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H13-hot-work-tool-steel

AISI H13 Tool Steel

WALDUN is one of the top AISI H13 Tool Steel Manufacturer and Exporter China, can supplied with round,square,flat,block,and shaft etc. H13 steel is a chromium-molybdenum-vanadium hot work tool steel as per ASTM A681 standard.It has good resistance to abrasion at low and high temperature,good toughness, and good resistance to thermal fatigue cracking (also known as heat checking).H13 steel provides excellent machinability with constant hardness during production activities,and also has excellent through-hardening properties and very limited distortion during hardening.

The main characteristics of AISI H13 Tool Steel are:

  • High hardenability and high toughness.
  • Excellent resistance to thermal cracking, which can be water-cooled in the workplace.
  • Moderate resistance to wear, and a carburizing or nitriding process can be used to increase its surface hardness, but with a slight reduction in resistance to thermal cracking.
  • Poor secondary hardening ability in tempering due to its low carbon content.
  • resistance to softening at higher temperatures, but a rapid decline in hardness occurs at operating temperatures above 540°C (1000°F) (i.e., the working temperature that can be tolerated is 540°C).
  • Low heat treatment deformation.
  • Moderate and high machinability.
  • Moderate resistance to decarburization.
  • More notably, it can also be used to make important components in the aerospace industry.

AISI H13 Tool Steel Supply Form & Size & Tolerance

Supply Form Size(mm) Process Tolerance
Round Φ6-Φ100 Cold Drawn Bright/Black Best H11
Φ16-Φ350 Hot Rolled Black -0/+1mm
Peeled/ground Best H11
Φ90-Φ1000 Hot Forged Black -0/+5mm
Rough Turned -0/+3mm
Flat/Square/Block Thickness :120-800 Hot Forged Black -0/+8mm
Width:120-1500 Rough Machined -0/+3mm

Remark:Tolerance can be customized as per requests

AISI H13 Tool Steel Chemical Composition

Standard Grade C Si Mn P S Cr Mo V
ASTM A681 H13 0.32-0.45 0.8-1.2 0.20-0.50 0.03 0.03 4.75-5.50 1.1-1.75 0.8-1.2
DIN ISO 4957 1.2344 0.37-0.42 0.9-1.2 0.3-0.5 0.03 0.03 4.8-5.5 1.2-1.5 0.9-1.1
GB/T 1299 4Cr5MoSiV1 0.32-0.42 0.8-1.2 0.2-0.5 0.03 0.03 4.75-5.5 1.1-1.75 0.8-1.2
JIS G4404 SKD61 0.35-0.42 0.8-1.2 0.25-0.5 0.03 0.03 4.8-5.5 1-1.5 0.8-1.15

AISI H13 Tool Steel Physical Property

Temperature 20°C 400°C 1110°C
Density,g/cm3 7.8 7.7 7.6
Modulus of elasticity,N/mm2 210000 180000 140000
Coefficient of thermal expansion,per °C from 20°C 12.6 x 10^–6 13.2 x 10^–6
Thermal conductivity,W/m °C 25 29 30
Melting point 1427°C
Specific Gravity 7.75
Machinability 65-70% of a 1% carbon steel

AISI H13 Tool Steel Mechanical Property

Tempering Tem. ℃ After quenched 200 400 500 520 550 580 600 650 700
Hardness HRC 56 54 54 55.5 54 52.5 49 45.5 33 28
Tensile Strength Mpa 2040 2100 2080 1980 1780 1650 1180
Reduction of area 40 34 40 48 53 54 55
Elongation % 11 11 11.5 12 12.5 14 18
Impact J 40 32 35 50 60 70 100

AISI H13 Tool Steel Forging

Heat AISI H13 with two steps,first heat the temperature to 750 oC – 800 oC ,hold for suitable time,then heat the temperature up to 1050 oC – 1100 oC,hold enough time for the steel to be thoroughly heated.Reheat is necessary when temperature below 950oC.H13 steel should be cooled as slowly as possible in the furnace.Annealing is always required after forged.

AISI H13 Tool Steel Annealing

Annealing  is considered as a treatment  suitable for machining.Heat the temperature to 840℃-860℃,hold suitable time for the steel to be thoroughly heated, then furnace cooling.Annealed black surface, hardness≤255HB.

AISI H13 Tool Steel Stress Relieving

It is recommended to stress relieve after machining and prior to hardening to minimise the possibility of distortion.H13 should be heated through to 600-650°C, holding time 2 hours. Cool slowly in furnace.

AISI H13 Tool Steel Hardening

Pre-heating temperature: 600–850°C,normally in two pre-heating steps.
Austenitizing temperature: 1020–1050°C,normally 1020–1030°C

Temperature,°C Soaking Time,Minutes Hardness before tempering
1025 30 53±2 HRC
1050 15 54±2 HRC

Soaking time = time at hardening temperature after the tool is fully heated through.

AISI H13 Tool Steel Tempering

Tempering should be carried out immediately after quenching. Heat slowly and uniformly to the tempering temperature,soak well not less than 2 hours(one hour per 25mm of total thickness).The usual tempering range is 530-650°C depending on the hardness requirements and the operating temperature of the tool.Double tempering is strongly recommended,H13  H13 should be cooled to room temperature between tempers.Tempering within the range 425-550°C is not recommended due to the reduction in toughness properties.

Temperature ,°C 400 500 550 600 650
Hardness,HRC 54 56 54 49 47

AISI H13 Tool Steel Application

H13 hot work tool steel has excellent properties which is widely used in hot work and cold work applications.

Typical applications include die casting dies for aluminium, magnesium and zinc, extrusion dies for aluminium and brass, liners, mandrels, pressure pads, followers, bolsters, die cases, die holders and adaptor rings for copper and brass extrusion. H13 is used to produce hot stamping and press forge dies, split hot heading dies, gripper dies, hot punching, piercing and trimming tools. Other applications include plastic moulds, shear blades for hot work and hot swaging dies.

FAQ ABOUT H13 STEEL

WHAT IS H13 STEEL?

H13 steel is a type of high tensile strength low alloy structural steel. H13 steels are designed to be an economical, lower-strength alternative to H11 and H22 grades in most applications. The ASTM International specification for H13 grade is A572/A572M-10. H13 steel has a minimum yield strength of 55,000 psi and no requirement for zinc coating. H13 steels are typically produced in hot-rolled or cold-finished conditions depending on the application requirements. H11 is an upgrade from H14 grades with improved mechanical properties at higher strengths but similar weldability to H14 grades.

WHAT ARE SOME COMMON USES FOR H13 STEEL?

H13 steel can be used where high strength levels are required after moderate forming operations have been completed while avoiding significant additional costs which would result if more expensive alloying elements were added. This means that it’s very useful in automotive applications, gears, couplings/coupling shafts along with other components involved within automobiles across numerous industries including aerospace & defense, heavy engineering and agricultural equipment. H13 steel is also used in the manufacture of railway track components such as switches, crossings and points.

WHAT ARE THE BENEFITS OF H13 STEEL?

H13 steels offer good toughness combined with excellent weldability and formability making it a popular choice for many fabricators. It can be easily machined to close tolerances and has good resistance to wear, tear and fatigue making it an ideal material for use in high-stress environments. The combination of strength and toughness make H13 steel suitable for both static applications (where loads do not change) and dynamic applications (where loads fluctuate).

ARE THERE ANY DRAWBACKS TO USING H13 STEEL?

One potential drawback may be its susceptibility to hydrogen embrittlement. H13 steel is susceptible to cracking in the heat affected zone due to the alloy’s low chromium content and therefore, may have difficulties with some welding processes including submerged arc welding (SAW) or gas metal arc welding(GMAW). H13 steels are also only available up to a maximum thickness of 12mm since its strength becomes a limiting factor beyond this point. Another potential drawback could be that H13 steel grades do not include percentage carbon ranges which would enable end users/welders to determine if their applications require H11 or H22 grade alloys instead of H13.

IS H13 CORROSION RESISTANT?

H13 is not corrosion resistant and therefore, may require a coating if used in an environment where it will be exposed to corrosive elements.

WHAT ARE THE H13 EQUIVALENT GRADES?

The closest H13 equivalent grade would be H11 or H22 alloys which have similar chemical compositions but offer better mechanical properties. If higher strength levels are required, then H14 or H19 grades should be considered.

WHAT IS THE DIFFERENCE BETWEEN H13 AND OTHER STEEL GRADES?

The main difference between H13 and other steel grades is its lower chromium content which makes it more susceptible to cracking when welding. It also has excellent toughness and weldability making it a popular choice for many fabricators. Other steel grades such as H11, H14 and H19 offer higher strength levels but may not be as tough or weldable.

WHAT IS THE YIELD STRENGTH OF H13 STEEL?

The minimum yield strength for H13 steel is 55,000 psi.

IS H13 GRADE AVAILABLE IN STAINLESS STEEL?

No, H13 grade is only available in carbon steel alloys. If a stainless steel alloy is required, then 304 or 316 grades should be considered.

WHERE CAN I GET MORE INFORMATION ON H13 STEEL?

For more information on ASTM International standards H13 steel grades, H11 grade or H22 grade steels you can visit the ASTM International website. For more information on H13 steel properties, its heat treatment and characteristics of H13 steels in general please contact us directly.

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