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ASTM A681 H10 DIN 1.2365 Tool Steel Round Bar

DIN 1.2365 H10 Hot Work Tool Steel Round Bar is a chromium-molybdenum-vanadium hot work tool steel supplied as round bar for hot punches, forging dies, extrusion tooling, hot shear blades, die inserts and high-temperature tooling components. It is also referenced as AISI H10, UNS T20810, 32CrMoV12-28 and SKD7, depending on the applicable standard and market.

SAKY STEEL supplies H10 / 1.2365 round bar in annealed or heat-treated condition according to order requirements. Available processing may include cutting, peeling, turning, grinding, rough machining, dimensional inspection, hardness testing, UT when specified, MTC and EN 10204 3.1 documentation.

Material Selection Note: H10 tool steel is selected for hot work tooling where resistance to thermal fatigue, softening at elevated temperature and repeated heating-cooling cycles is important. Final performance depends on bar size, heat treatment, working temperature, cooling method, surface condition, die design and actual service load.

Product Parameters

Item Product Details
Product Name DIN 1.2365 H10 Hot Work Tool Steel Round Bar
Grade H10 / 1.2365 / SKD7
UNS / EN Designation UNS T20810 / 32CrMoV12-28
Material Family Hot work tool steel
Product Shape Round bar and forged round bar
Size Range Regular and custom diameters by order
Length 1000–6000 mm or cut to length
Surface Finish Black, peeled, turned or ground
Delivery Condition Annealed or heat treated when specified
Standard ASTM A681 / DIN EN ISO 4957
Tolerance Mill, h9, h11 or drawing-specific
Available Services Cutting, peeling, turning, grinding, machining
Certificates MTC, EN 10204 3.1, dimensional report

Chemical Composition

H10 / 1.2365 is alloyed with chromium, molybdenum and vanadium to support hot strength, hardenability, temper resistance and thermal fatigue performance. The following values are typical reference ranges; exact limits may vary by ASTM, DIN, JIS or customer specification.

Element Typical Reference Content Technical Function
Carbon About 0.28–0.45% Provides hardenability and working hardness
Silicon About 0.10–1.25% Supports oxidation resistance and deoxidation
Manganese About 0.15–0.70% Supports hardenability and melting control
Chromium About 2.70–3.75% Improves hot strength, oxidation resistance and hardenability
Molybdenum About 2.00–3.00% Improves temper resistance and hot strength
Vanadium About 0.25–0.75% Refines grain and supports wear resistance
Phosphorus Controlled maximum Restricted to support toughness
Sulfur Controlled maximum Restricted to limit inclusions
Iron Balance Base metal matrix

Actual chemical composition shall be confirmed by the applicable product specification and MTC.

Mechanical and High-Temperature Properties

Mechanical properties of H10 round bar depend on diameter, heat treatment, tempering temperature, test position and working hardness. The following values are typical references for engineering discussion and shall not replace order-specific MTC values.

Property Typical Reference Condition Engineering Meaning
Annealed Hardness Usually below about 229 HB Annealed Supports machining before hardening
Working Hardness About 50–52 HRC reference Hardened and tempered Common for hot work tooling
Hardening Temperature About 1010–1050°C Reference heat treatment Subject to section size and furnace control
Tempering Range About 450–600°C reference After hardening Adjusts hardness and toughness balance
Thermal Conductivity About 36 W/m·K reference Room temperature reference Helps manage thermal shock in tooling
Thermal Expansion About 12.4 × 10⁻⁶/K reference Temperature dependent Useful for hot die dimensional design
Density About 7.8 g/cm³ Room temperature Used for bar weight calculation
High-Temperature Use Application dependent Hot work service Affected by load, time, cooling and thermal cycling

Common Size Table

Diameter Length Surface Processing Typical Use
Ø10–30 mm 1000–6000 mm Peeled or ground Cutting and grinding Pins, hot punches, small tools
Ø35–80 mm 2000–6000 mm Peeled or turned Machining allowance Mandrels and tooling shafts
Ø85–160 mm Custom cut length Rough turned Saw cut or machined Forging die components
Ø165–300 mm Made to order Forged and turned UT when specified Large hot work tooling
Above Ø300 mm Project specific Forged or machined Technical review required Heavy die blocks and inserts

Different Specifications Comparison

Round Bar Surface and Production Comparison

Condition Main Feature Recommended Use Purchase Advice
Hot Rolled Bar Economical mill surface Rough machining Specify machining allowance
Forged Bar Suitable for larger sections Heavy hot work tools UT may be requested
Peeled Bar Scale-free surface CNC machining Reduces surface preparation
Turned Bar Controlled diameter allowance Tooling blanks Confirm finished size
Ground Bar Tight tolerance and smooth finish Precision tooling State h9, h8 or drawing tolerance

Comparison with Related Hot Work Tool Steels

Grade Main Strength Relative Limitation Typical Selection
H10 / 1.2365 Thermal fatigue and hot strength balance Less common than H13 Hot punches, mandrels, forging dies
H11 / 1.2343 Good toughness and heat checking resistance Lower wear resistance than some alternatives Die casting and hot work tools
H13 / 1.2344 Widely used hot work steel Different alloy balance and heat treatment General die casting and extrusion tooling
H21 / 1.2581 Higher tungsten hot hardness Higher cost and different machinability Special high-temperature hot work tools

Equivalent Standards and International Names

System Designation Relationship
AISI / ASTM H10 Common hot work tool steel grade
UNS T20810 UNS designation for H10 type steel
DIN / W.Nr. 1.2365 Common German material number
EN Name 32CrMoV12-28 Common European chemical designation
JIS SKD7 Common Japanese cross-reference
Product Standard ASTM A681 / DIN EN ISO 4957 Tool steel specification references
Equivalent Grade Note: H10, 1.2365, UNS T20810 and SKD7 are commonly used cross-references, but they are not automatic substitutes in every order. Chemistry limits, heat-treatment requirements, testing methods and acceptance criteria must be confirmed against the governing specification.

Production Process Flow

1. Raw Material Alloying materials are selected according to the required H10 chemistry.
2. Melting Chemistry, cleanliness and residual elements are controlled during melting.
3. Casting or Remelting Ingot or billet quality is prepared for hot working.
4. Forging or Rolling The material is reduced into round bar or forged bar form.
5. Annealing Annealing improves machinability before final tool manufacturing.
6. Surface Finishing Bars may be peeled, turned, ground or cut to size.
7. Inspection Dimensions, surface, hardness and documentation are checked.
8. Packaging Heat-number marking and export packing are prepared.

Product Inspection

Inspection Method Purpose
Chemical Analysis Laboratory analysis or MTC review Confirm H10 / 1.2365 chemistry
PMI Positive material identification Available when specified; not a substitute for full chemistry
Hardness Test HB or HRC test as applicable Confirm annealed or heat-treated condition
Dimensional Inspection Caliper, micrometer and length check Verify diameter, length and tolerance
Surface Inspection Visual and finish inspection Check cracks, scale, laps or handling damage
Ultrasonic Testing UT when specified Evaluate internal soundness in suitable sizes
Traceability Review Heat number and label verification Link product to MTC and EN 10204 3.1
Third-Party Inspection SGS, BV, TÜV or nominated inspector Can be arranged when specified

Product Packaging

Surface Protection Bars can be protected with oil, VCI paper, film or waterproof wrapping.
Bundle Protection Steel straps, separators and padding reduce movement and scratching.
End Protection Ground or machined bars can receive end caps or padded protection.
Wooden Case or Pallet Export packing is selected according to bar diameter, length and weight.
Product Marking Grade, size, heat number and customer shipping marks can be retained.

Applications, Core Performance and Fabrication

Primary Applications

  • Hot forging dies and die inserts
  • Hot punches, mandrels and punch holders
  • Extrusion tooling and dummy blocks
  • Hot shear blades and gripper dies
  • Header dies and hot forming tools
  • Aluminum and non-ferrous die casting tooling, when suitable

High-Temperature Performance

H10 is valued for resistance to softening, thermal fatigue and repeated thermal shock in hot work tooling. Service life depends on heat-treatment quality, die design, preheating practice, lubrication, cooling method and the severity of thermal cycling.

Machinability

Machinability is generally good in the annealed condition. Major turning, drilling, milling and rough machining should normally be completed before hardening and tempering. Ground bars are recommended when tight diameter tolerance or improved surface finish is required.

Heat Treatment

H10 is normally annealed before machining and then hardened and tempered to the required working hardness. Hardening, quenching and tempering parameters should be selected according to section size, furnace control, die geometry and target hardness. Excessive decarburization should be avoided during heat treatment.

Welding and Repair

Repair welding may be possible with a qualified procedure, suitable filler metal, preheating and post-weld heat treatment. For critical dies, welding approval should be based on tool design, working temperature, hardness requirement and crack-risk evaluation.

Application Limitation: H10 is a hot work tool steel, not a corrosion-resistant stainless steel. Protective oil, dry storage or coating may be required to prevent rust during storage, machining and shipment.

Why Choose SAKY STEEL?

Custom Round Bar Support Diameter, length, surface and machining allowance can be supplied according to drawings.
Heat Number Traceability Material identification can be maintained from documentation to final packing.
MTC Support MTC (Mill Test Certificate / 质保书) can be provided according to the purchase order.
EN 10204 3.1 Certificate EN 10204 3.1 documentation is available when specified by the order.
Applicable Inspection Services Hardness, dimensional, PMI and UT inspection can be arranged when specified.
Export Packaging Bundles, wooden cases, pallets and customer shipping marks can be arranged.

FAQ

What is DIN 1.2365 H10 tool steel?

DIN 1.2365, also known as H10 or UNS T20810, is a chromium-molybdenum-vanadium hot work tool steel. It is used for tooling exposed to high temperature, impact and repeated thermal cycling.

What standard applies to H10 round bar?

ASTM A681 is commonly referenced for H10 tool steel, while DIN EN ISO 4957 is commonly used for 1.2365 / 32CrMoV12-28. The final order should specify the required standard and revision.

What hardness can H10 tool steel achieve?

Annealed H10 is usually supplied below about 229 HB for machinability. After suitable hardening and tempering, working hardness is often selected around 50–52 HRC, subject to application and heat treatment.

Can H10 round bar be supplied ground or peeled?

Yes. Black, peeled, turned and ground surfaces can be discussed according to diameter, tolerance and final machining requirement. Ground bars are suitable for tighter diameter control.

Is H10 suitable for hot forging dies?

H10 is commonly used for hot forging dies, mandrels, hot punches and related tooling. Suitability depends on die design, working temperature, cooling practice, hardness and expected service load.

Is ultrasonic testing available for H10 bars?

UT can be arranged for suitable bar diameters and forged bars when specified. The purchase order should define the test method, acceptance level and report requirement.

Can MTC and EN 10204 3.1 be provided?

SAKY STEEL can provide MTC and EN 10204 3.1 documentation according to the order. Hardness, dimensional, PMI or UT reports may also be arranged when specified.


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