Materials Portal Logo MATERIALS PORTAL

EN-GJS-600-3 | EN-JS1060 Material Datasheet

Unlock Exclusive Materials Data

Gain access to a wealth of materials data by joining our Materials Portal.

Register for Free or Upgrade for Full Access

Material Description

Material Number Material Number (single) Standard Scope Standard Status Country Predecessor Successor VDA 231-106 classification
EN-JS1060 (DIN EN 1563 : 2005-10) EN-JS1060 DIN EN 1563 : 2005-10 DIN EN 1563 : 2005-10 replaced by DIN EN 1563 : 2012-03 2 Germany EN-GJS-600-3 EN-GJS-600-3 1.2 1)
1) Remark: EN-GJS-600-3 (before GGG-60 acc. to DIN 1693-1 : 1973-10), a ferritic-pearlitic cast iron for cast parts of static and dynamic load and increased strength and wear resistance in vehicle manufacturing, in machine, equipment and vehicle engineering, in machine tool construction, in construction trade and energy industry, for crank shafts, wheel hubs, brake casings, tunnel rings, face plates for turning machines, bearings of high-pressure presses, benches for machine-tools. This cast iron mark applies to specimen made by machining of separately cast samples. The material is comparable to UNS F 33800 from the USA. The fracture toughness of this make accounts for 20 MPa*m^1/2 (information value). The fatigue strength (Woehler rotating bending test) accounts for the unnotched specimen (diameter: 10,6 mm) 248 N/mm², for the notched sample 149 N/mm² (unnotched specimen: For annealed ferritic cast iron with nodular graphite (GGG) the fatigue strength approximates the tensile strength x0,5 (Rm) of GGG with a Rm of 370 N/mm². The rate decreases according to the increasing Rm so far until fatigue strength for perlitic and tempered GGG approximates Rm x0,4. The rate continues to increase if the Rm exceed 740 N/mm². Notched specimen: For a sample of 10,6 mm diameter at the notch and a circumferential 45°- V-notch at a radius of 0,25 mm the fatigue strength of annealed GGG increases to a value of the fatigue strength x approx.0,63 of unnotched samples of GGG with a Rm of 370 N/mm². This value decreases according to the rising Rm of ferritic GGG. For GGG of intermediate strength values and for perlitic GGG and for tempered GGG the fatigue strength of notched samples approximates fatigue strength x0,6 of unnotched samples). Application for pressure equipment: compressor housings, industry valves, gate valves, valves for the chemical and petrochemical process industry, large waterspace boiler The appropriate materials for pressure applications and the conditions of use are specified in special product standards or application standards. For the structuring of pressure equipment special construction guidelines applies. Ferrite-pearlite is the predominant structure.

Cross Reference

Material Name Country Standard
422306 Czech Republik/Slovakia CSN 422306
FGS 600-3 France NF A 32-201-87
Grade 600/3 Great Britain BS 2789-85
VC60 (VČ60, ВЧ60) Russia GOST 7293-85
600-3 International ISO 1083-87
GS 600-3 Italy UNI 4544-79
FCD 600 Japan JIS G 5502-89
Zs 60003 Poland PN H-83123
Fgn 600-2 Romania STAS 6071-75
0732-03 Sweden MNC 706E-89
Göv. 600 Hungary MSZ 8277
80-55-06 USA ASTM A 536
D5506 USA SAE J 434
GGG-60 (0.7060) Germany DIN 1693-1

Producer/Supplier/Trade names

Tradename Supplier
EN-GJS-600-3 Pleissner Guss GmbH, Herzberg am Harz
EN-GJS-600-3 Meuselwitz Guß Eisengießerei GmbH, Meuselwitz
EN-GJS-600-3 Eisenwerk Martinlamitz GmbH, Schwarzenbach/Saale
EN-GJS-600-3 Harz Guss Zorge GmbH, Zorge
EN-GJS-600-3 HULVERSHORN Eisengießerei GmbH & Co. KG, Bocholt
EN-GJS-600-3 Römheld & Moelle Eisengießerei GmbH, Mainz
EN-GJS-600-3 Schubert & Salzer GmbH, Ingolstadt
EN-GJS-600-3 Olsberg Hermann Everken GmbH, Olsberg
EN-GJS-600-3 Sachsen Guss GmbH, Chemnitz
EN-GJS-600-3 Procast Guss GmbH, Gütersloh
EN-GJS-600-3 GESTAGUSS-GEW Edelstahlgießerei GmbH, Wetterzeube
EN-GJS-600-3 Dossmann GmbH, Walldürn-Rippberg
EN-GJS-600-3 Südguss GmbH, Neu-Ulm
EN-GJS-600-3 Heidenreich & Harbeck AG, Mölln

FKM Guideline Fatigue Strength

Semi-finished Product Condition Nominal Size [mm] Tensile Strength [MPa] Yield Strength (0.2% offset) [MPa] Elongation A [%] Fatigue Limit under rev. Tension-Compression Stresses [MPa] Fatigue Strength under pulsating Tensile Stresses [MPa] Bending Fatigue Strength [MPa] Shear Fatigue Strength [MPa] Torsion Fatigue Strength [MPa]
blur blur blur blur blur blur blur blur blur blur blur 1)2)
1) Source: blur
2) Remark: blur

Material Compliance

REACh RoHS
blur blur

Mechanical Properties

Semi-finished Product Condition Temperature [°C] Tensile Strength [MPa] Yield Strength (0.2% offset) [MPa] Elongation A [%] Compressive Strength [MPa] Shear Strength [MPa]
blur blur blur blur blur blur blur blur 1)2)
blur blur blur blur blur blur blur blur 3)4)
blur blur blur blur blur blur blur blur 3)4)
blur blur blur blur blur blur blur blur 3)4)
blur blur blur blur blur blur blur blur 3)4)
blur blur blur blur blur blur blur blur 3)4)
blur blur blur blur blur blur blur blur 3)4)
blur blur blur blur blur blur blur blur 3)4)
blur blur blur blur blur blur blur blur 3)5)
blur blur blur blur blur blur blur blur 3)5)
blur blur blur blur blur blur blur blur 3)5)
blur blur blur blur blur blur blur blur 3)5)
blur blur blur blur blur blur blur blur 3)5)
blur blur blur blur blur blur blur blur 3)5)
blur blur blur blur blur blur blur blur 3)5)
blur blur blur blur blur blur blur blur 6)7)
blur blur blur blur blur blur blur blur 6)8)
blur blur blur blur blur blur blur blur 6)8)
blur blur blur blur blur blur blur blur 6)8)
blur blur blur blur blur blur blur blur 6)8)
blur blur blur blur blur blur blur blur 6)7)
blur blur blur blur blur blur blur blur 6)7)
blur blur blur blur blur blur blur blur 6)7)
blur blur blur blur blur blur blur blur 9)10)
blur blur blur blur blur blur blur blur 9)10)
blur blur blur blur blur blur blur blur 9)10)
blur blur blur blur blur blur blur blur 9)10)
1) Source: blur
2) Remark: blur
3) Source: blur
4) Remark: blur
5) Remark: blur
6) Source: blur
7) Remark: blur
8) Remark: blur
9) Source: blur
10) Remark: blur

Physical Properties

Temperature [°C] Density [g/cm³] Young's Modulus [GPa] Poisson's Ratio Mean Coefficient of Thermal Expansion (reference 20°C) [10^-6*K^-1] Thermal Conductivity [W/(m*K)] Specific Electrical Resistance [µΩm] Mean Specific Heat Capacity [kJ/(kg*K)]
blur blur blur blur blur blur blur blur 1)2)
blur blur blur blur blur blur blur blur 1)3)
blur blur blur blur blur blur blur blur 1)3)
blur blur blur blur blur blur blur blur 1)4)
blur blur blur blur blur blur blur blur 5)6)
blur blur blur blur blur blur blur blur 5)6)
blur blur blur blur blur blur blur blur 5)6)
blur blur blur blur blur blur blur blur 5)6)
blur blur blur blur blur blur blur blur 5)6)
blur blur blur blur blur blur blur blur 7)
1) Source: blur
2) Remark: blur
3) Remark: blur
4) Remark: blur
5) Source: blur
6) Remark: blur
7) Source: blur

Toughness Data (Impact)

Semi-finished Product Condition Temperature [°C] Specimen Shape Notch Impact Energy [J]
blur blur blur blur blur 1)2)
blur blur blur blur blur 1)2)
blur blur blur blur blur 1)2)
blur blur blur blur blur 1)2)
blur blur blur blur blur 1)2)
blur blur blur blur blur 1)2)
1) Source: blur
2) Remark: blur

Chemical Composition

C [%] Mg [%] Mn [%] P [%] S [%] Si [%]
blur blur blur blur blur blur 1)2)
1) Source: blur
2) Remark: blur