Cold work steels

Cold work tool steels are used for the manufacture of tools, where a surface temperature of 200°C is generally not exceeded. However, due to frictional heat or during polymer processing, temperatures above 300℃ can also occur in some cases.
Cold work steels must have special properties in this temperature range so that the tools made with them can withstand all the high stresses occurring in the numerous non-cutting shaping processes, i.e. high hardness, high wear resistance, good toughness, high resistance to pressure and impact stress and high fatigue strength, low dimensional change during heat treatment and adequate machinability.

The spectrum of cold work steels includes pure C steels, low and medium alloyed steels with higher C content and preferred alloying elements such as Mn, Cr, W, Mo, V, up to high alloyed tool steels with high Cr, Mo, W, V contents.
The required property combinations are achieved through the carbide content, which is specifically adjusted by alloying technology, and through special heat treatment of the tools, e.g. hardening and tempering to hardness values of approx. 50 to over 64 HRC. A sufficiently high carbon content of approx. 0.5 to 2% ensures the necessary hardening. The content, type and distribution of carbides ensures wear resistance.
Special metallurgical production processes for cold work tool steels, such as electro-slag remelting (BÖHLER ISODUR grade) or powder metallurgical production (BÖHLER MICROCLEAN grade) allow the production of highly alloyed, high-purity and very homogeneous products, which are characterised by the best combination of hardness, wear resistance, fracture resistance and fatigue resistance.

Preferred fields of application for cold work steels are tools for manufacturing processes such as punching, cutting, fineblanking, for sheet metal forming, rolling, cold massive forming, e.g. coining and sinking, extrusion, but also for tools in plastics processing with working temperatures in the aforementioned range and a wide variety of hand tools. In many cases, specially heat-treated high-speed steels also meet the requirements in cold work applications.

Downloads

Böhler Program

 

BÖHLER Grade Melting Route Material Numbers Standards
Airmelted
SEL 1.2080
EN X210Cr12
UNS ~T30403
AISI ~D3
EN ISO 4957
ASTM -
Airmelted
SEL 1.2601
EN X165CrMoV12
UNS ~T30402
AISI ~D2
EN ISO -
ASTM -
Airmelted
SEL 1.2436
EN X210CrW12
UNS -
AISI ~ D6
EN ISO 4957
ASTM -
Airmelted
SEL 1.2379
EN X153CrMoV12
UNS ~T30402
AISI D2
EN ISO 4957
ASTM -
Airmelted
SEL ~1.2379
EN ~X153CrMoV12
UNS -
AISI ~D2
EN ISO -
ASTM -
Powder metallurgy
SEL ~1.2380
EN ~ X230CrVMo13 4
UNS -
AISI -
EN ISO -
ASTM -
Airmelted
SEL 1.2101
EN 62SiMnCr4
UNS -
AISI -
EN ISO -
ASTM -
Airmelted
SEL 1.2363
EN ~X100CrMoV5-1
UNS ~T30102
AISI A2
EN ISO 4957
ASTM -
Airmelted
SEL ~1.2345
EN ~X50CrMoV5-1
UNS -
AISI -
EN ISO -
ASTM -
Airmelted + Remelted
SEL -
EN -
UNS -
AISI -
EN ISO -
ASTM -
Airmelted
SEL -
EN -
UNS -
AISI -
EN ISO -
ASTM -
Airmelted + Remelted
SEL -
EN -
UNS -
AISI -
EN ISO -
ASTM -
Powder metallurgy
SEL -
EN -
UNS -
AISI -
EN ISO -
ASTM -
Airmelted
SEL ~1.2550
EN ~60WCrV8
UNS -
AISI ~S1
EN ISO -
ASTM -
Airmelted
SEL 1.2510
EN 100MnCrW4
UNS T31501
AISI O1
EN ISO 4957
ASTM A681
Powder metallurgy
SEL -
EN -
UNS -
AISI -
EN ISO -
ASTM -
Airmelted
SEL 1.2767
EN 45NiCrMo16
UNS -
AISI -
EN ISO 4957
ASTM -
Airmelted
SEL ~1.2721
EN ~50NiCr13
UNS -
AISI -
EN ISO -
ASTM -
Airmelted
SEL 1.2842
EN 90MnCrV8
UNS ~T31502
AISI ~O2
EN ISO 4957
ASTM -
Powder metallurgy
SEL -
EN -
UNS -
AISI -
EN ISO -
ASTM -

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