Download - TECHNICAL INFORMATION INDUSTRIAL PIPING SYSTEM. GENERAL INFORMATIONS INDUSTRIAL PIPING SYSTEM
TECHNICAL INFORMATIONINDUSTRIAL PIPING SYSTEM
GENERAL INFORMATIONSINDUSTRIAL PIPING SYSTEM
• General informations
Polyethylene PE
Polypropylen PP
PVC, PS,...Polyolefines Fluorpolymeres
Polyvinylidenfluorid PVDF
Ethylen-Chlortrifluorethylen ECTFE
Range of Plastics
Synthetic Plastics Modified Natural Substances
Polymers Polycondensates Polyadducts
Thermoplasts
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
WHY PLASTICS ?
Good physical properties (low specific weight, flexible material,...)
Wide range of application fields
Easy handling
Easy installation
Superior chemical resistance
Clean material
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
MATERIAL PROPERTIESINDUSTRIAL PIPING SYSTEM
POLYETHYLEN PECHEMICAL STRUCTURE
C C
H H
H H n
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
POLYETHYLEN PEGENERAL PROPERTIES
Flexible
Low specific weight of 0,95 kg/dm³
Favourable transportation (e.g. coils)
Good weathering resistance
Good weldability
No deposits and no overgrowth possible
Resistant to rodents
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
POLYETHYLEN PEGENERAL PROPERTIES / TYPES
Molecularstructure
PE 100 (3rd Generation)
Modified controlled polymerisation process with new catalysts bimodule structure result in better properties
Molecularstructure
= composition of only one polymer [Polyethylen with high Density (PEHD)]
PE80 (2nd Generation)
= composition of only one polymer [Polyethylen with high Density (PEHD)]Low pressure polymerisation process (standard)
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PE 100
PE 80 TREND• General
informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
POLYPROPYLEN PPCHEMICAL STRUCTURE
C C
H CH3
H H
n
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
POLYPROPYLEN PPGENERAL PROPERTIES
Flexible
Low specific weight of 0,91 kg/dm³
Favourable transportation (e.g. coils)
Corrosion resistant
Good weldability
Resistant to all kinds of microbic corrosion
Low permeability
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
POLYPROPYLEN PPGENERAL PROPERTIES / TYPES
= composition of only one polymer, the prolypropylene
PP-B 80 (Block-Copolymer)
PP-H 100 (Homopolymer)
P – P – P – P – P – P – P – P – P – P
= compolymer, where Ethylene is taken up in blocks up to 30 % (normally <7%)
P – P – P – E – E – E – P – P – P – P
PP-R 80 (Random-Copolymer)
= certain percentage (2 – 7%) of Ethylene is built in static distributed
E – P – E – P – P – P – E – P – P – P
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
POLYVINYLIDENFLUORIDE PVDFCHEMICAL STRUCTURE
PVDF results at the polymerisation process of Vinylidenefluoride
C C
F
H
H n
F
(C2H2F2)n
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
POLYVINYLIDENFLUORID PVDFGENERAL PROPERTIES
High heat resistant
Very good chemical resistance
Resistant against UV- and g – radiation
Excellent abrasion resistance (low friction coefficient)
Superior insulation and electrical properties
Flame retarding (UL94-VO)
Good mechanical properties
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
POLYVINYLIDENFLUORID PVDFGENERAL PROPERTIES
Pipes, Fittings, Valves and Semi Finished Products are manufactured out of one raw material
SOLEF = Suspensions-PVDF
• higher degree of crystallinity
• higher melting point
• higher thermomechanical properties (compared to the Emulsionprocess)
Solef 1010
Solef 1008 Solef 1008
Solef 6010
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
ETHYLENCHLORTRIFLUORETHYLEN ECTFECHEMICAL STRUCTURE
Copolymer out of Ethylen and Chlortrifluoroethylen
C C C C
H
Cl F
H F F
H H n
(-CH2 – CH2 – CF2 – CF -)n
Cl
(C4H4F3Cl)n
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
ETHYLENCHLORTRIFLUORETHYLEN ECTFEGENERAL PROPERTIES
Broad operating temperature range
UV and g – radiation resistant ageing resistant
Flame retardant (UL94-V0)
Marvellous chemical resistance (acids, alkalis, solvents, chlorine,...)
Physiologically non-toxic
Very good sliding properties
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
ETHYLENCHLORTRIFLUORETHYLEN ECTFEGENERAL PROPERTIES
Pipes, Fittings, Valves and Semi Finished Products are manufactured out of one raw material HALAR ECTFE
Halar 901
Halar 350 Halar 350
Halar 901
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CREEP CURVESINDUSTRIAL PIPING SYSTEM
CREEP CURVEPE 100
0,1 1,0 10 102
103
104
105
100,5
0,6
0,70,80,91,0
2,0
3,0
4,0
5,0
6,0
7,08,09,0
10,0
20,0
30,0
40,0
50,0
20°C
40°C
60°C
1 10 25 50Standzeit [Jahre]
10°C
80°C
100
Re
fere
nc
e s
tre
ss
sv
[N
/mm
²]
Time to fail [h]
20°C
50 years
10,0N/mm²
MRS10
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CREEP CURVEPE 100
0,1 1,0 10 102
103
104
105
100,5
0,6
0,70,80,91,0
2,0
3,0
4,0
5,0
6,0
7,08,09,0
10,0
20,0
30,0
40,0
50,0
20°C
40°C
60°C
1 10 25 50Standzeit [Jahre]
10°C
80°C
100
Re
fere
nc
e s
tre
ss
sv
[N
/mm
²]
Time to fail [h]
~6,7N/mm²
10 years
50°C
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CREEP CURVEPP-H100
0,1 1,0 10 102 103 104 105 1060,5
0,6
0,7
0,80,91,0
2,0
3,0
4,0
5,0
6,0
7,0
8,09,0
10,0
20,0
30,0
40,0
50,0
1 10 25 50
Standzeit [Jahre]
20°C
40°C
60°C
70°C
80°C
95°C
100
10°C
30°C
50°C
90°C
Re
fere
nc
e s
tre
ss
sv
[N
/mm
²]
Time to fail [h]
10N/mm²
MRS10
20°C
50 years
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CREEP CURVEPP-R80
0,1 1,0 10 102 103 104 105 1060,5
0,6
0,7
0,80,91,0
2,0
3,0
4,0
5,0
6,0
7,0
8,09,0
10,0
20,0
30,0
40,0
50,0
1 10 25 50
Standzeit [Jahre]
20°C
40°C
80°C
100
10°C
30°C
50°C
60°C
70°C
95°C
90°C
Re
fere
nc
e s
tre
ss
sv
[N/m
m²]
Time to fail [h]
~9,8N/mm²
20°C
50 years
MRS8
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CREEP CURVEPVDF
1 10 25 50
100
10 10 10 10 10 102 43 5 6
0,1 1,0
0,5
0,6
0,7
0,8
0,9
1,0
2,0
3,0
4,0
5,0
6,0
8,0
9,0
10,0
20,0
30,0
40,0
50,0
7,0
20°C30°C
40°C
50°C
60°C
70°C
80°C
90°C95°C
100°C
110°C
120°C
130°C
140°C
Time to fail [years]
Re
fere
nc
e s
tre
ss
sv
[N
/mm
²]
Time to fail [h]
20°C
27N/mm²
50 years
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CREEP CURVEECTFE
100
101
102
103
104
105
106
1
2
345
7
10
20
30
4050
90°C
60°C
23°C
1 5 10 25 50
Time to fail [years]
Re
fere
nc
e s
tre
ss
sv
[N
/mm
²]
Time to fail [h]
~18N/mm²
20°C
10 years
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CREEP BEHAVIOURPE100 / PP-H100 / PP-R80 / PVDF / ECTFE
Reference stress [N/mm²]Medium: water 20°C & 50 years
0,1 1,0 10 102
103
104
105 6
8,09,0
10,0
20,0
30,0
40,0
50,0
20°C
40°C
10°C
50°C
30°C
10
Re
fere
nc
e s
tre
ss
sv
[N
/mm
²]
Time to fail [h] 1 10 25 50Standzeit [Jahre]
100
ECTFE
PVDF
PE100
PP-H100
PP-R80
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CREEP BEHAVIOURPE100 / PP-H100 / PP-R80 / PVDF / ECTFE
Reference stress [N/mm²]Medium: water 20°C & 50 years
10 10 9,8
27
18 (10 years)
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
DENSITYPE/PP/PVDF/ECTFE
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
0,95 0,91 1,78 1,680
0,2
0,4
0,6
0,8
1
1,2
1,4
1,6
1,8
2
Density
PE PP PVDF ECTFE
TEMPERATURE LIMITS [°C]PE/PP/PVDF/ECTFE
-80
-30
20
70
120
170
Limit [°C]
-40
-5
-40
-76
80
110
140150
Minimum Temperature
Maximum Temperature
PE PP PVDF ECTFE
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
Limit [°C]
MODIFIED THERMOPLASTICSINDUSTRIAL PIPING SYSTEM
MODIFIED THERMOPLASTICS
PE-el: Polyethylene electro-conductive
PP-s: Polypropylene self-extinguishing
PPs-el: Polypropylene self-extinguishing and electro-conductive
PP white
PP-s white
PP black
Modifications will influence the properties of the standard materials
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
MODIFIED THERMOPLASTICSAPPLICATIONS
PE-el: Surface resistivity <106 [Ohm]
Lining of tanks and containers
PP-s: UL94 – V2 to V0 (s>9mm)
Ventilation piping system
PP-s-el: UL94 – V0 and a surface resistivity of <106 [Ohm]
Transport systems for explosive media
Material Property Typical application
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
MODIFIED THERMOPLASTICSAPPLICATIONS
PP white: Construction of facilities
PP-s white: UL94 – V2 to V0 (s>9mm)
Wet benches
PP black: Resistant against UV radiation
Out door systems
Material Property Typical application
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
Slightly blue coloured
CALCULATION GUIDELINESINDUSTRIAL PIPING SYSTEM
CALCULATION GUIDELINES PE/PP/PVDF/ECTFE
s
da
example:
da = 110mm
s = 10mm
SDR = ? SDR = das =
11010
= 11
SDR = sda
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
SDR ...Standard Dimension Ratio
da ...Outside diameter [mm]
s ...Wall thickness [mm]
SDR
CALCULATION GUIDELINES PE/PP/PVDF/ECTFE
S =SDR - 1
2
example:SDR11
S=? S=SDR - 1
2=
11 - 1
2= 5
therefore: ...SDR11 ISO-S5...
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
S-NUMBER
CALCULATION GUIDELINES PE/PP/PVDF/ECTFE
pzul = 20 . MRS
(SDR – 1) . cmin
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
OPERATING PRESSURE
pzul ...permissible operating pressure [bar]
MRS ...Minimum Required Strength [N/mm²]
SDR ...Standard Dimension Ratio
Cmin ...Safety factor (=1,25 acc. ISO 12162)
CALCULATION GUIDELINES PE/PP/PVDF/ECTFE
example:PE 100 MRS = 10 N/mm²SDR 11cmin = 1,25
pzul = ?
pzul = 20 . MRS
(SDR – 1) . cmin=
20 . 10
(11 – 1) . 1,25 = 16 bar
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines• Temporary joints
• Philosophy injection moulding• Product range
• Compressive creep test
• Typical applications
OPERATING PRESSURE
CALCULATION GUIDELINES PE/PP/PVDF/ECTFE
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
Material10 bis 40°C 40 bis 60°C über 60°C
PE 100PP-H 1,6 1,4 1,25PP-RPVDFECTFE 2,0
Temperature
1,25
1,251,6
SAFETY FACTOR
CALCULATION GUIDELINES PE/PP/PVDF/ECTFEOPERATING PRESSURE FOR WATER-DANGEROUS MEDIA
Pa = PB
fAP . fCR . AZ
Pa ... Operating pressure of the relevant application [bar]
PB ... Component operating pressure, valid for water [bar]
fAP ... Application factorfCR ... Chemical resistance factor according DVSAZ ... Reducing factor for the specific tenacity
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CALCULATION GUIDELINES PE/PP/PVDF/ECTFE
OPERATING PRESSURE FOR WATER-DANGEROUS MEDIA
Application factor fAP
material application C-factor total safetyfactor (acc. ISO 12162) factor at 20°C
fAP (fAP x C)PE 100 1,6 1,25 2,0PE-el 1,9 1,25 2,4PP-H 1,25 1,6 2,0PP-R 1,6 1,25 2,0PP-R-el 2,4 1,25 3,0PP-R-s-el 2,4 1,25 3,0PVDF 1,25 1,6 2,0ECTFE 1,0 2,0 2,0
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
CALCULATION GUIDELINES PE/PP/PVDF/ECTFE OPERATING PRESSURE FOR WATER-DANGEROUS MEDIA• General
informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
Reducing factor for the specific tenacity by low temperatures (DVS 2205, part 1)
*) not recommended
material-10°C +20°C
PE 100 1,2 1,0PE-el 1,6 1,4PP-H 1,8 1,3PP-R 1,5 1,1PP-R-el *) 1,5PP-R-s-el *) 1,7PVDF 1,6 1,4
operating temperature
CALCULATION GUIDELINES PE/PP/PVDF/ECTFE
OPERATING PRESSURE FOR WATER-DANGEROUS MEDIA
example:PE 100 MRS = 10 N/mm²SDR 11, C = 1,25medium : nitric acid, 53% concentrationtemperature: 20°C
pad = 20 . MRS
(SDR – 1) . Cmin
=20 . 10
(11 – 1) . 1,25= 16 bar
pa = pB
fAP . fCR . AZ=
16
1,6 . 2,00 . 1= 5 bar
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
WELDING GUIDELINESINDUSTRIAL PIPING SYSTEM
WELDING GUIDELINES PE/PP/PVDF/ECTFE
Flange connection (detachable joint)
Union (detachable joint)
Thread connection (detachable joint)
Heating element butt welding
Heating element butt welding
Electrosocket welding
Extrusion welding
Hot gas welding
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
HEATING ELEMENT BUTT WELDINGPE/PP/PVDF/ECTFE
pipe end
heating element
Preparation of the welding
Alignment and preheating
Joining and cooling
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PRINCIPLE
HEATING ELEMENT BUTT WELDING PE/PP/PVDF/ECTFE
Welding time
Alignment Adjusting
Joining pressure build-up
Cooling
Praeheating
temperature
Welding-temperature
Alignment resp. Joining pressure
pressure
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PRINCIPLE
HEATING ELEMENT BUTT WELDINGPE/PP/PVDF/ECTFE
WELDING MACHINE FOR BIG Ø• General
informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
HEATING ELEMENT BUTT WELDINGPE/PP/PVDF/ECTFE
BUILDING-SITE WELDING MACHINE
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
HEATING ELEMENT SOCKET WELDING PE/PP/PVDF/ECTFE
fitting
heating element
pipe end
Preparation of the welding
Alignment and pre-heating
Joining and cooling
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
HEATING ELEMENT SOCKET WELDINGPE/PP/PVDF/ECTFE
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
ELECTROFUSION PE/PP
connection pin
welding wire
indicator
middle stop
pipe end
Principle: The welding wire is heated up due to the energy input of the welding machine. Pipe and electro fusion fitting are welded together.
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
ELECTROFUSIONWELDING MACHINE
Polymatic plus
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
EXTRUSION WELDING PE/PP/PVDF
hot gas
working piece
welding device
supplying of welding filler (from extruder)
welding shoe
welded seam
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
EXTRUSION WELDING PE/PP/PVDF
HAND EXTRUSION EQUIPMENT
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
HOT GAS WELDING PE/PP/PVDF
welding rod
hot gas
working piece
welding device
welded steam
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
HOT GAS WELDINGPE/PP/PVDF
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TEMPORARY JOINTSINDUSTRIAL PIPING SYSTEM
FLANGE CONNECTION PE/PP/PVDF/ECTFE
pipe
stub flange
screws backing ring
sealing
Principle: The stub flanges, which are welded onto the pipes, are pressed by the help of the screws onto the sealing between it.
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
UNION PE/PP/PVDF/ECTFE
sealing
union nut
threaded partcompression part
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
UNION PE/PP/PVDF/ECTFE
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
THREADED CONNECTION PE/PP/PVDF
standard metric thread(NPT-thred on request)
welding area
fully coated plastic flow area
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
THREADED CONNECTION PE/PP/PVDF
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PHILOSOPHY INJECTION MOULDING
INDUSTRIAL PIPING SYSTEM
PHILOSOPHY INJECTION MOULDING CENTRAL INJECTION MOULDING GATE
High dimensional accurancy of the fitting
No joint lines (source of weakness!)
Low internal stresses
Same flow distance for all flow paths
High long time properties (internal pressure test):
- Requirements for the standards: 165h
- AGRU fittings reach more than 1.500h upto 10.000h higher safety
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PHILOSOPHY INJECTION MOULDINGDECENTRAL INJECTION MOLDING GATE
Limited dimensional accurancy of the fitting
Joint lines (source of weakness!)
Low long time properties
High internal stresses
Different flow distance for all flow paths
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
joint line
PHILOSOPHY INJECTION MOULDINGCENTRAL MOULDING GATE
High dimensional stability
Low internal stresses
Good weldability
Increased long time properties
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PRODUCT PROPERTIES
PRODUCT RANGEINDUSTRIAL PIPING SYSTEM
PRODUCT RANGE PE/PP
Extruded pipes in all pressure rates(Ø20 – 1400)
PE pipes available on request up to 2200mm
Fittings for electrosocket and butt welding (“elongated“ fittings) upto 315mm
Fittings for butt welding, injection moulded (-500mm)
Segmented (fabricated) fittings for butt welding (-1400mm)
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PRODUCT RANGE PE/PP
Electrofusion fittings (mainly PE)
Fittings for heating element socket welding (“socket fusion“ fittings) upto 110mm
Special fittings
Sheets, roundbars, welding rods
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PRODUCT RANGEPVDF
Extruded pipes upto Ø400mm
Sockets for electrofusion (HPF-welding)
Fittings for butt welding, injection moulded (-315mm)
Socket welding fittings Ø20 - Ø110mm
Valves, fittings
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
PRODUCT RANGEECTFE
Extruded pipes upto Ø160mm
Fittings for butt welding, injection moulded upto 110mm
Diaphragm valves upto Ø63mm
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
COMPRESSIVE CREEP TESTINDUSTRIAL PIPING SYSTEM
LONG TERM INTERNAL PRESSURE TESTACC. DIN 8078
Test criteria: 1000h at 95°C s=3,5N/mm²
Test result: >2400h without failure
AGRU PP-pipe
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
LONG TERM INTERNAL PRESSURE TESTACC. DIN 8078
Other PP pipes in comparison
Test criteria: 1000h at 95°C
s=3,5N/mm²
Test result: 36h until fail
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
LONG TERM INTERNAL PRESSURE TESTACC. DIN 8078
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONSINDUSTRIAL PIPING SYSTEM
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
Double containment piping system for the transport of chemicals which could contaminate the soil in ecological sensitive areas.
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
Drainage system for a bridge
PE Ø315mmConnectors Ø90mmButt- and Electrosocket welding
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
PE Water distribution system
AGRU- plant1
Main dimensions Ø200mm
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
Water for industrial use distribution system
PE Piping system in connection with PE storage tanks
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
PP Ducting
Ø560mm
Segmented (fabricated) fittings
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
Feed line for the transport of hazard chemicals, manufactured in PP
Segmented fittings Ø560mm
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
Support pipe line in PP Ø355mm
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
PVDF Process ducting Ø40mm• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
Chemical support line for a mixing unit in PVDF
Ø50 and Ø32mm
• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
TYPICAL APPLICATIONS INDUSTRIAL PIPING SYSTEM
ECTFE Process piping system Ø32 and Ø50mm• General informations
• Material properties
• Creep curves
• Modified thermoplastics
• Calculation guidelines
• Welding guidelines
• Temporary joints
• Philosophy injection moulding
• Product range
• Compressive creep test
• Typical applications
AGRU Kunststofftechnik GmbHIng.-Pesendorfer-Str. 31
A-4540 Bad HallAustria / EU
www.agru.at
T +43 (0) 7258 790 - 0F +43 (0) 7258 3863E [email protected]
Subject to errors of typesetting, misprints and modifications. Illustration are generic and for reference only!
THANKS FOR YOUR ATTENTION