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DIN 1.2738 P20+Ni Pre-Hardened Plastic Mold Steel Plate

DIN 1.2738 P20+Ni Plastic Mold Steel Plate is a nickel-alloyed, pre-hardened Cr-Mn-Mo tool steel commonly identified as 40CrMnNiMo8-6-4. It is supplied as plate, block and rectangular mold blank with good through-hardness uniformity, machinability, toughness and polishing performance for large plastic injection molds, blow molds and extrusion tooling.

SAKY STEEL supplies 1.2738 mold steel plate in pre-hardened condition with black, milled, machined, ground or polished surfaces. Thickness, width, length, machining allowance, flatness, cutting and rough machining can be discussed according to customer drawings. MTC, EN 10204 3.1, dimensional reports, hardness testing and ultrasonic testing are available when specified.

Material Selection Note: 1.2738 is generally selected for large or thick plastic molds where uniform hardness through the section is more important than maximum wear resistance. Mold size, cavity depth, required polish, plastic type, filler content, production volume and any nitriding or surface-treatment plan should be considered before selection.

Product Parameters

Item Product Details
Product Name DIN 1.2738 P20+Ni Plastic Mold Steel Plate
Grade 1.2738 / P20+Ni
EN Designation 40CrMnNiMo8-6-4
Material Family Pre-hardened plastic mold tool steel
Product Shape Plate, rectangular block and mold blank
Regular Production Size Approximately 20–300 mm thickness
Made-to-Order Size Thicker forged blocks subject to technical review
Width and Length Custom plate size or saw-cut mold blank
Surface Finish Black, milled, machined, ground or polished
Delivery Condition Pre-hardened and tempered
Typical Hardness Approximately 290–330 HB
Standard DIN EN ISO 4957 or agreed specification
Tolerance Mill, machined or drawing-specific tolerance
Available Services Saw cutting, milling, grinding and rough machining
Certificates MTC, EN 10204 3.1 and inspection reports

Chemical Composition

DIN 1.2738 is based on a chromium-manganese-molybdenum mold steel composition with approximately 1% nickel. Nickel improves through-hardening response and helps maintain more uniform mechanical properties in large mold sections.

Element Typical Reference Content Technical Function
Carbon Approximately 0.35–0.45% Provides strength and hardness response
Silicon Approximately 0.20–0.40% Supports deoxidation and matrix strength
Manganese Approximately 1.20–1.60% Improves hardenability and strength
Chromium Approximately 1.80–2.10% Supports hardenability, wear resistance and tempering response
Molybdenum Approximately 0.15–0.25% Improves hardenability and temper resistance
Nickel Approximately 0.90–1.20% Improves toughness and through-hardness uniformity
Phosphorus Controlled maximum Restricted to support toughness and polishability
Sulfur Controlled maximum Restricted where high polishing quality is required
Iron Balance Base metal matrix

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

Mechanical and Key Technical Properties

The principal benefit of 1.2738 plate is that it is supplied pre-hardened, allowing the mold maker to machine the plate without a final through-hardening cycle in many applications. This reduces heat-treatment distortion risk and shortens mold-manufacturing time.

Property Typical Reference Condition Engineering Significance
Hardness Approximately 290–330 HB Pre-hardened Suitable for direct mold machining
Tensile Strength Approximately 950–1100 MPa Typical at room temperature Supports large mold structures
Yield Strength Approximately 800–950 MPa Typical at room temperature Helps resist mold deformation
Toughness Good for pre-hardened mold steel Section dependent Supports large cavities and complex geometry
Machinability Good Pre-hardened condition Allows direct rough and finish machining
Polishability Good to very good Clean steel and proper machining required Suitable for many visible plastic parts
Photo-Etching Response Generally suitable Surface preparation dependent Supports textured plastic mold surfaces
Density Approximately 7.85 g/cm³ Room temperature Used for plate-weight calculations
Property Note: Mechanical values vary with plate thickness, hardness position, test orientation and steelmaking route. Guaranteed properties must be confirmed by the governing specification and MTC.

Common Size Table

Thickness Width Length Surface Typical Processing
20–50 mm Up to about 2000 mm Custom cut length Black or milled Mold inserts and support plates
55–100 mm Custom width Custom cut length Milled or ground Injection mold plates
105–160 mm Custom width Saw-cut blank Machined Large mold cavities and cores
165–250 mm Made to order Project specific Rough machined Automotive and appliance molds
Above 250 mm Forged block size Made to order Forged and machined Very large mold blocks

Different Specifications Comparison

Plate Surface and Processing Comparison

Condition Main Feature Recommended Use Purchase Advice
Black Plate Mill surface with machining allowance Heavy rough machining Specify minimum finished size
Saw-Cut Block Custom rectangular blank CNC mold production State saw-cut tolerance and allowance
Milled Plate Improved dimensional consistency Mold bases and cavity blocks Specify six-side or two-side milling
Ground Plate Tight thickness and flatness control Precision mold components State flatness, parallelism and roughness
Polished Surface Prepared for optical or decorative mold surfaces Visible plastic components Confirm required polish class

Comparison with Related Plastic Mold Steels

Grade Main Strength Relative Limitation Typical Selection
1.2311 / P20 Good machinability and common availability Less through-hardness uniformity in very thick blocks Medium-size plastic molds
1.2738 / P20+Ni Better hardenability and large-section uniformity Moderate wear and corrosion resistance Large injection and blow molds
1.2312 Improved machinability through sulfur addition Lower polishability and transverse toughness Machined mold bases and holders
1.2316 Higher corrosion resistance Different machining and heat-treatment behavior Corrosive plastics and humid mold service

Equivalent Standards and International Names

System Designation Relationship
European Material Number 1.2738 Primary material number
EN Designation 40CrMnNiMo8-6-4 European chemical designation
Commercial Name P20+Ni / P20 Nickel Common commercial reference
French Reference 35CND7 Common cross-reference
Commercial Brand Reference Impax Supreme / 718 type Commercial family reference only
Product Standard DIN EN ISO 4957 Tool-steel designation reference
Equivalent Grade Note: P20+Ni is a commercial description rather than a single universal AISI grade. Similar commercial mold steels may differ in sulfur level, cleanliness, hardness range, polishing performance and ultrasonic quality. Substitution should be approved against the purchase specification.

Production Process Flow

1. Raw Material Steelmaking materials are selected according to the required 1.2738 chemistry.
2. Melting Chemistry, cleanliness and gas content are controlled during melting.
3. Casting Ingots or continuous-cast billets are produced for further reduction.
4. Forging or Rolling The material is reduced into plate or large mold-block form.
5. Pre-Hardening Quenching and tempering develop the specified delivery hardness.
6. Surface Finishing Scale removal, milling, grinding or rough machining is completed.
7. Inspection Hardness, dimensions, surface and internal soundness are checked.
8. Marking and Packing Heat-number traceability is maintained through shipment preparation.

Product Inspection

Inspection Method Purpose
Chemical Analysis Laboratory spectrometric analysis Confirm 1.2738 alloy composition
Hardness Testing Brinell or equivalent method Verify pre-hardened delivery condition
Dimensional Inspection Thickness, width and length measurement Confirm ordered plate size and tolerance
Flatness and Parallelism Straightedge, gauge or precision equipment Verify suitability for mold machining
Surface Inspection Visual and finish examination Identify scale, laps, cracks or handling damage
Ultrasonic Testing UT to the agreed acceptance level Evaluate internal soundness when specified
Roughness Testing Surface roughness measurement Available for ground or machined surfaces
Traceability Review Heat number and document verification Link the plate to MTC and EN 10204 3.1
Third-Party Inspection SGS, BV, TÜV or nominated inspector Available when specified

Product Packaging

Surface Protection Machined plates can be coated with protective oil and moisture-resistant film.
Scratch Protection Paper, foam and separators reduce contact damage between plates.
Edge Protection Ground or milled edges can receive corner guards and padded protection.
Pallet or Wooden Case Export pallets, skids or wooden cases are selected according to size and weight.
Traceable Marking Grade, heat number, size and customer-specified shipping marks are retained.

Applications, Performance and Fabrication

Primary Applications

  • Large plastic injection molds
  • Automotive bumper, dashboard and trim molds
  • Household appliance housing molds
  • Blow molds for large plastic containers
  • Plastic extrusion dies and tooling
  • Mold cores, cavities and backing blocks
  • Compression molds for non-abrasive plastics
  • Large mold bases requiring improved through-hardness uniformity

Machinability

Machinability is good for a pre-hardened tool steel, allowing cavity milling, drilling, boring and tapping without first soft annealing the entire block. Rigid machines, carbide tooling, stable feeds and effective chip removal are recommended for thick mold blocks.

Polishing and Photo-Etching

1.2738 can provide good polished and textured surfaces when the steel has suitable cleanliness and the machining sequence avoids decarburized or damaged layers. The required polish level should be stated before ordering, particularly for visible automotive or appliance parts.

Welding

Repair welding and engineering modifications are possible with a qualified procedure. Preheating, compatible filler metal, controlled interpass temperature and slow cooling are normally required to reduce cracking and hardness variation around the repaired area.

Nitriding and Surface Hardening

Nitriding may be used to increase local surface hardness and wear resistance while retaining the tough pre-hardened core. Flame or induction hardening may also be considered for localized surfaces, but the process must be evaluated against mold geometry and distortion risk.

Application Limitations

1.2738 is not a stainless mold steel and does not provide strong resistance to corrosive plastics, aggressive cooling water or continuously humid storage. Highly abrasive, glass-filled plastics may also require a higher-wear tool steel or a suitable surface treatment.

Fabrication Note: Deep cavity machining, heavy stock removal and welding can release residual stress or alter local hardness. Balanced machining, intermediate stress relieving and final dimensional verification should be considered for large precision molds.

Why Choose SAKY STEEL?

Custom Plate and Block Sizes Thickness, width, length and machining allowance can be supplied according to drawings.
Machining Support Saw cutting, milling, grinding and rough cavity machining can be discussed.
Heat Number Traceability Material identification can be maintained from mill documentation through packing.
MTC and EN 10204 3.1 MTC and EN 10204 3.1 documentation can be provided according to the order.
Applicable Inspection Services Hardness, dimensional, roughness and UT inspection can be arranged when specified.
Export Packaging Protected pallets, skids, wooden cases and customized shipping marks are available.

FAQ

What is DIN 1.2738 mold steel?

DIN 1.2738 is a nickel-alloyed pre-hardened plastic mold steel commonly called P20+Ni. It is designed for good machinability, toughness and more uniform hardness in large mold sections.

What hardness is 1.2738 normally supplied at?

A common supply range is approximately 290–330 HB. The actual hardness range, measurement positions and permitted variation should be defined by the order specification and confirmed by the MTC.

What is the difference between 1.2738 and P20?

1.2738 is commonly described as P20+Ni because it contains additional nickel compared with basic P20-type steel. The nickel improves hardenability and makes it more suitable for thick mold blocks requiring better hardness uniformity.

Can 1.2738 be polished for visible plastic parts?

Yes, properly produced and processed 1.2738 can provide good polishing and photo-etching results. The inquiry should state the required polish or texture level so that suitable steel quality and surface preparation can be selected.

Can 1.2738 plate be nitrided?

Nitriding can be applied to improve local surface hardness and wear resistance. The nitriding temperature and process must be selected to avoid unwanted softening or dimensional changes in the pre-hardened base material.

Is ultrasonic testing available for thick mold blocks?

Yes. UT can be arranged for thick plates and forged mold blocks when specified. The purchase order should state the test standard, acceptance level, scanning coverage and report requirements.

Can SAKY STEEL provide custom-machined mold blanks?

Saw-cut, milled, ground and rough-machined blanks can be discussed according to the drawing. Final dimensions, machining allowance, flatness, parallelism and surface requirements should be included in the inquiry.

Can MTC and EN 10204 3.1 be provided?

MTC, heat-number traceability and EN 10204 3.1 documentation can be provided according to the purchase order. Additional hardness, dimensional, roughness or UT reports may also be arranged.


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