zanardi fonderie s.p.a....

Zanardi Fonderie S.p.A.INFORMATIONAL SHEET ON AUSTEMPERED DUCTILE IRON

- TABLE OF GRADES -

PUBBLICABILE

02 Revisione da Infosheet 23/06/2008 VEN01 Emissione 2006 ZFRRev Descrizione Data Firma

8. MATWEB.COM “The Online Materials Database”

4. ZANARDI Database 5. SAE J2477 Rev. May 2004“Automotive Austempered Ductile (Nodular) Iron Castings (ADI)”6. AGMA “Informational Sheet on Austempered Ductile Iron (ADI)” Draft 13 June 20057. ISO 6336-5 “Calculation of load capacity of spur and helical gears” Part 5: Strength and quality of materials

References1. ZANARDI STANDARD 101: 20072. ISO 17804:2005 “Founding — Ausferritic Spheroidal Graphite Cast irons — Classification”3. ISO 1083:2004 “Founding — Spheroidal graphite cast irons”

Isothermed Ductile Iron (IDI) is produced by heat-treating an unalloyed ductile iron, casted with aspecial preconditioning of the metal bath. The matrix structure of the grade IDI consists predominantly of ferrite and pearlite, distributeddifferently from the usual shapes of the as cast grades. The new matrix is called “perferritic” andgives to the new material unique mechanical properties. The grade IDI is subject of a patent application by Zanardi Fonderie SpA.

Material notes

IDI

ADIAustempered Ductile Iron (ADI) is produced by heat-treating an alloyed ductile iron, casted with aspecial preconditioning of the metal bath.

The matrix structure consists predominantly of ferrite and austenite, depending on the grade. Thenew matrix is called “ausferritic” and gives to the new material unique mechanical properties.

DisclaimerThe content of this informational sheet has to be considered “for information only”. The realcomponent design shall be based only upon international standards and/or contractual

ScopeThis document is designed to familiarize the designer with Austempered Ductile Iron, through across reference between different standards of the available grades.It is a reference document, not to be referred to as a standard.The data in this document are taken from Zanardi research database, international standards,and technical papers; they shall be considered by the designer “for information only”.

© Zanardi Fonderie Spa Italy Ed 01 Rev.02 – 2007 – All rights reserved Pag. 1/7


- TABLE OF GRADES -

PUBBLICABILE

95

Foto 8

Descrizione

GS 400 100X GS 400 500X ADI 900 100X ADI 900 500X

Foto 1

GS600 100x

Foto 2

Descrizione

Foto 7

Descrizione

GS 600 100X GS 600 500X ADI 1050 100X ADI 1050 500X

GS 800 100X GS 800 500X ADI 1200 100X ADI1200 500X

Foto 3

Descrizione

Foto 4

Descrizione

IDI 100X IDI 500X ADI 1400 100X ADI 1400 500X

Foto 5

Descrizione

Foto 6

Descrizione

NOT AVAILABLE

ADI 800 100X ADI 800 500X ADI HBW450 100X ADI HBW450 500XGraphite form VI - Distribution A - Size 6/7 Graphite form VI - Distribution A - Size 6/7Austenite 50 % - α Ferrite 50 % Austenite 5 % - α Ferrite 95 %

Graphite form VI - Distribution A - Size 5/6 Graphite form VI - Distribution A - Size 6/7Ferrite 30 % - Perlite 70 % INTERCONNECTED Austenite 10 % - α Ferrite 90 %

Graphite form VI - Distribution A - Size 5/6 Graphite form VI - Distribution A - Size 6/7Ferrite 10 % - Perlite 90 % Austenite 20 % - α Ferrite 80 %

Graphite form VI - Distribution A - Size 6/7 Graphite form VI - Distribution A - Size 6/7Ferrite 40 % - Perlite 60 % Austenite 25 % - α Ferrite 75 %

Ferrite 100 %Graphite form VI - Distribution A - Size 6/7 Graphite form VI - Distribution A - Size 6/7

Austenite 40 % - α Ferrite 60 %



- TABLE OF GRADES -

PUBBLICABILE

Foto 1

Descrizione

Foto 2

Descrizione

GS 400 500X GS 600 500X 40CrMo4 Q&T 1000xTyplically BRITTLE Typlically BRITTLE Typlically DUCTILEPresence of CLEAVAGE Presence of CLEAVAGE

Foto 3

Descrizione

Foto 4

Descrizione

GS 800 500X IDI 500X DIMPLES SHEARINGTyplically BRITTLE Typlically BRITTLEPresence of CLEAVAGE Presence of CLEAVAGE

Foto 5

Descrizione

Foto 7

Descrizione

ADI 800 500X ADI 1050 500XTypically DUCTILE - BRITTLE

Typically DUCTILE - BRITTLE

Presence of DIMPLES Presence of DIMPLES

STEEL FRACTURE SURFACESCAST IRON AND ADIs FRACTURE SURFACES



- TABLE OF GRADES -

PUBBLICABILE

JS/

350-

22LT JS/

350-

22R

T

JS/

350-

22

JS/

400-

18LT JS/

400-

18R

T

JS/

400-

18

JS/

400-

15

JS/

450-

10

JS/

500-

07

JS/

550-

5

JS/

600-

3

JS/

700-

2

JS/

800-

2

JS/

900-

2

Not

es

IDI

Not

es

t ≤ 30 380 450 500 550 600 700 800 900 73030 < t < 60 370 450 520 600 700 70060 < t < 100 360 420 500 550 650 640

t ≤ 30 240 310 320 350 370 420 480 600 44030 < t < 60 230 300 330 360 400 42060 < t < 100 220 290 320 340 380 380

t ≤ 30 18 15 10 7 5 3 2 2 2 730 < t < 60 15 14 7 4 2 2 660 < t < 100 12 11 5 3 1 1 5

min 130 160 170 180 190 225 245 270 220max 180 210 230 250 270 350 335 360 300

JS/

350-

22LT

JS/

350-

22R

T

JS/

350-

22

JS/

400-

18LT

JS/

400-

18R

T

JS/

400-

18

JS/

400-

15

JS/

450-

10

JS/

500-

07

JS/

550-

5

JS/

600-

3

JS/

700-

2

JS/

800-

2

JS/

900-

2

Not

es

IDI

Not

es

Standard [b] 6,3 / 4 [d]

ZANARDI 11 /9 5 / 4 3 / 2 [c] 6,3 [c]

Standard 17 / 14 14 / 11 [b] 4,4 / 3 [d]

ZANARDI 10 / 9 3 / 2 3 / 2 [c] 4,4 [c]

Standard 15 / 12 12 / 9 [b] 4,3 / 2 [d]

ZANARDI 10 / 9 2 / 2 [c] 4,3 [c]

Standard [b] 4,1 / 4 [d]

ZANARDI [c] 4,1 [c]

Standard 12 / 9 [b] - [d]

ZANARDI [c] [e]Standard 10 / 7 [b] - [d]

ZANARDI [c] [e]Standard [b] 3,0 / 2 [d]

ZANARDI [c] 3,4 [c]

Standard 12 / 9 [b] - [d]

ZANARDI [c] [e]Standard 10 / 7 [b] - [d]

ZANARDI [c] [e]Standard 60ZANARDI 161 28 [c] [e]Standard 55 [d]

ZANARDI 63 [c]

Standard 50 [d]

ZANARDI 57 [c]

Standard 55ZANARDI 158 16 [c] [e]Standard 45 [d]

ZANARDI 46 [c]

Standard 40 [d]

ZANARDI 45 [c]

Standard 45ZANARDI 163 8 [c] [e]Standard 35 [d]

ZANARDI 41 [c]

Standard 30 [d]

ZANARDI 38 [c]

Standard 28 25 22 20 15 [d] -ZANARDI [e]

Symbol

Mea

sure

unit

Test

Sta

ndar

d

14

ISO1083

60 < t < 100

31 30-

HBW HBW ISO 6506-1

[b]

160 175130

[a]

[a]

IMPACT RESISTANCEMean of 3 highest value of 4 spearated tests

Jmin

ISO 148-1148-2148-3

t ≤ 30

30 < t < 60

60 < t < 100

Jmin

K -20°C

to beagreed

to beagreed

to beagreed

24018

250

15

to beagreed

to beagreed

12

22

to beagreed

1815

210

t ≤ 30

30 < t < 60

ISO 6892

200

SOU

RC

E

60 < t < 100

30 < t < 60

t ≤ 30

A5 %min

ISO6892Rp0,2

MPamin

220M

easu

reun

itSymbol

to beagreed

MPamin

250

SOU

RC

E

Test

Sta

ndar

d

ISO6892

Standard to beagreed

ISO1083

[a]

370

350330320

400390 to be

agreed

KV -20°C

ISO 148-1148-2148-3

KV

23±5°C

Jmin

ISO 148-1148-2148-3

K -40°C

Mpa / √m

K 23±5°C

KIC

60 < t < 100

KV -40°C

Jmin

ISO 148-1148-2148-3

30 < t < 60

60 < t < 100

30 < t < 60

t ≤ 30

ELONGATION

FRACTURE TOUGHNESS ASTM E399-90

Standard

Jmin

ISO 148-1148-2148-3

60 < t < 100

t ≤ 30

t ≤ 30

30 < t < 60

PROPERTY

IMPACT RESISTANCEMean value of 3 tests /

individual value

PROPERTY

BRINELL HARDNESS

Jmin

RELEVANTWALL

THIKNESS

RELEVANTWALL

THIKNESS

IMPACT PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST SAMPLES OR CAST-ON

ISO 148-1148-2148-3

Standard

Rm

0,2% YIELD STRENGHT

TENSILE STRENGHT

Standard

STD 101 [f]

[a]

[a]

[a]

[a]

STD 101 [f]

STATIC MATERIAL PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST SAMPLES OR CAST-ON



- TABLE OF GRADES -

PUBBLICABILE

JS/

350-

22LT

JS/

350-

22R

T

JS/

350-

22

JS/

400-

18LT

JS/

400-

18R

T

JS/

400-

18

JS/

400-

15

JS/

450-

10

JS/

500-

07

JS/

550-

5

JS/

600-

3

JS/

700-

2

JS/

800-

2

JS/

900-

2

Not

es

IDI

Not

es

t ≤ 30 Standard 210 224 236 248 280 [d] 380 [d]

t ≤ 30 320 378 [c] 380 [g]

30 < t < 60 [e] [e] [e]60 < t < 100 [e] [e] [e]

Standard - - - - - - - - - - - - - - 0,52 [d]

ZANARDI - - - - - 0,74 - - - - - 0,51 - - [c] 0,46 [g]

a0 μm . t ≤ 30 ZANARDI - - - - - 119 - - - - - 107 - - [c] 94 [g]

ΔKTh Mpa m0,5 . t ≤ 30 ZANARDI - - - - - 12,4 - - - - - 14,6 - - [c] 13,4 [g]

JS/

350-

22LT

JS/

350-

22R

T

JS/

350-

22

JS/

400-

18LT

JS/

400-

18R

T

JS/

400-

18

JS/

400-

15

JS/

450-

10

JS/

500-

07

JS/

550-

5

JS/

600-

3

JS/

700-

2

JS/

800-

2

JS/

900-

2

Not

es

IDI

Not

es

- Standard - - - - - - - - - - - - - - -- ZANARDI - - - - - - - - - - - - - - -- Standard - - - - - - - - - - - - - - -- ZANARDI - - - - - - - - - - - - - - -

- ZANARDI - - - - - - - - - - - - - - -

JS/

350-

22LT

JS/

350-

22R

T

JS/

350-

22

JS/

400-

18LT

JS/

400-

18R

T

JS/

400-

18

JS/

400-

15

JS/

450-

10

JS/

500-

07

JS/

550-

5

JS/

600-

3

JS/

700-

2

JS/

800-

2

JS/

900-

2

Not

es

IDI

Not

es

WR - ASTM G 132-96 - ZANARDI - - - - - - - - - - - - - - -

JS/

350-

22LT

JS/

350-

22R

T

JS/

350-

22

JS/

400-

18LT

JS/

400-

18R

T

JS/

400-

18

JS/

400-

15

JS/

450-

10

JS/

500-

07

JS/

550-

5

JS/

600-

3

JS/

700-

2

JS/

800-

2

JS/

900-

2

Not

es

IDI

Not

es

σdb Mpa - - Standard 700 800 840 870 1000 1150 - [d] [e]σaB Mpa - - Standard 405 450 500 540 630 720 810 [d] [e]σiB Mpa - - Standard 405 450 500 540 630 720 810 [d] [e]E KMPa - - Standard 172 174 [d] 155 [d]

v - - - Standard [d] 0,275 [d]

G KMPa - - Standard 66,3 66,3 67,5 68,2 [d] 61 [d]

ρ g/cm³ - - Standard [d] 7,2 [d]

λ W/(mK) - - Standard 35,2 34 32,5 [d] 32,5 [d]

- °C - - ZANARDI - - - - - - - - - - - - - - - -- 1/100 - - ZANARDI - - - - - - - - - - [c] 100 [g]

69,0

176

SOU

RC

E

195

ZANARDI

SOU

RC

E

Mpa

180

- ASTM E739-91

-

360315

SOU

RC

E

ISO1083

-ASTM E739-91

ISO1083

ISO1083

MACHINING

THERMAL CONDUCTIVITY at 200°C

DENSITY

SHEAR MODULUS

MAXIMUM WORKING TEMPERATURE

7,1

0,275

7,2

ISO1083

POISSON'S RATIO

MODULUS OF ELASTICITY

σH90%

MpaσAG

σAG / 2Rm

COMPRESSION STRENGTH

PROPERTY

Mea

sure

unit

PROPERTY

RELEVANTWALL

THIKNESSSymbol

Mea

sure

unit

Mea

sure

unit

Test

Sta

ndar

dTe

st S

tand

ard

Symbol

ABRASIVE WEAR RESISTANCE VOLUME LOSS relative to NiHARD(Ni-Cr-HC Class I A - 62HRC)

RELEVANTWALL

THIKNESS

Test

Sta

ndar

d

TOOTH-ROOT BENDING FATIGUE STRENGHT N=107 cycles

TOOTH-ROOT BENDING FATIGUE STRENGHT N=107 cyclesShot peened

RELEVANTWALL

THIKNESSSymbol

σF90% Mpa

Notch sensitivity ΔKTh (rotating bending)N = 5 × 106 cycles (ISO 1143)Probability of survival 50% Confidence 95%

HERTZIAN PRESSURE FATIGUE STRENGHT N=107 cycles

PROPERTY

Notch sensitivity a0 (rotating bending)N = 5 × 106 cycles (ISO 1143)Probability of survival 50% Confidence 95%

FATIGUE LIMITS (Whoeler)Rotating bendingUn-Notched, Ø10,6mm, N=2x106 cycle (ISO 1143)

ENDURANCE RATIO (Whoeler)Rotating bendingUn-Notched, Ø10,6mm, N=5x106 cycle, (ISO 1143) Probability of survival 50% Confidence 95%

PROPERTY Symbol Test

Sta

ndar

d

Mea

sure

unit

t ≤ 30

RELEVANTWALL

THIKNESS

SOU

RC

E

-

FATIGUE PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST SAMPLES OR CAST-ON

100 90

TORSIONAL STRENGTH

SHEAR STRENGTH

700-

360315

STD 101 [f]

STD 101 [f]TOOTH ROOT BENDING FATIGUE AND CONTACT FATIGUE PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST OR CAST-ON SAMPLES

36,2 31,1

66,3

169

304

STD 101 [f]

STD 101 [f]OTHER PROPERTIES

WEAR RESISTANCE PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST SAMPLES OR CAST-ON



- TABLE OF GRADES -

PUBBLICABILE

JS/

800-

10

JS/

800-

10R

T

JS/

900-

8

JS/

1050

-6

JS/

1200

-3

JS/

1400

-1

JS/

HB

W40

0

JS/

HB

W45

0

AD

I WR

Not

es

t ≤ 30 900 1050 1200

30 < t < 60 850 1000 1170

60 < t < 100 820 970 1140

t ≤ 30

30 < t < 60

60 < t < 100

t ≤ 30 8 6 3 1 1

30 < t < 60 5 4 2

60 < t < 100 4 3 1

min 280 320 340 380

max 340 380 420 480

JS/

800-

10

JS/

800-

10R

T

JS/

900-

8

JS/

1050

-6

JS/

1200

-3

JS/

1400

-1

JS/

HB

W40

0

JS/

HB

W45

0

AD

I WR

Not

es

Standard - 10 / 9 - - - - - - - [b]

ZANARDI - 10 / 9 - - - - - - - [c]

Standard - 9 / 8 - - - - - - - [b]

ZANARDI - 9 / 8 - - - - - - - [c]

Standard - 8 / 7 - - - - - - - [b]

ZANARDI - 8 / 7 - - - - - - - [c]

Standard - - - - - - - - - [b]

ZANARDI - 7,7 - - - - - - - [c]

Standard - - - - - - - - - [b]

ZANARDI - [e] - - - - - - -

Standard - - - - - - - - - [b]

ZANARDI - [e] - - - - - - -

Standard - - - - - - - - - [b]

ZANARDI - 6,2 - - - - - - - [c]

Standard - - - - - - - - - [b]

ZANARDI - [e] - - - - - - -

Standard - - - - - - - - - [b]

ZANARDI - [e] - - - - - - -

Standard - 110 100 80 60 35 25 20 [b]

ZANARDI 121 139 113 70 43 29 [c]

Standard - - - - - - - [b]

ZANARDI [e] [e] [e] [e] [e] [e] [e]

Standard - - - - - - - [b]


Standard - - - - - - - [b]

ZANARDI [e] 101 [e] [e] [e] [e]

Standard - - - - - - - [b]


Standard - - - - - - - [b]


Standard - - - - - - - [b]

ZANARDI [e] 83 [e] [e] [e] [e]

Standard - - - - - - - [b]


Standard - - - - - - - [b]


Standard 60 59 54 50 - [d]

ZANARDI 85 109 60 - - [g]

STATIC MATERIAL PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST SAMPLES OR CAST-ON

RELEVANTWALL

THIKNESS

RELEVANTWALL

THIKNESS

ELONGATION

0,2% YIELD STRENGHT

TENSILE STRENGHT

Standard

PROPERTY

IMPACT RESISTANCEMean value of 3 tests /

individual value

PROPERTY

IMPACT PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST SAMPLES OR CAST-ON

BRINELL HARDNESS Standard

Jmin

6

K 23±5°C

-

Standard

ISO 148-1148-2148-3

KV

23±5°C

Jmin

ISO 148-1148-2148-3

ISO 148-1148-2148-3

Jmin

FRACTURE TOUGHNESS ASTM E399-90Mpa / √m

Jmin

ISO 148-1148-2148-3

ISO 148-1148-2148-3

KIC

KV -20°C

KV -40°C

K -40°C

Rp0,2MPamin

ISO 6892A5 %

min

ISO6892

Mea

sure

unitSymbol

SOU

RC

E

MPamin

Test

Sta

ndar

d

ISO6892Rm Standard

t ≤ 30

30 < t < 60

60 < t < 100

t ≤ 30

to be agreed

[a]

IMPACT RESISTANCEMean of 3 highest value of 4 spearated tests

Jmin

ISO 148-1148-2148-3

t ≤ 30

30 < t < 60

60 < t < 100

Jmin

K -20°C

HBW HBW ISO 6506-1

400[b]

ISO17804

1600

to beagreed

30 < t < 60

450[b]

850600 700

60 < t < 100

SOU

RC

E

104

[a]

[a]

[a]

-

-

1300

-

60 < t < 100

30 < t < 60

t ≤ 30

60 < t < 100

t ≤ 30

30 < t < 60

t ≤ 30

30 < t < 60

60 < t < 100

Symbol

Mea

sure

unit

Test

Sta

ndar

d

62

-

-

123

310

250

120

ISO17804

5

10

500

720

750

1100

800 1400

1170

1140



- TABLE OF GRADES -

PUBBLICABILE

JS/

800-

10

JS/

800-

10R

T

JS/

900-

8

JS/

1050

-6

JS/

1200

-3

JS/

1400

-1

JS/

HB

W40

0

JS/

HB

W45

0

AD

I WR

Not

es

t ≤ 30 Standard 400 430 450 300 [d]

t ≤ 30 410 440 387 - [g]

30 < t < 60 [e] [e] [e] -60 < t < 100 [e] [e] [e] -

Standard 0,45 0,40 0,38 - [d]

ZANARDI 0,43 0,39 0,31 - [g]

a0 μm . t ≤ 30 ZANARDI 147 195 90 - [g]

ΔKTh Mpa m0,5 . t ≤ 30 ZANARDI 14,8 21,97 13 - [g]

JS/

800-

10

JS/

800-

10R

T

JS/

900-

8

JS/

1050

-6

JS/

1200

-3

JS/

1400

-1

JS/

HB

W40

0

JS/

HB

W45

0

AD

I WR

Not

es

- Standard 1100 1300 1350 - [d]

- ZANARDI [e] 1160 1209 - [g]

- Standard 320 300 290 - [d]

- ZANARDI [e] 302 293 - [g]

- ZANARDI [e] 504 478 - [g]

JS/

800-

10

JS/

800-

10R

T

JS/

900-

8

JS/

1050

-6

JS/

1200

-3

JS/

1400

-1

JS/

HB

W40

0

JS/

HB

W45

0

AD

I WR

Not

es

WR - ASTM G 132-96 - ZANARDI - - - 1,6 1,55 1,37 [g]

JS/

800-

10

JS/

800-

10R

T

JS/

900-

8

JS/

1050

-6

JS/

1200

-3

JS/

1400

-1

JS/

HB

W40

0

JS/

HB

W45

0

AD

I WR

Not

es

σdb Mpa - - Standard 1450 1675 1900 2500 [d]

σaB Mpa - - Standard 800 940 1080 1400 [d]

σiB Mpa - - Standard 800 940 1080 1400 [d]

E KMPa - - Standard 169 168 167 [d]

v - - - Standard [d]

G KMPa - - Standard 64 63 [d]

ρ g/cm³ - - Standard [d]

λ W/(mK) - - Standard [d]

- °C - - ZANARDI [d]

- 1/100 - - ZANARDI 80 70 50 100 100 [d][h]

[a]

[b]

[c]

[d]

[e]

[f]

[g]

[h] Machinability are referred to Pearlitic DI. In case of JS/HBW450 and ADI WR the value are referred at the as-cast material

TORSIONAL STRENGTH

SHEAR STRENGTH

Informative only valueData under upgradingCompay Standatrd ZND STD 101 : 2007

Data from Zanardi Fonderie S.p.A. research database. This Typical Value represent the mean of the statistical population of the sample. This value have to be taken as informative because the statistical population of the sample is too low to determine a Process Capability

Normative values. Informative in case of prescriptive values of Hardness (HB)Normative values.Data from Zanardi Fonderie S.p.A. mass production. This Typical Value represent the mean of the statistical population of the sample

Notes

-

1307

FATIGUE LIMITS (Whoeler)Rotating bendingUn-Notched, Ø10,6mm, N=2x106 cycle (ISO 1143)

FATIGUE PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST SAMPLES OR CAST-ON

ASTM E739-91

RELEVANTWALL

THIKNESS

SOU

RC

E

--

Notch sensitivity a0 (rotating bending)N = 5 × 106 cycles (ISO 1143)Probability of survival 50% Confidence 95%

ENDURANCE RATIO (Whoeler)Rotating bendingUn-Notched, Ø10,6mm, N=5x106 cycle, (ISO 1143) Probability of survival 50% Confidence 95%

PROPERTY

ZANARDI

t ≤ 30

Symbol Test

Sta

ndar

d

Mea

sure

unit

- ASTM E739-91

Notch sensitivity ΔKTh (rotating bending)N = 5 × 106 cycles (ISO 1143)Probability of survival 50% Confidence 95%

HERTZIAN PRESSURE FATIGUE STRENGHT N=107 cycles

PROPERTY

TOOTH ROOT BENDING FATIGUE AND CONTACT FATIGUE PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST OR CAST-ON SAMPLES

RELEVANTWALL

THIKNESSSymbol

Mea

sure

unit

Mea

sure

unit

Mea

sure

unit

Test

Sta

ndar

d

TOOTH-ROOT BENDING FATIGUE STRENGHT N=107 cycles

WEAR RESISTANCE PROPERTIES ON TEST PIECES MACHINED FROM SEPARATELY CAST SAMPLES OR CAST-ON

TOOTH-ROOT BENDING FATIGUE STRENGHT N=107 cyclesShot peened

PROPERTY

OTHER PROPERTIES

[e]

[e] 424

275

ABRASIVE WEAR RESISTANCE VOLUME LOSS relative to NiHARD(Ni-Cr-HC Class I A - 62HRC)

RELEVANTWALL

THIKNESS

RELEVANTWALL

THIKNESSSymbol

40100

1260

1,50

165

22001260

200 180

7,0

Test

Sta

ndar

d

1050

MpaσAG

σAG / 2Rm

MACHINING

THERMAL CONDUCTIVITY at 200°C

DENSITY

SHEAR MODULUS

MAXIMUM WORKING TEMPERATURE

POISSON'S RATIO

MODULUS OF ELASTICITY

PROPERTY

σF90%

Symbol

σH90%

COMPRESSION STRENGTH

0,27

Mpa

Mpa

Test

Sta

ndar

d

ISO17804

SOU

RC

ESO

UR

CE

ISO17804

[e]

350

62

20÷23

ISO17804

375400

-

375-

SOU

RC

E

280

7,165

1300720720170

-

-

-

-

134

16,8

[e][e]

0,50

0,47

ISO17804


zanardi fonderie s.p.a....

Documents