Press hardening steels (PHS) for complex shapes

Press hardening steels have four major advantages: they can be formed into very complex shapes, their ultimate tensile strength ranges up to 2000 MPa (290 ksi), there is little or no springback, and, with tailored tempering, you can combine “full hard zones” and “soft zones” for multi-function crash performance within a single part.

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Press hardening steel basics

Press hardening steel has several names that refer to how it is used, including hot stamped, hot press forming (HPF), and hot formed (HF). PHS also has names based on its chemical composition, including hot-stamped boron, carbon-manganese-boron, and 22MnB5 boron.

The ultimate mechanical properties for PHS steels are set by the stamper, not the steel mill. Hot-stamped steels, “as delivered” by the steel mills, have a ferritic-pearlitic microstructure and when heated to 900°C by the fabricator, the steel converts to an austenitic microstructure. During the subsequent quenching process, the rate of cooling determines how much of the formed part is converted to the “full hard” (FH) martensitic microstructure.

PHS steels’ very high strengths allow for thin wall designs (“downgauging”) and therefore significant lightweighting of automotive crash components. Press hardening also enables UHSS steel to be formed into complex shapes.

Press hardened steel properties

  • The greatest potential for vehicle lightweighting via the strongest strengths: up to 1380 MPa yield strength (Rp0.2) and 2040 MPa tensile strength (Rm).
  • Maximize design flexibility and parts consolidation, with complex shapes readily formed at 900°C.
  • A single PHS part can have multi-strength performance (e.g., energy transfer and energy absorption) via processes such as tailored tempering, tailored welded blanks (TWBs), and tailored rolled blanks (TRB).
  • Excellent final shape accuracy, with little or no springback.

Automotive applications for hot formed steels

Docol PHS steel grades are for components with shapes that are too complex to be cold formed.

  • EV battery protection
  • A- and B-pillars 
  • Sill (rocker) reinforcements
  • Cross members, including roof and dashboard panels
  • Front and rear bumper beams
  • Door reinforcements
  • Windshield pillar reinforcements
Press hardening steel (PHS) for automotive applications

Grades and mechanical properties for Docol PHS steels

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    Product Family Product name Coating Dimensions Standards Datasheet
    Docol PHS 1500 Docol PHS FH 1500 UC T: 0.70 - 3.00 mm
    W: Up to 1500 mm
    T: 0.028 - 0.118 in
    W: Up to 59.06 in
    SSAB

    Docol PHS 1500

    Docol PHS CR 1500 Annealed UC T: 0.70 - 3.00 mm
    W: Up to 1500 mm
    T: 0.028 - 0.118 in
    W: Up to 59.06 in
    SSAB

    Docol PHS 1500

    Docol PHS HR 1500 UC T: 2.00 - 12.00 mm
    W: Up to 1600 mm
    T: 0.0787 - 0.4724 in
    W: Up to 62.99 in
    SSAB

    Docol PHS 1500

    Docol PHS HR 1500+A UC T: 2.00 - 12.00 mm
    W: Up to 1600 mm
    T: 0.0787 - 0.4724 in
    W: Up to 62.99 in
    SSAB

    Docol PHS 1500

    Docol PHS 1800 Docol PHS FH 1800 UC T: 0.70 - 3.00 mm
    W: Up to 1500 mm
    T: 0.028 - 0.118 in
    W: Up to 59.06 in
    SSAB

    Docol PHS 1800

    Docol PHS CR 1800 Annealed UC T: 0.70 - 3.00 mm
    W: Up to 1500 mm
    T: 0.028 - 0.118 in
    W: Up to 59.06 in
    SSAB

    Docol PHS 1800

    Docol PHS 2000 Docol PHS FH 2000 UC T: 1.00 - 2.10 mm
    W: Up to 1515 mm
    T: 0.0394 - 0.0827 in
    W: Up to 59.65 in
    SSAB

    Docol PHS 2000

    Docol PHS CR 2000 Annealed UC T: 1.00 - 2.10 mm
    W: Up to 1515 mm
    T: 0.0394 - 0.0827 in
    W: Up to 59.65 in
    SSAB

    Docol PHS 2000

    Docol PHS HR 2000 UC T: 2.00 - 4.00 mm
    W: Up to 1600 mm
    T: 0.0787 - 0.157 in
    W: Up to 62.99 in
    SSAB

    Docol PHS 2000

    Docol PHS HR 2000+A UC T: 2.00 - 4.00 mm
    W: Up to 1600 mm
    T: 0.0787 - 0.157 in
    W: Up to 62.99 in
    SSAB

    Docol PHS 2000

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      Forming Docol hot-stamped steels

      • In direct hot stamping the steel blank is heated to 900°C, formed while hot and then rapidly quenched in the die to achieve its final strength.
      • For the indirect hot stamping process, the steel blank is formed, trimmed, and punched while cold, then later heated and quickly quenched to achieve its strength.
      • PHS steels’ very high strengths allow for thin wall designs and therefore significant lightweighting of automotive crash components. Press hardening also enables UHSS steel to be formed into complex shapes. Springback is minimal or eliminated, so final parts have excellent dimensional accuracy.
      • Docol® PHS steels have good weldability and can be joined to dissimilar materials; contact Docol technical support regarding joining considerations for our hot-stamped steels.
      B-pillar in press hardening steel (PHS)

      Additional benefits from Docol hot formed steel

      • Excellent fatigue properties.
      • Three high-strength grades: 1500 MPa, 1800 MPa and 2000 MPa.
      • Grades are available to meet OEM-specific standards and certifications.
      • Global support and availability.

      Are you looking for OEM-specific PHS grades?

      Docol® PHS steel grades are be supplied to VDA or OEM standards. The new VDA hot-stamped steel standard is CR1900T-MB-DS, which corresponds to Docol® PHS 2000. If you don’t see a specific grade listed here, please contact our technical support — we often develop innovative UHSS steels, customized for a specific automotive application.

      The benefits of Docol® PHS steel for each team member

      Safety engineers: Unmatched design flexibility in both stamped part complexity and multi-strength capabilities (e.g., energy transfer and energy absorption) in a single part.

      Lightweighting engineers: The strongest available automotive steels, PHS grades let you “downgage,” allowing for significant weight reductions.

      Production engineers: Pick from a wide variety of PHS production processes, including direct, indirect, hybrid, pre-cooled direct, multi-step, roll form PHS, form fixture hardening, and form blow hardening/hot gas metal forming.

      Buyers: Replace costly aluminum with compact, gigapascal strength PHS.

      Sustainability officers: Improve your life cycle assessment with our low-embedded-CO2 UHSS steels — equivalent to recycled steel today, and becoming fossil-free in 2026.

      Lower your embedded CO2

      Docol PHS steel is “future proofed.”

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      Get PHS samples — fast

      An industry exclusive: SSAB ships coils, sheets and custom lengths of any size, typically in 1 to 2 weeks. Get AHSS/UHSS samples for both our commercially available grades, as well as our newest steels still in development.

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      What is press hardening steel?

      Press hardening steel “as delivered” has a ferritic-pearlitic microstructure. When heated to 900°C by the parts manufacturer, PHS converts to an austenitic microstructure. Subsequent quenching (cooling) determines how much of PHS is converted to a “full hard” (FH) martensitic microstructure.

       

      Why use press hardening steel?

      Press hardening steel has UTS of up to 2000 MPa, no springback, and can be formed into very complex shapes: all useful for lightweighting of parts. Tailored tempering enables multi-strength crash performance – e.g., energy transfer and absorption in one part.

       

      What are the processes for hot stamping steel?

      • Direct hot stamping: the steel blank is heated to 900°C, formed while hot, then rapidly quenched in the die to achieve its final strength.
      • Indirect hot stamping: the blank is formed, trimmed, and punched while cold, then heated and quenched. 

      Where is hot formed steel used?

      Hot formed steel grades are appropriate for high-strength components too complex in shape to be cold formed.

      • EV battery enclosures
      • Cross members, including roof and dashboard panels
      • Front and rear bumper beams
      • A- and B-pillars 
       

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