New generation turning grade with high performance for P materials—YBC103/YBC203
YBC103: for heavy turning in unstable condition
YBC203: for heavy turning with interrupted cuts
Thick coating technology with fine-grained columnar structure Al2O3. It has outstanding high temperature performance and wear resistance, which effectively improve the tool life.
H2O2 gradient transition coating technology—With this technology, the spalling resistance of the coating has been improved. By using PCN technology, the coating particles are fine and dense, leading to superior high temperature performance and oxidation resistance of the insert.
Wholly new substrate—Alloy grain adjusting technology make the cubic phase grains finer and more evenly distributed which improve the high temperature performance of the cutter body. The change of the binder phase and the solid solution gradient coupling will improve the strength of the edge and plastic deformation resistance.
Case 1
Working material: Cast steel
HRC: 40-44
Cutting tool:YBC103/SNMM250924-ZR
Cutting data: Vc=72/min,f=
Size of the work piece:diameter:
Coolant: water coolant
Performance: The diameter of the roller is about
Case 2
Working material: 4145H
HRC: 28-32
Cutting tool:YBC103/SNMM250724-ER
Cutting data: Vc=60/min,f=
Size of the work piece:diameter:
Coolant: dry cutting
Performance: Working length per flute is as long as
New generation economic heavy turning grade for P material
YB6315/YB6325
YB6315: For stable heavy turning
YB6325: For heavy turning with interrupted cuts
New substrate—The new cemented carbide matrix formula has high strength, high toughness and excellent wear resistance. The high cobalt content and the gradient layer with finely controlled thickness increase the safety of the tool during use.
The dioxygen gradient transition coating technology—It improves the stress state and interface state of the coating, reduces the stress concentration, and improves the binding strength of the coating and the substrate and the coating and the coating interface, which greatly increases the stability and safety of the tool.
Hyper fine gradient coating—Gradient bonded ultra-fine TM coating with high toughness and wear resistance.
Ultra-smooth edge treatment—Adopt new surface treatment technology,with ultra-smooth surface, better surface quality and cutting stability.
New substrate—The new cemented carbide matrix formula has high strength, high toughness and excellent wear resistance. The high cobalt content and the gradient layer with finely controlled thickness increase the safety of the tool during use.
The dioxygen gradient transition coating technology—It improves the stress state and interface state of the coating, reduces the stress concentration, and improves the binding strength of the coating with the substrate and the coating with the coating interface, which greatly increases the stability and safety of the tool.
Hyper fine gradient coating—Gradient bonded ultra-fine TM coating with high toughness and wear resistance.
Ultra-smooth edge treatment—It adopts new surface treatment technology leading to ultra-smooth surface, better surface quality and cutting stability.
Case 1
Working material:42CrMo
HRC:25-30
Cutting tool: YB6325/CNMM250724-ZR
Cutting data: Vc=110/min, f=
Coolant: water coolant
Performance: The cylindrical surface work blank is machined into a tapered surface, and YB6315-ZR can finish 2 pieces.The service life is equal to the former one, and the cost is reduced by 20%.
Case 2
Working piece: wind power components
Working material:43CrMo
HRC:25-30
Cutting tool: YB6315/SNMM250924-HPR
Cutting data: Vc=120/min, f=0,
Coolant: dry cutting
Performance: Service life reach 80min per flute, the cost is reduced by 20%.
-HPR M class chip breaker and wide edge design make edges much stronger which is suitable for unstable working conditions and relatively difficult to machine conditions, especially good for"peeling" machining.
-HDR M-class chip breaker with strong cutting edge, high metal removal rate and good plastic deformation resistance, which is recommended for medium machining.
M-class chip breaker with strong impact resistance, safe land and excellent chip removal in high feed cutting is upgraded for heavy machining and especially suitable for heavy machining with interrupted cuts.
-ZR M-chip breaker has strong impact resistance with best balance between the safety and sharpness of the cutting edge, that is the excellent choice for general heavy machining with its good chip removal performance,
M-class double sided chip breaker with low-resistance design which is cost effective and the first choice for light machining.