalate Anilin (phenylamine) GL

The following data is required for a declaration of chemical resistance:

– Corrosion medium, composition (chemical description),DIN safety data sheet

– Temperature

– Proportion (concentration)

– Information on reaction time, frequency, flow quantity

– Other flow media

Geberit HDPProport. Performance

Flow through substance % 20°40°60

70

Geberit HDPEProport. Performance at

Flow through substance % 20°40°60°C



Anilin chlorhydrate any

Anise oil TR

Anone (cyclohexanone) TR Anthraquinone sulphonic acid 1

Antifomine (benzaldoxime) 2

Anti-freeze H

Antimonious trichloride, anhydrous

Antimonious trichloride 90

Antimonious pentachloride

Apple juice H

Apple wine H

Aqua regia TR

Arklone (= reon, frigen) (Chloro fluorcarbon CFC) 100

Aromativ oils

Arsenic any

Arsenic acid anhydride

Ascorbic acid (vitamin C)

Asphalt

BBarium carbonate

chem. precipitated 98/99% any

Barium hydroxide any

Barium salts any

Battery acid (sulphuric acid,~34%) H

Baysilon separating agent 100

Beef fat Beef suet

Beeswax H

Beer H

Beer colouring H

Benzaldehyde any Benzaldehyde in isopropyl alcohol 1

Benzene TR

Benzaldoxime (antiformine) 2

Benzene/benzol mixture 80/20 Benzene sulfonic acid

Benzoic acid any

Benzoyl chloride TR Benzyl alcohol TR

Benzyl chloride

Bichromate sulphuric acid(chromic acid/sulphuric acid) TR

Bismuth nitrate, acqueous any

Bismuth salts

Bisulfite solution

Bitumen Bleach solution with 12,5% active chlorine

Bone oil

Borax (sisodic tetraborate) any

Boric acid any

Boric acid methyl ester

Boric trifluoride Brake fluid

Brandy H

Bromic acid 40

Bromin, liquid and gaseous any

Bromochloromethane

Butadiene 50

Butadiene TR

Butandial any

Butane, gaseous TR

Butanol any

Butanon

Butantriol any

Butindial 100

Butoxyl (methosybutylacetate) Butter

Buttermilk

Butyl acetate TR Butyl acrylate Butyl alcohol

Butyl benzylphthalate

Butylene, liquid TR

Butylene glycol TR

Butylene phenol TR

Butylene phenol, p-tertiary TR Butyric acid any

CCalcium carbide

Calcim carbonate GL

Calcium chloride any

Calcium hydroxide (lime) GL

Calcium hypochlorite (chlorinated lime) GL

Calcium nitrate 50

Calcium oxide (powder)

Calcium phosphate

Calcium sulphate (gypsum) GL

Calgon (sodium hexametaphosphate) any

Campher TR Campher oil TR

Cane sugar

Caoutchouc dispersions (Latex)

Carbazol

Carbol (phenol) any Carbolic acid (phenol) any Carbon bisulphide TR

Carbon dioxide (soda water) any

Carbon tetrachloride TR

Castor oil TR

Caustic ammonia (ammonium hydroxide) any

Caustic potash solution 50

Caustic soda (sodium hydroxide) any

CD 2 up to 5%

CD 3 up to 5%

Cetyl alcohol

Chloracetic acid any

Chloral hydrate any

Chloramine T TR

Chloramine T VLChloric acid 1

Chloric acid 10

Chloric acid 20

Chlorinated carbon dioxide ester Chlorinated lime (calcium hypochlorite) GL

Chlorinated paraffin 100

Chlorine VL Chlorine GL

Chlorine, gaseous, damp 0,5

Chlorine, gaseous, damp 1,0

Chlorine, gaseous, damp 97

Chlorine, gaseous, dry TR

Chlorine, liquid TR

Chloroacetic acid ethyl ester TR

Chloroacetic acid methyl ester TR


71

72

Dextrose (glucose, grape sugar) any

Diamin hydrate TR

Diethyl ether (ether, ethyl ether) TR Diethylene glycol

Di-2-ethylhexylphthalate (DOP) Diethyl ketone 1,2-Dibromoethane

Dibuthyl ether TR

Dibutylphthalate TR Dibutylsebacate TR Dichlorethylene TR

Dichlorbenzene TR

Dichloracetic acid 50

Dichloracetic acid TR Dichloracetic acid methyl ester TR

Dichlorodiphenyltrichloromethane(DDT, powder)

Dichlorpropane

Dichlorpropene

Dielectric (transformer oil) 100 Diesel fuel H Diglycolic acid 30

Diglycolic acid GL

Dihexylphthalate TR Di-isobutylketone TR

Di-isopropylether Dimethylamine TR Dimethylformamide TR Dimethylsulfoxide

Disodic phosphate

Disodic sulphate

Disodic tetraborate (Borax) any

Dinonylphtalate TR Dioctylphtalate TR Dioxan TR

Diphenylamine Diphenyloxide Dispersions

Distilled oils

Dodecyl benzene sulphonic acid Dry potash (potassium hydroxide) 50

Dyes

EElectrolytecbaths for electroplating Emulsifying agents

Emulsifying agents (Tenside) any

Emulsionen (photographic) H

Epichlorohydrin Epichlorohydrin

Epsom salts (magnesium sulphate) any

Ethane

Ethanol (rectified spirit, ethyl alcohol,wine spirit) 96

Ether (sulphuric ether, diethyl ether) TR Ethyl acetate TR

Ethyl alcohol (rectified spirit, ethyl alcohol,wine spirit) 96

Ethyl alcohol, denatured (2% Toluol) 96 Ethyl alcohol (fermation mash) G Ethyl alcohol + acetic acid

(fermentation mix) G

Ethyl benzene TR

Chlorobenzol TR

Chloroform TR

Chloromethyl, gaseous TR

Chlorsulphonic acid TR

Chromanode mud

Chromic acid 20 Chromic acid 50

Chromic acid/sulphuric acid/water,50/15/35

Chromic alum any

Chromous salt any

Chromium sulphuric acid TR

Chromium sulphuric acid any

Chromium trioxide 50

Citraconic acid any

Citrate any

Citric acid any

Citronaldehyde TR Citrus juices

Clophene(polychlorinated biphenyls PCB) 100

Coal tar oil Coca Cola

Cocoa G

Coconut oil alcohol TR Coconut oil TR Cod liver oil Coffee G

Cognac

Cola conzentrate

Compressed air containing oil

Cooking oil, vegetable and animal

Copper chloride GL

Copper cyanide any

Copper fluoride

Copper nitrate 30

Copper nitrate GL

Copper salts GL

Copper sulphate any

Corn oil TR Corsolin (disinfectant;

chlorophenol soap solution) VL

Cover paint

Creosote

Cresol 90

Cresol 100 Crotonaldehydo TR Crude oil Crystalline acid TR Crystal oil (solvent naphtha) TR Cumarone resin

Cyclanone L

Cyclanone H

Cyclohexane TR

Cyclohexanol TR

Cyclohexanone (Anone) TR

DDecahydronaphtalene (Decalin) TR Dessicator oil Detergents

Developing solutions (photographic)

Dextrine 18






Fruit juices, unfermented

Fruit juices, fermented

Fruit wine H

Fruit pulp H

Fruit tree carbolineum Fuel oil H Furfur alcohol TR

Furfurol Furniture polish

GGas liquor

Gelatine any

Gin 40

Gypsum (calcium sulphate) GL

Glauber’s salt (sodium sulphate) any

Glucose (grape sugar, dextrose) any

Glue

Glutine glue H

Glycerin any

Glycerin chlorohydrine

Glycocoll VL

Glycol H

Glycolic acid 37

Glycolic acid 70

Glycolic acid butyl ester

Glysantine

Grape sugar (glucose, dextrose) any

Gravy

HHalothane

Heptane TR n-Heptane TR Hexadecanol (cetyl alcohol)

Hexafluorosilicic acid 32

Hexamine any

Hexane TR n-Hexane TR

Hexantriol TR

Höchst drilling agent Honey Hydraulic fluid Hydrazine hydroxide L

Hydroammonium sulphate(ammonium hydrosulphate) any

Hydrobromic acid 50

Hydrochloric acid any

Hydrochloric gas, dry+damp TR

Hydrocyanic acid (prussic acid) 10

Hydrocyanic acid TR

Hydrofluoric acid 50 Hydrofluoric acid 70 Hydrogen TR

Hydrogen bromine, gaseous TR

Hydrogen peroxide 10



Hydrogen sulphide GL

Hydrogen sulphide, gaseous TR Hydrogen superoxyde 30

Hydrogen superoxyde 90

Hydroquinone L

Ethyl chloride TR Ethylene Ethylene chloride TR Ethylene chlorohydrin TR

Ethylene dichloride (Ethylene chloride) Ethylene diamine TR

Ethylene diamin tetra-acetic acid

Ethylene bromide Ethylene chloride (dichlorethylene)

Ethylene glycol TR

Ethylene oxide, gaseous TR

Ethylene oxide, liquid TR

Ethyl ether (Ether, Diethylether) TR 2-ethylhexanol Ester, alphatic TR Exaust gases, containing hydrogen fluoride S

containing hydrogen fluoride ≤ S

containing carbon dioxide any

containing carbon monoxide any

containing nitric oxide S

containing nitric oxide ≤ 5

containing nitric oxide > 5

containing oleum Scontaining oleum ≤ 5

containing hydrochloric acid any

containing sulphur dioxide any

containing sulphuric acid any

containing sulphuric acid (damp) any

containing sulphur trioxide (oleum) S

containing sulphur trioxide (oleum) ≤ S

FFatty alcohol Fatty alcohol sulphonate (cyclanone) L

Fatty alcohol sulphonate H

Fatty acids (technically pure) 100 Fatty acids TR Fatty acid amides Fermentation mash (ethyl alcohol) G Fermentation mix

(ethyl alcohol + acetic acid) G

Ferrous chloride GL

Ferric chloride any

Ferric nitrate L

Ferric sulphate GL

Ferrous sulphate any

Fertilizer salts any

Fir needle oil H Fixative salt (sodium thiosulphate) any

Floor polish Flowers of sulphur (elementary sulphur

in powder form) TR

Fluoride TR

Fluobolic acid Formaldehyde (formalin) 40

Formalin (acqueous formaldehyde) 40

Formamide TR

Formic acid 10

Formic acid 50

Formic acid 85

Formic acid TR

Freon 12 100

Fruit juices G


Flow through substance % 20° 40° 60°C




73

74

Hydrosilicofluoric acid 32Hydrosilicofluoric acid any

Hydrosulphite VL

Hydroxylamine sulphate 12

Hypochlorous acid Hypophosphite any

IInk

Interlacing agent 5

Insecticides G

lodine-potassium iodide (3% iodine)

Isobutyl alcohol

Iso-octane TR Isopropanol (isopropyl alcohol) TR

Isopropyl acetate 100 Isopropyl ether TR

Isobutylaldehyde (technically pure) 100

Iron (Ill) ammonium sulphate GL

Iron salts any

JJam H

Javel water (sodium hypochlorite) 5

Jelly

KKaolin, washed/ground any

Kerosine (petroleum) TR Ketone Kitchen salt, saturated (sole) 100

LLactose

Lanolin TR

Lactic acid any

Latex (caotchouc dispersions)

Lead (Il) acetate any

Lemon aroma

Lemon juice

Lemon zest

Lime (calcium hydroxide) GL

Lime water

Linseed oil TR

Lighting gas, benzole free H

Levoxin 15 (diamin hydrate) TR

Liquid soap

Liquor H

Lemonade

Lipoids (lecithin, emulsifiers) any

Lithium bromide

Lixtone – SO

Lixtone TS 803/M

Lubricant oils H Lubricant soap

Lysoform (disinfectant; acqueous solutionvar. higher aldehydes) VL

Lysol

MMagnesium carbonate GL

Magnesium chloride any

Magnesium fluorsilicate

Magnesium hydroxide GL

Magnesium iodide

Magnesium salts any

Magnesium sulphate any

Maleic acid GL

Malic acid 1

Malic acid 50

Malic acid GLManganese sulphate

Margarine

Maschine oil TR Mashed potato

Mashes

Mayonnaise

Molasses H

Molasses aroma

Menthol TR Mercuric chloride TR

Mercuric salts GL

Mercury TR

Mersol D (mixture of higherparaffin sulfonic acid chlorides) 100

Metallic mordant

Metallic soap

Methacrylic acid

Methane, gaseous TR

Methanol (methyl alcohol) any

Methoxybutanol TR Methoxybutyl acetate (butoxyl) Methyl alcohol (methanol) any

Methyl acetate TR

Methyl acrylate

Methylamine 32

Methylbenzene (toluol) TR

Methyl bromide, gaseous TR

Methyl chloride TR

Methylcyclohexane

Methylene chloride TR

Methyl ethyl ketone TR

Methyl glycol

Methyl isobutylketone

Methyl metacrylate

4-Methyl-2-pentanol Methyl propylketon n-Methyl pyrrolidone

Methylsalicylate (Salicylic acid methyl ester) Methyl sulphuric acid 50

Methyl sulphuric acid 100Metol (4-methyl-amino-phenosulphate)

(photographic-developer) VL

Milk H

Mineral oil, without additives Mineral oil, free of aromatic compounds H Mineral water H

Mixed acid I(sulphuric acid/nitric acid/water)48/49/ 3

50/50/ 0

10/87/ 3






75

Oxygen TR Ozone, gaseous 50 pphm

Ozone, gaseous 2%

Ozone GL

PP3 Galvaclean 20 (dangerous substance)

P3 Galvaclean 42 = P 3 S(dangerous substance)

P3 Galvaclean 44 (dangerous substance)



P3 Manuvo hand cleaner (dangerous substance)

P3 Saxim (dangerous substance)

P3 Standard (dangerous substance)

P3 7221 (dangerous substance)

Palmityl acid

Palmityl alcohol

Palm kernel oil

Palm oil H Palm kernel oil acid TR

Paraffin 100

Paraffin emulsion H Paraffin oil TR Paraformaldehyde

Parfume

Paris inert oxyd (dangerous substance)

Peanut oil

Pectin GL

Pentanol TR Peppermint oil TR

Perchlorethylene TR

Perchloric acid 20

Perchloric acid 50 Perchloric acid 70

Perhydrol (hydrogenperoxide, acqueous solution) 40

Petroleum ether TR Petroleum (kerosene) TR Petroleum spirit (light petrol,free from aromatic compounds) 100

Petrol, regular grade H Photographic emulsion H

Photographic developer H

Photographic fixer bath H

Pineapple juice

Pine needle oil Phenol (carbolic acid) any Phenol resin mould substances

Phenylamine (aniline) GL Phenylethyl alcohol

Phenylhydrazine TR

Phenylhydrazine hydrochloride

Phenyl sulphonat(Sodium dodecylbenzene sulphonate)

Phosgene, gaseous TR

Phosgene, liquid TR

Phosphates any

Phosphoroxichloride Phosphorpentoxide 100

Phosphoric acid 50

Phosphoric acid 95 Phosphortrichloride TR Phosphoryl chloride TR

50/31/19

50/33/17

10/20/70 Mixed acid ll

(sulphuric acid/phosphoric acid/water)30/60/10

Monochlorbenzene

Monochloracetic acid ethyl ester 100

Monochloracetic acid methyl ester 100

Monoethylamine any

Morpholine TR

Motor oil Mowilith-dispersions

NNail varnish Nail varnish remover Naphtha H Naphthalin TR Natural gas H

Nekal BX (interlacing agent; sodium saltsvar. isopropyl naphthaline sulphonic acids) any

Nickel chloride GL

Nickel nitrate GL

Nickel salts GL

Nickel sulphate any

Nicotine

Nicotinic acid VL

Nitric acid 6,3

Nitric acid 25

Nitric acid 40

Nitric acid 50

Nitric acid 65

Nitric acid 75

Nitrochloroform

Nitrobenzene TR Nitrocellulose

Nitrogen (gaseous) any

Nitrous gases ≤ 5

Nitrotoluols TR Nolan stop-off lacquer (dangerous substance)

Nolan thinner (dangerous substance)

Nonyl alcohol (nonanol)

Nut oil

OOctyl cresol TR

Oleic acid Oil of cloves Oils, distilled

Oils, mineral, without additives Oils, mineral, free of aromatic compounds H Oils, vegetable and mineral H Oleum, 10% SO3

Oleum vapours (sulphur trioxid) ≤ 5 Oleum vapours TR

Oleic acid TR O-nitrotuluol TR Optical whiteners

Orange juice

Orange zest

Orotol

Oxalic acid GL






76

Prussic acid (hydrocyanic acid) 10

Pseudocumol Pyridine TR QQuinine

RRatak Resit 65 (Fuchs)

Rectified spirit (ethanol, ethyl alcohol, spirit of wine) 96

Rinsing agents H

Roaster gases, dry any

Rum 40

SSaccharic acid GLSagrotan (disinfection, chlorophenol soap solution) VL

Sagrotan Salicylic acid GL

Salicylic acid methyl ester (methylsalicylate) Sal-ammoniac (ammonium chloride) any

Salt (sodium chloride) any

Saturated steam concentrate

Seawater H

Separating agent

Sewage

Shampoo

Shoe cream Silicic acid any

Silicofluoric acid 40

Silver nitrate any

Silver salts GL

Silicon oil TR

Soda (sodium carbonate) any

Soap solution any

Soda Iye (sodium hydroxide, caustic soda) any

Soda water (carbon dioxide) any

Sodium acetate any

Sodium aluminium sulphate

Sodium benzoate GL

Sodium benzoate 36

Sodiumbicarbonate (sodiumhydrogencarbonate) GL

Sodium bisulphate (sodium hydrogen sulphate) GL

Sodium bisulphitt (sodium hydrogen sulphite, sodium disulphite) any

Sodium borate

Sodium bromate L Sodium bromide L

Sodium carbonate (soda) any

Sodium chlorate any

Sodium chloride (salt) any

Sodium chlorite VL

Sodium chlorite 20

Sodium chlorite bleaches H

Sodium chromate VL

Sodium cyanide GL

Sodium dichromate GL

Sodium disulphite (sodium bisulphite) any

Sodium dithionite VL

Sodium dodecyl benzene sulphonate(phenyl sulphonate)

Sodium ferricyanide

Phtalic acid 50

Phtalic acid GL

Phtalic acid ester Picric acid 1

Picric acid GL

Polychlorinated biphenyl (PCB)

Polyester resins

Polyester softeners Polyglycols

Pork dripping

Potash (potassium carbonate) any

Potassium ferrocyanide, pot. ferricyanide any

Potassium ferricyanideand potassium ferrocyanide any

Potassium cyanide any

Potassium ammonium sulphate (alum) any

Potassium carbonate any

Potassium bichromate (potassium dichromate) any

Potassium bisulphate any

Potassium borate 10

Potassium borate GLPotassium bromate VL

Potassium bromate GL Potassium bromide any

Potassium cadmium cyanide any

Potassium carbonate (potash) any

Potassium chlorate any

Potassium chloride any

Potassium chromate 40

Potassium chromate GL

Potassium cyanide any

Potassium dichromate (potassium bichromate) any

Potassium ferricyanide any

Potassium fluoride any

Potassium hexacyano ferrate any

Potassium hydroxide (caustic potash) 50

Potassium iodide any

Potassium nitrate any

Potassium perborate

Potassium perchlorate GL Potassium permanganate 20

Potassium permanganate GL Potassium persulphate any

Potassium phosphate any

Potassium sulphate any

Potassium sulphite L

Potassium sulphite

Potassium tetracyanocuprate

Potassium thiosulphate

Propane, liquid TR

Propane, gaseous TR

i-Propanol TR

n-Propanol (n-propyl alcohol) TR

Propargyl alcohol 7

Propionic acid 50

Propionic acid TR Propylene chloride 100

Propylene glycol TR

Propylene oxide TR

Prussic acid TR






77

TTaningan extra (synthetic tanning substances) GL

Tannic acid (tannine) 10

Tannin (tannic acid) 10

Tea G

Tar Tartaric acid any

Turpentine TR Tetrabromethane

Tetrachloroethane TR

Tetrachloroethylene TR Tetraethyl lead TR

Tetrahydrofurane TR

Tetrahydronaphthalin (Tetralin) TR

Thioglycol (thiodiethylene glycol) 100

Thioglycolic acid

Thiocarmabide any

Thionyl chloride TR

Thiophene TR

Tincture of iodine DAB6 H Tiutol (hypochlorite Javel water) 12/13

Toluol (methyl benzene) TR

Tomato juice

Transformer oil TR Triethanolamine TR

Triethylene glycol

Tributyl phosphate TR

Trichloroethane, gaseous 100

Trichloroethane TR Trichloroethylene TR

Trichlorobenzene

Trichlorethylphosphate

Trichloroacetic acid 50

Trichloroacetic acid TR

Trichlorofluorethane (freon 11, Sdp. 24°C) 100

Triethanolamine TR

Tricresylphosphate TR

Trilon

Trimethylborate

Trimethylolpropane

Trisodium phosphate

Trioctylphospate TR T-SS up to 5%

Two-stroke oil Typewriter oil

UUniversal thinners Uric acid GL

Urine 33

VVaseline oil TR Vinegar (wine vinegar) H

Vinyl acetate TR

Viscose spinning solutions

Vitamin C (ascorbic acid)

Sodium fluoride GL

Sodium hexacyanoferrate GL

Sodium hydrogen carbonate(sodium bicarbonate) GL

Sodium hydrogen sulphate (sodium bisulphate) 10

Sodium hydrogen sulphite (sodium bisulphite) any

Sodium hydroxide (caustic soda) any

Sodium hypochlorite (Javel water) 5

Sodium hypochlorite 12,5

Sodium iodide L

Sodium copper cyanide any

Sodium nitrate any

Sodium nitrite any

Sodium oxalate GL

Sodium perborate any Sodium perchlorate

Sodium peroxide 10

Sodium peroxide GL Sodium peroxodisulphate (sodium persulphate) GL

Sodium phosphate GL

Sodium silicate (water glass) any

Sodium sulphate (Glauber’s salt) any

Sodium sulphide any

Sodium sulphite GL

Sodium thiosulphate (fixative salt) any

Softeners Soya oil

Spermaceti Sperm oil alcohol (mixture of higher oil alcohols) 100

Spindle oil TR Spin bath acid, containing CS2 0,01

Spirits H

Stain remover Stannous (Il) chloride any

Starch any

Starch syrup any

Stearic acid TR Stellhefen flavouring (aqueous solution of maltose and dextrines) L

Styrol

Succinic acid any

Suet TR

Sugar beet juice any

Sugar solutions any

Sugar syrup H

Sulphate any

Sulphur TR

Sulphur dichloride TR

Sulphur dioxide any

Sulphur dioxide, gaseous, dry and damp any

Sulphur dioxide, liquid TR Sulphurated potash (potassium polysulphide) any

Sulphuric acid 10

Sulphuric acid 70

Sulphuric acid 90

Sulphur sodium (sodium sulphide) any

Sulphur trioxide (oleum vapours) ≤ 5 Sulphur trioxide TR

Sulphurous acid GL






78

WWax alcohols TR Waxes Walnut oil Washing agents G

Washing up liquid

Water, distillied

Water, fully desalinized

Water de-ionized

Water chlorinated driking water

Water, ozonized drinking water

Water glass (sodium silicate) any

Wattle, vegetable H

Wattle, from cellulose H

Wine H

Wine vinegear (vinegear) H

Wine spirit (ethyl alcohol, ethanol, rectified spirit) 96

White spirit TR

White spirit (cristal oil) TR Whisky H

Whwy

Wood stain G

XXylene (isomer mixture) TR

YYeast any

ZZampon thinners Zinc carbonate GL

Zinc chloride any

Zinc oxide GL

Zinc salts any

Zinc sludge

Zinc dust any

Zinc stearate

Zinc sulphat any




Certificates for Geberit HDPE applications

KOMO certificate for quality of construction materials.

EN DIN

European Quality Certificate ISO 9000For its manufacturing plants in Europe, Geberit has received the highest qualitysystem certification available, issued by the Swiss EQ-Net member SQS for compliance with the ISO 9000/EN 29000series, which corresponds to BS 5750.EQ-Net members are in all countries throughout Europe, including BSI QA United Kingdom.

EN ISO Standard9001

ISO Standard14001

British Board of Agrément

Geberit HDPE pipes and fittings have

been certified by many European

authorities and in 1976 also received

BBA certification. The British Board of

Agrément, in consultation with the

secretary of state, reissued the BBA

Certificate 92/2796 in 1992. Geberit

pipes, adapters and fittings also comply

with ISO R 161/1 recommendations.

Institute of Plumbing

Geberit is an industrial associate

member of the Institute of Plumbing.

Instituto Italiano dei Plastici

Certificate of the CISQ and the SQP

independent certification of quality.

WPC/World Plumbing Council

Geberit is an active member of the

renowned World Plumbing Conference

Standards

Geberit HDPE conforms to:

EN 1519 Plastic piping system for soil and waste discharge (low and high temperature) within building structure

DIN 19535-10 High-densitiy polyethylene (PE-HD) pipes and fittings for hot water resistant waste and soil discharge systems (HT) inside buildings – Part. 10 Fire behaviour, quality control and installation recommendations

DIN19537 Pipes and fittings of high-density PE for drainage and sewerage.

SKZ (SüddeutschesKunststoffzentrum) Europe's leading authority forregular product and production qualityassurance of Geberit pipes

Geberit HDPE – the universal pipe system

Good planning and professional

execution begins with Geberit brochures.

Geberit International Sales AG

Neue Jonastrasse 59

CH-8640 Rapperswil

Switzerland

Tel.: + 41 55 221 6200

Fax: + 41 55 221 6750

E-Mail: [email protected]

www.geberit.com Int.e

828

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hdpe application

Documents