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Technical Specifications of Carbon Steels
This group of steel grades that contain only a small amount of elements such as manganese, silicon, sulfur and phosphorus that do not contain alloying elements. Since their chemical composition contains very few elements, their properties are controlled by carbon element. While the increase in the amount of carbon decreases its properties such as ductility and toughness, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon ratio can be deformed more than carbon steels with high carbon ratio.
Chemical Composition
Chemical Composition by Mass % | ||||||||||||||||||
Grade | C | Si max. | Mn | P max. | S max. | Cr max. | Mo max. | Ni max. | ||||||||||
SAE 1008 | max. 0,10 | – | 0,30 – 0,50 | 0,040 | 0,050 | – | – | – | ||||||||||
SAE 1010 | 0,08 – 0,13 | – | 0,30 – 0,60 | 0,040 | 0,050 | – | – | – | ||||||||||
SAE 1020 | 0,18 – 0,23 | – | 0,30 – 0,60 | 0,040 | 0,050 | – | – | – | ||||||||||
SAE 1030 | 0,28 – 0,34 | – | 0,60 – 0,90 | 0,040 | 0,050 | – | – | – | ||||||||||
SAE 1040 | 0,37 – 0,44 | – | 0,60 – 0,90 | 0,040 | 0,050 | – | – | – | ||||||||||
SAE 1045 | 0,43 – 0,50 | – | 0,60 – 0,90 | 0,040 | 0,050 | – | – | – | ||||||||||
SAE 1050 | 0,48 – 0,55 | – | 0,60 – 0,90 | 0,040 | 0,050 | – | – | – | ||||||||||
SAE 1060 | 0,55 – 0,65 | – | 0,60 – 0,90 | 0,040 | 0,050 | – | – | – | ||||||||||
CK45 | 0,42 – 0,50 | 0,40 | 0,50 – 0,80 | 0,035 | 0,030 | – | – | – | ||||||||||
C22E | 0,17 – 0,24 | 0,40 | 0,40 – 0,70 | 0,030 | max. 0,035 | 0,40 | 0,10 | 0,40 | ||||||||||
C22R | 0,020 – 0, 040 | |||||||||||||||||
C35E | 0,32 – 0,39 | 0,40 | 0,50 – 0,80 | 0,030 | max. 0,035 | 0,40 | 0,10 | 0,40 | ||||||||||
C35R | 0,020 – 0, 040 | |||||||||||||||||
C40E | 0,37 – 0,44 | 0,40 | 0,50 – 0,80 | 0,030 | max. 0,035 | 0,40 | 0,10 | 0,40 | ||||||||||
C40R | 0,020 – 0, 040 | |||||||||||||||||
C45E | 0,42 – 0,50 | 0,40 | 0,50 – 0,80 | 0,030 | max. 0,035 | 0,40 | 0,10 | 0,40 | ||||||||||
C45R | 0,020 – 0, 040 | |||||||||||||||||
C50E | 0,47 – 0,55 | 0,40 | 0,60 – 0,90 | 0,030 | max. 0,035 | 0,40 | 0,10 | 0,40 | ||||||||||
C50R | 0,020 – 0, 040 | |||||||||||||||||
C60E | 0,57 – 0,65 | 0,40 | 0,60 – 0,90 | 0,030 | max. 0,035 | 0,40 | 0,10 | 0,40 | ||||||||||
C60R | 0,020 – 0, 040 |
Technical Delivery Conditions
ASTM A29: Standard for General Requirements for Carbon and Alloy Steels
DIN 17200: 1987 Steels for Heat Treatment – Technical Delivery Conditions
EN 10083-2: 2006 Steels for Treatment – Part 2: Technical Delivery Conditions for Non-Alloy Steel
Usage Areas
Carbon Steels; They are used to make general machine parts such as shafts, bolts and nuts.
Technical Specifications of Heat Treatable Steels
Heat treatable steels are machine making steels with hardenability properties, desired to have high strength and ductility as a result of heat treatment and used in alloyed – unalloyed forms.
Chemical Composition
Chemical Composition by Mass % | ||||||||||||||||||
Grade | C | Si max. | Mn | P max. | S max. | Cr max. | Mo max. | Ni max. | ||||||||||
SAE 5132 | 0,30 – 0,35 | 0,15 – 0,35 | 0,60 – 0,80 | 0,035 | 0,040 | 0,75 – 1,00 | – | – | ||||||||||
SAE 5140 | 0,38 – 0,43 | 0,15 – 0,35 | 0,70 – 0,90 | 0,035 | 0,040 | 0,70 – 0,90 | – | – | ||||||||||
SAE 4130 | 0,28 – 0,33 | 0,15 – 0,35 | 0,60 – 0,90 | 0,035 | 0,040 | 0,80 – 1,10 | 0,15 – 0,25 | – | ||||||||||
SAE 4135 | 0,33 – 0,38 | 0,15 – 0,35 | 0,70 – 0,90 | 0,035 | 0,040 | 0,80 – 1,10 | 0,15 – 0,25 | – | ||||||||||
SAE 4140 | 0,38 – 0,43 | 0,15 – 0,35 | 0,75 – 1,00 | 0,035 | 0,040 | 0,80 – 1,10 | 0,15 – 0,25 | – | ||||||||||
SAE 4340 | 0,38 – 0,43 | 0,15 – 0,35 | 0,60 – 0,80 | 0,035 | 0,040 | 0,70 – 0,90 | 0,20 – 0,30 | 1,65 – 2,00 | ||||||||||
34Cr4 | 0,30 – 0,37 | 0,40 | 0,60 – 0,90 | 0,025 | max. 0,035 | 0,90 – 1,20 | – | – | ||||||||||
34CrS4 | 0,020 – 0, 040 | |||||||||||||||||
41Cr4 | 0,38 – 0,45 | 0,60 – 0,90 | 0,38 – 0,45 | 0,60 – 0,90 | max. 0,035 | 0,90 – 1,20 | – | – | ||||||||||
41CrS4 | 0,020 – 0, 040 | |||||||||||||||||
25CrMo4 | 0,22 – 0,29 | 0,40 | 0,60 – 0,90 | 0,025 | max. 0,035 | 0,90 – 1,20 | 0,15 – 0,30 | – | ||||||||||
25CrMoS4 | 0,020 – 0, 040 | |||||||||||||||||
34CrMo4 | 0,30 – 0,37 | 0,40 | 0,60 – 0,90 | 0,025 | max. 0,035 | 0,90 – 1,20 | 0,15 – 0,30 | – | ||||||||||
34CrMoS4 | 0,020 – 0, 040 | |||||||||||||||||
42CrMo4 | 0,38 – 0,45 | 0,40 | 0,60 – 0,90 | 0,025 | max. 0,035 | 0,90 – 1,20 | 0,15 – 0,30 | – | ||||||||||
42CrMoS4 | 0,020 – 0, 040 | |||||||||||||||||
34CrNiMo6 | 0,30 – 0,38 | 0,40 | 0,50 – 0,80 | 0,025 | 0,035 | 1,30 – 1,70 | 0,15 – 0,30 | 1,30 – 1,70 | ||||||||||
30CrNiMo8 | 0,26 – 0,34 | 0,40 | 0,50 – 0,80 | 0,025 | 0,035 | 1,80 – 2,20 | 0,30 – 0,50 | 1,80 – 2,20 | ||||||||||
39NiCrMo3 | 0,35 – 0,43 | 0,40 | 0,50 – 0,80 | 0,025 | 0,035 | 0,60 – 1,00 | 0,15 – 0,25 | 0,70 – 1,00 |
Technical Delivery Conditions
- ASTM A29: Standard for General Requirements for Carbon and Alloy Steels.
- EN 10277-5: 2008 Bright Steel Materials. Technical Delivery Conditions. Steels for Quenching and Tempering.
- EN 10083-2: 2006 Steels for Treatment – Part 2: Technical Delivery Conditions for Non-Alloy Steel.
Usage Areas
Heat treatable steels are used in forging parts, gears, shafts, bolts, nuts, crankshafts, piston rods and are among the most consumed steels.
Technical Specifications of Case Hardening Steels
Case Hardening steels are the steels that require properties such as softness and toughness in the core, and properties such as hardness and wear resistance on the surface. These steels can be used as alloyed-unalloyed and contain low carbon (0.10-0.25%). Since these steels are resistant to abrasion on the surface despite their high toughness values, they are used in parts where variable – impact loads and wear are effective.
Chemical Composition
Chemical Composition by Mass % | |||||||||||||||||||||||||
Grade | C | Si max. | Mn | P max. | S max. | Cr max. | Mo max. | Ni max. | Cu max. | Al | B | ||||||||||||||
16MnCr5 | 0,14 – 0,19 | 0,40 | 1,00 – 1,30 | 0,025 | max. 0,035 | 0,80 – 1,10 | – | – | – | – | – | ||||||||||||||
16MnCrS5 | 0,020 – 0, 040 | ||||||||||||||||||||||||
20MnCr5 | 0,17 – 0,22 | 0,40 | 1,10 – 1,40 | 0,025 | max. 0,035 | 1,00 – 1,30 | – | – | – | – | – | ||||||||||||||
20MnCrS5 | 0,020 – 0, 040 | ||||||||||||||||||||||||
20NiCrMo2-2 | 0,17 – 0,23 | 0,40 | 0,65 – 0,95 | 0,025 | max. 0,035 | 0,35 – 0,70 | 0,15 – 0,25 | 0,40 – 0,70 | – | – | – | ||||||||||||||
20NiCrMoS2-2 | 0,020 – 0, 040 | ||||||||||||||||||||||||
SAE 8620H | 0,17 – 0,23 | 0,15 – 0,35 | 0,60 – 0,95 | – | – | 0,35 – 0,65 | 0,15 – 0,25 | 0,35 – 0,75 | – | – | – | ||||||||||||||
18CrNiMo7-6 | 0,15 – 0,21 | 0,40 | 0,50 – 0,90 | 0,025 | 0,035 | 1,50 – 1,80 | 0,25 – 0,35 | 1,40 – 1,70 | – | – | – | ||||||||||||||
16MnCr5MOD | 0,14 – 0,18 | 0,21 – 0,29 | 1,05 – 1,15 | 0,025 | 0,030 | 0,80 – 0,90 | – | 0,15 | 0,10 | 0,020 – 0,030 | 0,0030 – 0,0070 | ||||||||||||||
19CrNi5 | 0,16 – 0,21 | 0,15 – 0,35 | 0,70 – 1,10 | 0,035 | 0,020 – 0,040 | 0,80 – 1,20 | 0,10 | 0,80 – 1,20 | 0,30 | 0,020 – 0,050 | – | ||||||||||||||
19MnCr5G | 0,15 – 0,21 | 0,15 – 0,35 | 1,00 – 1,30 | 0,035 | – | 0,80 – 1,10 | – | – | 0,30 | 0,020 – 0,050 | – |
Technical Delivery Conditions
- ASTM A304 Standard Specification for Carbon and Alloy Steel Bars Subject to Hardenability Requirements.
- EN 10277-4: 2008 Bright Steel Materials. Technical Delivery Conditions. Case Hardening Steels.
- EN 10084: 2008 Cementation Steels. Technical Delivery Conditions.
Usage Areas
Case Hardening Steels are generally; They are used in parts such as gears, rollers, bushings, roller bearings, guide bearings, discs, rollers, piston pins.
Technical Specifications of Free-Cutting Steels
Free cutting steels are steels where small-brittle chip formation and machinability are required. These steels contain low and medium levels of carbon (0.10-0.60%). Their biggest feature is that they contain higher levels of sulfur (0.15-0.40%) and phosphorus (0.06-0.10%) compared to other steels. These steels are used in the production of parts with narrow tolerance intervals, good surface quality and easy machinability
Chemical Composition
Chemical Composition by Mass % | ||||||||||||||||||
Grade | C max. | Si max. | Mn | P max. | S | Cr | Mo | Pb | ||||||||||
11SMn30 | 0,14 | 0,05 | 0,90 – 1,30 | 0,11 | 0,27 – 0,33 | – | – | – | ||||||||||
11SMn37 | 0,14 | 0,05 | 1,00 – 1,50 | 0,11 | 0,34 – 0,40 | – | – | – | ||||||||||
11SMnPb30 | 0,14 | 0,05 | 0,90 – 1,30 | 0,11 | 0,27 – 0,33 | – | – | 0,20 – 0,35 | ||||||||||
11SMnPb37 | 0,14 | 0,05 | 1,00 – 1,50 | 0,11 | 0,34 – 0,40 | – | – | 0,20 – 0,35 | ||||||||||
35S20 | 0,32 – 0,39 | 0,40 | 0,70 – 1,10 | 0,06 | 0,15 – 0,25 | – | – | – | ||||||||||
46S20 | 0,42 – 0,50 | 0,40 | 0,70 – 1,10 | 0,06 | 0,15 – 0,25 | – | – | – | ||||||||||
44SMn28 | 0,42 – 0,48 | 0,40 | 1,30 – 1,70 | 0,06 | 0,24 – 0,33 | – | – | – | ||||||||||
44SMnPb28 | 0,42 – 0,48 | 0,40 | 1,30 – 1,70 | 0,06 | 0,24 – 0,33 | – | – | 0,15 – 0,35 | ||||||||||
ETG®100 | 0,42 – 0,48 | 0,10 – 0,30 | 1,35 – 1,65 | 0,04 | 0,24 – 0,33 | – | – | – | ||||||||||
HSX® 110 | 0,39 | 0,75 | 1,40 | – | 0,035 | – | – | – | ||||||||||
HSX® 130 | 0,18 | 1,20 | 1,60 | – | 0,15 | 1,20 | 0,30 | – | ||||||||||
HSX® Z12 | 0,18 | 1,20 | 1,60 | – | 0,15 | 1,20 | 0,30 | – |
Technical Delivery Conditions
- EN 10277-3: 2008 Bright Steel Materials. Technical Delivery Conditions. Free Cutting Steels.
- EN 10087: 1999 Free Cutting Steels. Technical Delivery Conditions for Semi-Finished, Hot Rolled Bars.
- Special Specifications by Steeltec.
Usage Areas
They are used in the automotive and machinery industry for different types of fittings and small apparatuses
Technical Specifications of Structural Steels
They are non-alloy steels, usually containing a low amount of carbon. They are very useful with their weldability properties and ideal strength. They are used in applications where high strength and low weight are required. Since they are generally used in the field of construction, they are consumed in higher amounts than other steels. In Euro Norm, materials are named according to their yield strength.
Chemical Composition
Cmax. | Simax. | Mnmax. | Pmax. | Smax. | Nmax. | Cumax. | |||
Kalite | Ø ≤ 16mm | 16mm < Ø ≤ 40mm | Ø > 40mm | ||||||
S235JR | 0,17 | 0,17 | 0,20 | – | 1,40 | 0,035 | 0,035 | 0,012 | 0,55 |
S275JR | 0,21 | 0,21 | 0,22 | – | 1,50 | 0,035 | 0,035 | 0,012 | 0,55 |
S355JR | 0,24 | 0,24 | 0,24 | 0,55 | 1,60 | 0,035 | 0,035 | 0,012 | 0,55 |
S355J0 | 0,20 | 0,20 | 0,22 | 0,55 | 1,60 | 0,030 | 0,030 | 0,012 | 0,55 |
S355J2 | 0,20 | 0,20 | 0,22 | 0,55 | 1,60 | 0,025 | 0,025 | – | 0,55 |
S355K2 | 0,20 | 0,20 | 0,22 | 0,55 | 1,60 | 0,025 | 0,025 | – | 0,55 |
Chemical Composition by Mass % | |||||||||
Kalite | Cmax. | Simax. | Mnmax. | Pmax. | Smax. | Crmax. | Nimax. | Cumax. | |
St52-3 | 0,23 | 0,60 | 1,60 | 0,035 | 0,030 | – | – | 0,60 |
Technical Delivery Conditions
- EN 10025-2: 2004 Hot Rolled Structural Steels. Technical Delivery Conditions for Non-Alloy Structural Steels.
- DIN 17100 Steels for General Structural Purposes.
They are used in the automotive and machinery industry for different types of fittings and small apparatuses
Technical Specifications of Bearing Steels
They are steels that are required to work under conditions such as very high tensile, pressure, continuous vibration and wear. They usually contain a high percentage of carbon.
Chemical Composition
Grade | C | Simax. | Mn | Pmax. | Smax. | Cr | Momax. | Cumax. | Almax. |
100Cr6 | 0,93 – 1,05 | 0,15 – 0,35 | 0,25 – 0,45 | 0,025 | 0,015 | 1,35 – 1,60 | 0,10 | 0,30 | 0,050 |
100CrMo7 | 0,93 – 1,05 | 0,15 – 0,35 | 0,25 – 0,45 | 0,025 | 0,015 | 1,65 – 1,95 | 0,15 – 0,30 | 0,30 | 0,050 |
Technical Delivery Conditions
- ISO 683-17: 2008 Heat Treatment Steels. Technical Delivery Conditions. Ball and Roller Bearing Steels.
Usage Areas
They are generally used in ball and roller bearings, special rollers and rings.
Technical Specifications of Spring Steels
These are steels that are required to undergo high elastic deformation, to have high yield strength and to have a high fatigue life. Spring steels contain medium or high levels of carbon (0.50-0.85%). They are generally produced as low alloyed or unalloyed.
Chemical Composition
Grade | C | Simax. | Mn | Pmax. | Smax. | Cr | Mo | V |
51CrV4 | 0,47 – 0,55 | 0,40 | 0,70 – 1,10 | 0,030 | 0,030 | 0,90 – 1,20 | – | 0,10 – 0,25 |
55Cr3 | 0,52 – 0,59 | 0,40 | 0,70 – 1,00 | 0,030 | 0,030 | 0,70 – 1,00 | – | – |
38Si7 | 0,35 – 0,42 | 1,50 – 1,80 | 0,50 – 0,80 | 0,030 | 0,030 | – | – | – |
* Cu + ( 10 x Sn ) ≤ 0,60 |
Technical Delivery Conditions
- ISO 683-14:2008 Heat Treatment Steels. Technical Delivery Conditions. Hot Rolled Recoverable Springs.
Usage Areas
They are used in the automotive industry and in spring parts in industry.
Technical Specifications of 42CrMo4 Reclamation Steel Produced by Forging Method According to EN10250-3 Standard
Cured steels are machine-building steels that have hardenability properties, are required to have high strength and ductility as a result of heat treatment, and are used in alloyed and non-alloyed forms.
Material Name: | Material No: | Equivalent Qualities: |
42CrMo4 | 1.7225 | SAE 4140 |
42CrMoS4 | 1.7227 | AFNOR 42CD4 |
AFNOR 42CD4u |
Chemical Composition
Quenched and Tempered (+QT) (Reclamation)
Chemical Composition % by mass | ||||||||
Grade | C | Simax. | Mn | Pmax. | Smax. | Cr | Mo | Ni |
42CrMo4 | 0.38 – 0.45 | 0.40 | 0.60 – 0.90 | 0.035 | 0.035 | 0.90 – 1.20 | 0.15 – 0.30 | – |
Quenched and Tempered (+QT) (Breeding Process) | ||||
Mechanical Properties at Room Temperature in the Conditioned Condition (+QT) | ||||
tR ≤ 160mm | 160 < tR ≤ 330mm | 330 < tR ≤ 660mm | ||
Re min. | 500 | 460 | 390 | |
Rm min. | 750 | 700 | 600 | |
Amin. | l* | 14 | 15 | 16 |
tr** | 10 | 11 | 12 | |
KV min. | l* | 30 | 27 | 22 |
tr** | 16 | 14 | 12 |
Flow Strength | Re min. | MPa |
Tensile Strength | Rm | MPa |
Elongation | Amin. | % |
*Longitudinal | l | |
**Transverse | tr | % |
Notch Impact Resistance | KV min. | Joule |
1 MPa = 1 N/mm2 |
Technical Specifications of Nitration Steels
Chemical Composition
Grade | C | Simax. | Mn | Pmax. | Smax. | Al | Cr | Mo | Ni | V |
31CrMoV9 | 0,27 – 0,34 | 0,40 | 0,40 – 0,70 | 0,025 | 0,035 | – | 2,30 – 2,70 | 0,15 – 0,25 | – | 0,10 – 0,20 |
1.8550 | 0,30 – 0,37 | 0,40 | 0,40 – 0,70 | 0,025 | 0,035 | 0,80 – 1,20 | 1,50 – 1,80 | 0,15 – 0,25 | 0,85 – 1,15 | – |
Technical Delivery Conditions
- EN 10085: 2001 Nitriding Steels.
Usage Areas
It is used in screws and sleeves of plastic extrusion machines, gears, shafts, heavy machine parts such as piston rod, plunger and screw shaft, especially in large sizes and sections, and spiral and cylinder in plastic injection machines.
Technical Specifications of Stainless Steels
These are steels that contain 12% or more of chromium (Cr) and varying amounts of nickel (Ni) and are required to show high corrosion resistance. These steels are generally low but contain low to medium carbon (0.08-0.60). They are generally used in applications and parts where corrosion resistance, high life and hygiene are required. Although they are called “Stainless Steel” in our country, the correct usage is Corrosion Resistant Steels.
Chemical Composition
Grade | Cmax. | Simax. | Mnmax. | Pmax. | S | Cr | Cumax. | Mo | Ni | Nmax. |
AISI 303 | 0,10 | 1,00 | 2,00 | 0,045 | 0,15 – 0,35 | 17,00 – 19,00 | 1,00 | – | 8,00 – 10,00 | 0,10 |
AISI 304 | 0,07 | 1,00 | 2,00 | 0,045 | 0,030 | 17,00 – 19,00 | – | – | 8,00 – 10,50 | 0,10 |
AISI 304L | 0,03 | 1,00 | 2,00 | 0,045 | 0,030 | 17,50 – 19,50 | – | – | 8,00 – 10,50 | 0,10 |
AISI 316 | 0,07 | 1,00 | 2,00 | 0,045 | 0,030 | 16,50 – 18,50 | – | 2,00 – 2,50 | 10,00 – 13,00 | 0,10 |
AISI 316L | 0,03 | 1,00 | 2,00 | 0,045 | 0,030 | 16,50 – 18,50 | – | 2,00 – 2,50 | 10,00 – 13,00 | 0,10 |
AISI 420 | 0,16 – 0,25 | 1,00 | 1,50 | 0,040 | 0,030 | 12,00 – 14,00 | – | – | – | – |
AISI 430 | 0,08 | 1,00 | 1,00 | 0,040 | 0,030 | 16,00 – 18,00 | – | – | – | – |
AISI 431 | 0,12 – 0,22 | 1,00 | 1,50 | 0,040 | 0,030 | 15,00 – 17,00 | – | – | 1,50 – 2,50 | – |
Chemical Composition % by mass |
||||||||||
Grade | Cmax. | Simax. | Mnmax. | Pmax. | Smax. | Cr | Timax. | Mo | Ni | Nmax. |
AISI 316Ti | 0,08 | 1,00 | 2,00 | 0,045 | 0,030 | 16,50 – 18,50 | 0,70 | 2,00 – 2,50 | 10,50 – 13,50 | – |
Technical Delivery Conditions
- EN 10088-5:2009 Technical Delivery Conditions for Corrosion Resistant Steel Bars, Shafts, Wires and Bright Products.
Usage Areas
General usage areas are welded pipe production, turbine blades, surgical instruments, automobile chassis parts, exhaust elements, household appliances, food machinery and construction industry.
Technical Specifications of Tool Steels According to EN ISO 4957:2000 Standard
Chemical Composition
Chemical Composition % by mass | |||||||||
Quality | C | Si | Mn | Cr | Mo | Ni | V | W | |
1.2067 | 0.95 – 1.10 | 0.15 – 0.35 | 0.25 – 0.45 | 1.35 – 1.65 | – | – | – | – | |
1.2080 | 1.90 – 2.20 | 0.10 – 0.60 | 0.20 – 0.60 | 11.00 – 13.00 | – | – | – | – | |
1.2363 | 0.95 – 1.05 | 0.10 – 0.40 | 0.40 – 0.80 | 4.80 – 5.50 | 0.90 – 1.20 | – | 0.15 – 0.35 | – | |
1.2379 | 1.45 – 1.60 | 0.10 – 0.60 | 0.20 – 0.60 | 11.00 – 13.00 | 0.70 – 1.00 | – | 0.70 – 1.00 | – | |
1.2436 | 2.00 – 2.30 | 0.10 – 0.40 | 0.30 – 0.60 | 11.00 – 13.00 | – | – | – | 0.60 – 0.80 | |
1.2550 | 0.55 – 0.65 | 0.70 – 1.00 | 0.15 – 0.45 | 0.90 – 1.20 | – | – | 0.10 – 0.20 | 1.70 – 2.20 | |
1.2767 | 0.40 – 0.50 | 0.10 – 0.40 | 0.20 – 0.50 | 1.20 – 1.50 | 0.15 – 0.35 | 3.80 – 4.30 | – | – | |
1.2842 | 0.85 – 0.95 | 0.10 – 0.40 | 1.80 – 2.20 | 0.20 – 0.50 | – | – | 0.05 – 0.20 | – | |
1.2343 | 0.33 – 0.41 | 0.80 – 1.20 | 0.25 – 0.50 | 4.80 – 5.50 | 1.10 – 1.50 | – | 0.30 – 0.50 | – | |
1.2344 | 0.35 – 0.42 | 0.80 – 1.20 | 0.25 – 0.50 | 4.80 – 5.50 | 1.20 – 1.50 | – | 0.85 – 1.15 | – | |
1.2367 | 0.35 – 0.40 | 0.30 – 0.50 | 0.30 – 0.50 | 4.80 – 5.20 | 2.70 – 3.20 | – | 0.40 – 0.60 | – | |
1.2714 | 0.50 – 0.60 | 0.10 – 0.40 | 0.60 – 0.90 | 0.80 – 1.20 | 0.35 – 0.55 | 1.50 – 1.80 | 0.05 – 0.15 | – | |
1.2738 | 0.35 – 0.45 | 0.20 – 0.40 | 1.30 – 1.60 | 1.80 – 2.10 | 0.15 – 0.25 | 0.90 – 1.20* | – | – | |
1.3343 | 0.86 – 0.94 | 0.45 | – | 3.80 – 4.50 | 4.70 – 5.20 | – | 1.70 – 2.10 | 5.90 – 6.70 |
Technical Delivery Conditions
- EN ISO 4957:2000 Tool Steels. Technical Delivery Conditions.
Usage Areas
Cutting tools, precision drilling punches, scraping, scraping and breaking knives, drawing and embossing tools, deep drawing and spinning tools, sintering and pressing tools.
Wide Range of Sectors
We offer active solutions to our customers in all sectors in which we operate.