9Cr18Mo Stainless Steel |102Cr17Mo | 440C | SUS440C Supplier In China

For Blades, Bearings & Precision Parts | MOQ 5 Tons | Bulk Supply

9Cr18Mo and 102Cr17Mo are the same type of steel. 9Cr18Mo is the old designation used in the Chinese national standard GB/T 1220-1992. 102Cr17Mo is the new designation adopted in the revised Chinese national standards GB/T 1220-2007 and GB/T 20878-2007.

9Cr18Mo(102Cr17Mo) is a high-carbon, high-chromium martensitic stainless steel, developed from the 95Cr18 (9Cr18) grade through the addition of molybdenum (Mo). Consequently, it exhibits superior hardness, wear resistance, high-temperature strength, tempering resistance, and corrosion resistance compared to 95Cr18 (9Cr18) steel. This steel also possesses good high-temperature dimensional stability, making it suitable for manufacturing plastic molds, bearings, surgical instruments, and measuring tools that operate under high loads, high wear, and corrosive conditions. As a ledeburitic steel, it is prone to non-uniform carbide segregation, which can adversely affect the service life of components. Therefore, it is imperative to control the processing parameters and select an appropriate processing ratio during hot working.

9Cr18Mo Steel Supply Overview

GradeGB 9Cr18Mo / 440C / SUS440C
Delivery ConditionFully Annealed (Soft Condition for Machining)
Available FormsRound Bar / Flat Bar / Plate / Forged Block
Monthly Production CapacityApprox. 1000 metric tons
Recommended Export QuantityFull 20GP container (~26 tons)
MOQ5 tons
Lead Time (With Ingot Stock)Approx. 20 days
Lead Time (Fresh Melt)30–45 days
Lead Time (ESR Grade)Approx. 60 days
InspectionIn-house UT team + Third-party inspection available
DocumentationMTC (EN 10204 3.1) + UT Report

Why Global Distributors Source 9Cr18Mo from Aobo Steel

  • Continuous monthly supply of around 1000 tons
  • MOQ from 5 tons for wholesale orders
  • Container-optimized bar and plate lengths
  • Mixed sizes are supported for export loading
  • Annealed delivery for downstream machining
  • Stable sourcing through integrated supply chain partners
  • UT inspection available to SEP 1921-82 D/d or E/e
  • MTC and batch traceability with each shipment
  • Heat number tracking for order control
  • Black, turned, and polished surface options
  • Bulk export packing for sea shipment
  • Clear conversion path to the dedicated bulk supply page

Stable Production for Long-Term Bulk Supply

  • Continuous monthly output of around 1000 tons
  • Continuous production cycles for inventory replenishment
  • ESR (Electro-Slag Remelting) is available upon request
  • Stable alloy sourcing to reduce supply interruption risk
  • Full batch traceability linked to the original heat number

Available 9Cr18Mo Steel Forms

Quality Control for Bulk Orders

Every batch of tool steel supplied by Aobo Steel is verified before shipment to ensure grade accuracy, internal soundness, and traceability for bulk orders.

  • Chemical composition verified by a spectrometer
  • Ultrasonic testing available (SEP 1921-82)
  • Delivered in spheroidized annealed condition
  • Mill Test Certificate (EN 10204 3.1) with heat number
  • Dimensional and surface inspection before shipment

Export Packaging and Container Loading

  • Professional seaworthy export packing
  • 20GP loading optimized up to ~26 tons
  • Mixed grades and mixed sizes supported
  • Anti-rust protection for long sea transit

For international shipments, full-container loading is strongly recommended to ensure cost efficiency and smoother customs processing.

Compostion(GB/T 20878-2007)

CCrMoNiSi (≤)Mn (≤)P (≤)S (≤)
0.95 – 1.1016.00 – 18.000.40 – 0.70-0.60.80.80.040.03

Equivalent Grades and Compositions

StandardSteel GradeCCrMoNiSi (≤)Mn (≤)P (≤)S (≤)
Japan JISSUS4400.95 – 1.2016.00 – 18.00≤(0.75)-0.6110.040.03
USA ASTM440C / S4400C0.95 – 1.2016.0 – 18.0≤0.75110.040.03
International ISOX105CrMo170.95 – 1.2016.0 – 18.00.40 – 0.80110.040.015
Europe ENX105CrMo17 / 1.41250.95 – 1.2016.0 – 18.00.40 – 0.80110.040.015

Critical Points of 9Cr18Mo(102Cr17Mo)

  • Ac1​≈815∼865℃: This is the lower critical temperature upon heating. It represents the temperature range at which austenite begins to form from the ferrite-carbide matrix.
  • Ar1​≈665∼765: This is the lower critical temperature upon cooling. It represents the temperature range in which the transformation of austenite to ferrite or pearlite is complete.
  • Ms​≈145: This is the Martensite start temperature. It is the temperature at which the transformation of austenite to martensite begins during rapid cooling (quenching).
9cr18mo
9Cr18Mo(102Cr17Mo) stainless steel

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    Hot Froging Process of 9Cr18Mo(102Cr17Mo)

    ItemHeating Temperature/°CInitial Forging Temp./°CFinal Forging Temp./°CCooling Method
    Steel Ingot1130 ~ 11501080 ~ 1100850 ~ 900Sand Cooling
    Steel Billet1100 ~ 11201050 ~ 1080850 ~ 900Sand Cooling

    Special attention should be paid to the hot-working process of 9Cr18Mo (102Cr17Mo) steel. It is recommended to use a cold-charged furnace for heating, and the heating rate should not be too fast, especially below 700°C. At the same time, the final forging temperature should be controlled at a higher level, and strict attention should be paid to the cooling conditions.

    Heat Treatment of 9Cr18Mo(102Cr17Mo)

    The processes for preliminary heat treatment are as follows:

    • Recrystallization Annealing: Heat to 730∼- 750°C, then air cool.
    • Annealing: Heat to 850∼- 870°C and soak for 4-6 hours. Subsequently, the furnace is cooled to below 600°C, then air-cooled. The hardness after annealing should be ≤ 255 HBW.
    • Quenching: Heat to 1050∼- 1100∘°C, then oil quench. The as-quenched hardness should be ≥ 58 HRC.
    • Tempering: Heat to 160∼- 180∘°C and soak for 3-5 hours. The final hardness after tempering should be ≥ 58 HRC.

    The effect of quenching temperature and cold treatment on hardness

    Quenching Temperature (°C)10201040106010801100
    Hardness after Conventional Quenching (HRC)58.55861.56161
    Hardness after Cold Treatment (HRC)6060.5626364

    Relationship between hardness and tempering temperature

    Tempering Temperature (°C)Untempered100200300400500600700
    950°C Air CoolingHardness (HRC) / Quenching5047484847473825
    1000°C Air Cooling5651.55250494940.527
    1050°C Air Cooling5856565352524329
    1100°C Air Cooling60.557585654554732

    Mechanical Properties

    Influence of Quenching Temperature and Cryogenic Treatment on Mechanical Properties

    Quenching Temperature /°CNot Cryogenically TreatedAfter -75°C Cryogenic Treatment (held for 1h)
    σbb/MPaaK / J・cm⁻²σbb/MPaaK / J・cm⁻²
    10203250303030
    10403000373711
    1060350040406
    1080275025253
    11002500332.5

    Corrosion Resistance

    Corrosion Resistance of 102Cr17Mo (9Cr18Mo) Steel

    Heat Treatment ProcessHardness HRCMedium ConditionsCorrosion Rate /g·(m²·h)⁻¹
    MediumMass Fraction (%)Temperature/°C
    1050°C Oil Quenching61Sulfuric Acid2Boiling575.6
    Sulfuric Acid51003.9
    Nitric Acid401.15
    1050°C Oil Quenching, 150°C Tempering for 1h60Sulfuric Acid2502
    Sulfuric Acid5968.3
    Nitric Acid401.04