Comparison of Cemented Carbide Grades in Different Countries
Kedel Tool
Comparison-of-Cemented Carbide Grades in Different Countries
Cemented carbide, celebrated for its exceptional hardness, wear resistance, and structural strength, serves as a cornerstone in industries ranging from precision machining to heavy-duty mining. As global manufacturing hubs, China, Japan, Russia, the U.S., and Germany have developed distinct carbide grades tailored to their technological strengths. This article benchmarks these grades against ISO standards, offering insights for material selection and sourcing decisions.
The ISO (International Organization for Standardization) system categorizes cemented carbides into three application-based series:
P Series (ISO P01-P50): For ferrous metals with long chips (e.g., carbon steel, alloy steel)
M Series (ISO M10-M40): For stainless steel, superalloys, and ductile iron
K Series (ISO K01-K40): For non-ferrous metals, non-metals, and cast iron with short chips
Each grade within these series balances tungsten carbide (WC) content, cobalt (Co) binder, and alloying elements to optimize wear resistance, toughness, or heat resistance.
Comparative Analysis by Country
China: Cost-Effective Versatility with Technical Depth
Chinese carbide grades combine affordability with ISO-compliant performance, supported by vertical integration from tungsten ore to finished tools.
P Category (Steel Machining)
ISO Group
Chinese Grade
Typical Composition (%)
Hardness (HRA)
Transverse Rupture Strength (MPa)
Application Scenarios
P01
YT30
WC-30TiC-6Co
92.5
1200
High-speed finishing (e.g., fine turning of small sections)
P10
YT15
WC-15TiC-6Co
92.5
1550
Continuous cutting of steel (e.g., semi-finishing, milling)
P20
YT14
WC-14TiC-8Co
91.8
1650
Rough machining and intermittent cutting of steel
P30
YT5
WC-5TiC-10Co
90.4
2000
Heavy cutting of steel (e.g., rough turning, planing)
M Category (Universal Alloys)
ISO Group
Chinese Grade
Typical Composition (%)
Hardness (HRA)
Transverse Rupture Strength (MPa)
Application Scenarios
M10
YW1
WC-TiC-TaC-Co
91.5
1900
Semi-finishing of stainless steel and heat-resistant steel
M20
YW2
WC-TiC-TaC-Co
91.0
1600
Rough machining and intermittent cutting of stainless steel
M30
YS2T
WC-TiC-TaC-Co
90.5
1800
High-temperature alloys and titanium alloys
K Category (Cast Iron & Non-Ferrous Metals Machining)
ISO Group
Chinese Grade
Typical Composition (%)
Hardness (HRA)
Transverse Rupture Strength (MPa)
Application Scenarios
K01
YG3X
WC-3Co
92.5
1450
High-speed finishing of cast iron (e.g., fine threading)
K10
YG6X
WC-6Co
92.0
1800
Semi-finishing of chilled cast iron and heat-resistant alloys
K20
YG6
WC-6Co
90.5
2100
Continuous cutting of cast iron and non-ferrous metals
K30
YG8
WC-8Co
90.0
2200
Rough machining of cast iron and non-metallic materials
P01 Equivalent: YT30
High WC (93%) and low Co (6%) composition
Suitable for high-speed steel machining (e.g., automotive shafts) at >1,500 rpm
Chip control design reduces burr formation by 40% compared to standard grades
M10 Equivalent: YW1
TaC/NbC alloying for 30% higher thermal conductivity
Used in stainless steel machining (e.g., medical implants) with ≤0.05mm tolerance
K10 Equivalent: YG6
9% Co content for excellent impact resistance in cast iron machining
Commonly used in aluminum die-casting tools with >20,000 cycle life
Japan: Precision Engineering and Microstructure Innovation
ISO Group
Sumitomo Electric Grade
Examples of Other Japanese Grades
P01
AC805
/
P10
AC805, AC815
Toshiba Tungsten TS20, etc.
P20
AC720, AC815
Mitsubishi STi20T, etc.
P30
AC835
Sumitomo ST30E, etc.
M10
U10E
Toshiba TU10, etc.
M20
U2
/
K01
THF, UH03
/
K10
G10E, TH1
Mitsubishi HTi10, etc.
K20
G2, UH20
Sumitomo G10, etc.
K30
G3, THR
/
P01 Equivalent: Mitsubishi AC805
Submicron WC grains (0.5μm) with TiAlN coating
Used for aerospace titanium machining (800m/min), surface roughness Ra ≤0.4μm
M10 Equivalent: Sumitomo AC815
CVD coating + ZrN top layer, reducing adhesive wear by 60%
Suitable for superalloy machining (e.g., turbine blades) at >500°C
K10 Equivalent: Toshiba T9015
Ultra-fine grain WC with 3,200MPa bending strength
Used for silicon wafer dicing with ≤10μm chipping tolerance
Russia: Robust Grades for Heavy-Duty Applications
ISO Grade
Russian Grade
P01
–
P10
–
P20
–
P30
–
P40
–
P50
–
M10
–
M20
–
M30
–
M40
–
K01
BK3M
K10
BK6M
K20
BK6
K30
BK8, BK10
K40
BK15
G05
BK6
G10
BK6
G15
BK8
G20
BK10
G30
BK15
G40
BK20
G50
BK25
G60
BK30
P01 Equivalent: BK3M (GOST Standard)
Dense WC-Co matrix (97% WC) with 3,800MPa compressive strength
Used for heavy-duty steel milling (e.g., construction equipment) at 500m/min
M20 Equivalent: VK8
VC/TaC alloying for high-temperature stability (resistant to 800°C)
Used in stainless steel welding tools for oil pipelines, 500-hour service life
K20 Equivalent: BK6
8% Co content for excellent crack resistance in cast iron machining
Suitable for mining drill bits in >10,000m deepwell operations
USA: High-Performance Grades for Aerospace & Defense
ISO Group
Approximate Kennametal Grade
Examples of Other U.S. Grades
P10
KC740, KC710
Adamas 495, Carboloy 350, etc.
P20
KC850
Adamas 499, Carboloy 370, etc.
P30
KC910
Adamas 434, Carboloy 370, etc.
M10
K313
Valenite VC165, etc.
M20
K68
Valenite VC125, etc.
M30
–
Valenite VC55, etc.
K01
–
YD05, CG01, etc.
K10
–
YG643, YG6X, etc.
K20
–
YG813, YG8, etc.
K30
–
ZK30, YG640, etc.
P10 Equivalent: Kennametal K68
Nano-binder technology, extending tool life by 25% in aerospace aluminum machining
Supports high-speed turning (2,000rpm) with ±3μm dimensional accuracy
M20 Equivalent: Valenite V30M
AlCrN coating (90GPa hardness), suitable for medical device machining
Used in stainless steel orthopedic implants with Ra ≤0.8μm finish
K10 Equivalent: Walter USA WK10
Micro-grain WC for excellent edge stability in non-ferrous metal machining
Used in electronic copper etching tools with 0.1mm feature resolution
Germany: Premium Quality and Process Consistency
ISO Class
Widia (Germany)
Walter (Germany)
Hertel (Germany)
P10
TTX, TK15*, TN25*
WK1, WHN33*, WTN33*
CP1*, CP3*, etc.
P20
TTS, TK15*, TN25*, etc.
WK1, WTN43*
CP1*, CM2*, etc.
P30
TTS, TTR, TTM, etc.
WK1, WHN53*, etc.
CP3*, CM3*, etc.
M10
AT10, UA10
–
–
M20
AT15, UA20
–
–
M30
UA30, THX, CU30
–
–
M40
UA40
–
–
K01
G3, H3
–
–
K10
G6, H1
–
–
K20
G6, G1
–
–
K30
G11
–
–
K40
G15
–
–
P20 Equivalent: Widia WSM25
Optimized Co gradient (6-10%) balancing hardness and toughness
Used in automotive gear cutting with 99.9% process yield
M20 Equivalent: ThyssenKrupp U20M
TiCN-Al2O3-TiN multi-layer coating, reducing friction by 40%
Used in EV motor housing machining at 1,200m/min
K20 Equivalent: Güdel GH20
Cryogenically treated WC, improving impact resistance by 20%
Used in cast iron engine block machining with >5,000 tool change cycles
Conclusion: Matching Grades to Application Needs
Cost-sensitive mass production: China’s YT30/YG6 offers 30-50% lower cost than EU brands while meeting ISO standards.
Precision aerospace components: Japan’s AC805 and U.S. K68 enable nano-level accuracy and heat resistance.
Heavy-industry durability: Russia’s BK3M and Germany’s GH20 excel in high-stress, long-life applications.
By aligning ISO grades with regional technological strengths, manufacturers can optimize tool life, production efficiency, and cost control. Contact Kedel for customized cemented carbide solutions.
