Carbide End Mills from Wangdefu-a wear-resistant cutting tool developed by a China precision tool manufacturer for high-intensity machining. Ultra-fine grain carbide tool body, both high hardness (HRA≥92.5) and impact toughness, can efficiently complete end milling, side wall finishing, deep groove cutting and complex profile forming, life up to 8-12 times that of ordinary high speed steel tools.
Why Choose Wangdefu Carbide End Mills for High-Performance Machining?
High-Performance, Universal Compatibility
Ultra-Hard Substrate + Reinforced Structure for Rigidity & Durability:
Made from high-quality tungsten-cobalt (WC-Co) carbide, hardness ≥HRA 90, compressive strength >4000 MPa, wear resistance 5–10× higher than HSS. Tool body is precision-forged and ground; spiral flutes enhance cutting stability. 2–8 flutes available (coarse for chip evacuation, fine for high surface finish). Large chip pockets reduce clogging and lower cutting resistance by 30%.
Multi-Layer Coatings + Precise Adaptation for All Materials
PVD/CVD coatings: TiN, TiAlN, TiCN, AlCrN, optional diamond for composites. Hardness HV 2000–3000, oxidation resistance >1000°C. Tool life 2–5× longer than uncoated, effectively preventing adhesion and work-hardening.
Precision Geometry for Accuracy & Efficiency
Cutting edges polished to radius ≤0.01mm, burr-free, surface roughness Ra ≤0.8μm. 30°–45° optimized helix angle with dual positive rake ensures stability even under long overhangs. Dimensional tolerance ±0.01–±0.03mm.
Multi-Functional Integration for Cost Savings
Full series: flat end, ball nose, corner radius, corn/PCD, shoulder mills. Supports solid and indexable types, compatible with BT, HSK, CAT spindles. Single tool handles planes, grooves, steps, and contours, reducing tool changes and setups by >30%.
Product Parameters
|
Parameter Type |
Specification Range |
|
Tool Type |
Flat, Ball Nose, Corner Radius, Corn/PCD, Shoulder Carbide End Mills (solid/indexable) |
|
Substrate Material |
Tungsten-Cobalt Carbide (WC-Co), Co content 6–15% (optional) |
|
Coating |
TiN, TiAlN, TiCN, AlCrN, Diamond (optional) |
|
Number of Flutes |
2/3/4/6/8 (coarse/medium/fine pitch optional) |
|
Cutting Diameter |
0.5–50 mm (standard), custom sizes available |
|
Shank Diameter |
3–32 mm (H6), compatible with BT40/BT50/HSK63A |
|
Effective Cutting Length |
5–50 mm, long overhang custom options |
|
Machining Accuracy |
Dimensional tolerance ±0.01–±0.03 mm, Ra ≤0.8 μm |
|
Applicable Materials |
Carbon steel, alloy steel, stainless steel, cast iron, aluminum, copper, titanium, engineering plastics, composites |
Recommended Cutting Parameters
|
Workpiece Material |
Operation |
Cutting Speed (Vc) |
Feed per Tooth (fz) |
Axial Depth (Ap) |
|
45# Carbon Steel |
Rough |
80–120 m/min |
0.10–0.20 mm |
2–8 mm |
|
45# Carbon Steel |
Finish |
100–150 m/min |
0.05–0.10 mm |
0.3–2 mm |
|
304 Stainless Steel |
Rough |
40–70 m/min |
0.06–0.12 mm |
1–4 mm |
|
304 Stainless Steel |
Finish |
60–90 m/min |
0.03–0.07 mm |
0.2–1 mm |
|
Aluminum Alloy |
Rough |
200–350 m/min |
0.08–0.15 mm |
3–10 mm |
|
Aluminum Alloy |
Finish |
300–450 m/min |
0.03–0.08 mm |
0.5–2 mm |
|
Titanium (TC4) |
Rough |
15–30 m/min |
0.03–0.06 mm |
0.5–2 mm |
|
Titanium (TC4) |
Finish |
20–40 m/min |
0.01–0.03 mm |
0.1–0.5 mm |
Note: Use sufficient coolant for stainless steel and titanium. Reduce feed and depth for thin-walled parts. Contact Wangdefu technical team for custom solutions for difficult materials.
After-sales and technical support
Tool selection and process parameter recommendation
Graphic/Video Installation and Use Guide
Engineers can provide remote or onsite technical support
Provides optimized cutting conditions to extend tool life
Packaging and delivery
Single cutter protective packaging
Available in neutral or custom branded packaging
Export standard carton
Global stable logistics, often exported to Europe, America, Southeast Asia
Some application scenarios of our products
Why choose Wangdefu Carbide End Mills for automotive parts?
High-efficiency milling of engine blocks, transmission housings, crankshaft and camshaft grooves. Compatible with steel, iron, and aluminum. Efficiency +40%, tool life ×3. Trusted by China-based manufacturers and suppliers.
How do they improve aerospace component machining?
Precision finishing of aircraft engine blades and composite components. Handles titanium and high-temperature alloys, burr-free, delamination-free. Ensures high reliability and accuracy for aerospace factories.
Why are they ideal for 3C electronics?
Accurate milling of mobile frames, computer housings, and fine grooves on ceramic substrates. Dimensional tolerance ±0.005 mm, surface Ra 0.2 μm. Optimized for high-speed production and small-batch manufacturing.
How do they benefit general machinery and mold applications?
Milling of pump bodies, valve bodies, machine beds, and mold cavities. Supports interrupted and deep cuts, material removal rate +50% vs conventional tools. Widely used by manufacturers and suppliers in China.
Carbide End Mills from Wangdefu-a wear-resistant cutting tool developed by a China precision tool manufacturer for high-intensity machining. Ultra-fine grain carbide tool body, both high hardness (HRA≥92.5) and impact toughness, can efficiently complete end milling, side wall finishing, deep groove cutting and complex profile forming, life up to 8-12 times that of ordinary high speed steel tools.
Why Choose Wangdefu Carbide End Mills for High-Performance Machining?
High-Performance, Universal Compatibility
Ultra-Hard Substrate + Reinforced Structure for Rigidity & Durability:
Made from high-quality tungsten-cobalt (WC-Co) carbide, hardness ≥HRA 90, compressive strength >4000 MPa, wear resistance 5–10× higher than HSS. Tool body is precision-forged and ground; spiral flutes enhance cutting stability. 2–8 flutes available (coarse for chip evacuation, fine for high surface finish). Large chip pockets reduce clogging and lower cutting resistance by 30%.
Multi-Layer Coatings + Precise Adaptation for All Materials
PVD/CVD coatings: TiN, TiAlN, TiCN, AlCrN, optional diamond for composites. Hardness HV 2000–3000, oxidation resistance >1000°C. Tool life 2–5× longer than uncoated, effectively preventing adhesion and work-hardening.
Precision Geometry for Accuracy & Efficiency
Cutting edges polished to radius ≤0.01mm, burr-free, surface roughness Ra ≤0.8μm. 30°–45° optimized helix angle with dual positive rake ensures stability even under long overhangs. Dimensional tolerance ±0.01–±0.03mm.
Multi-Functional Integration for Cost Savings
Full series: flat end, ball nose, corner radius, corn/PCD, shoulder mills. Supports solid and indexable types, compatible with BT, HSK, CAT spindles. Single tool handles planes, grooves, steps, and contours, reducing tool changes and setups by >30%.
Product Parameters
|
Parameter Type |
Specification Range |
|
Tool Type |
Flat, Ball Nose, Corner Radius, Corn/PCD, Shoulder Carbide End Mills (solid/indexable) |
|
Substrate Material |
Tungsten-Cobalt Carbide (WC-Co), Co content 6–15% (optional) |
|
Coating |
TiN, TiAlN, TiCN, AlCrN, Diamond (optional) |
|
Number of Flutes |
2/3/4/6/8 (coarse/medium/fine pitch optional) |
|
Cutting Diameter |
0.5–50 mm (standard), custom sizes available |
|
Shank Diameter |
3–32 mm (H6), compatible with BT40/BT50/HSK63A |
|
Effective Cutting Length |
5–50 mm, long overhang custom options |
|
Machining Accuracy |
Dimensional tolerance ±0.01–±0.03 mm, Ra ≤0.8 μm |
|
Applicable Materials |
Carbon steel, alloy steel, stainless steel, cast iron, aluminum, copper, titanium, engineering plastics, composites |
Recommended Cutting Parameters
|
Workpiece Material |
Operation |
Cutting Speed (Vc) |
Feed per Tooth (fz) |
Axial Depth (Ap) |
|
45# Carbon Steel |
Rough |
80–120 m/min |
0.10–0.20 mm |
2–8 mm |
|
45# Carbon Steel |
Finish |
100–150 m/min |
0.05–0.10 mm |
0.3–2 mm |
|
304 Stainless Steel |
Rough |
40–70 m/min |
0.06–0.12 mm |
1–4 mm |
|
304 Stainless Steel |
Finish |
60–90 m/min |
0.03–0.07 mm |
0.2–1 mm |
|
Aluminum Alloy |
Rough |
200–350 m/min |
0.08–0.15 mm |
3–10 mm |
|
Aluminum Alloy |
Finish |
300–450 m/min |
0.03–0.08 mm |
0.5–2 mm |
|
Titanium (TC4) |
Rough |
15–30 m/min |
0.03–0.06 mm |
0.5–2 mm |
|
Titanium (TC4) |
Finish |
20–40 m/min |
0.01–0.03 mm |
0.1–0.5 mm |
Note: Use sufficient coolant for stainless steel and titanium. Reduce feed and depth for thin-walled parts. Contact Wangdefu technical team for custom solutions for difficult materials.
After-sales and technical support
Tool selection and process parameter recommendation
Graphic/Video Installation and Use Guide
Engineers can provide remote or onsite technical support
Provides optimized cutting conditions to extend tool life
Packaging and delivery
Single cutter protective packaging
Available in neutral or custom branded packaging
Export standard carton
Global stable logistics, often exported to Europe, America, Southeast Asia
Some application scenarios of our products
Why choose Wangdefu Carbide End Mills for automotive parts?
High-efficiency milling of engine blocks, transmission housings, crankshaft and camshaft grooves. Compatible with steel, iron, and aluminum. Efficiency +40%, tool life ×3. Trusted by China-based manufacturers and suppliers.
How do they improve aerospace component machining?
Precision finishing of aircraft engine blades and composite components. Handles titanium and high-temperature alloys, burr-free, delamination-free. Ensures high reliability and accuracy for aerospace factories.
Why are they ideal for 3C electronics?
Accurate milling of mobile frames, computer housings, and fine grooves on ceramic substrates. Dimensional tolerance ±0.005 mm, surface Ra 0.2 μm. Optimized for high-speed production and small-batch manufacturing.
How do they benefit general machinery and mold applications?
Milling of pump bodies, valve bodies, machine beds, and mold cavities. Supports interrupted and deep cuts, material removal rate +50% vs conventional tools. Widely used by manufacturers and suppliers in China.