The M-level double-sided chip breaker groove can effectively solve the processing difficulties of stainless steel chip breaking and sticking phenomenon, and obtain higher processing efficiency than EF.

M-level double-sided chip breaker groove, with higher edge strength than DM, is suitable for semi-finishing with unstable working conditions, and can also be used for cast iron processing to obtain lower cutting force.

M-level double-sided chip breaker groove has excellent chip breaker performance when processing P-class mild steel and medium carbon steel, and can obtain high-quality finished surface.

Negative-rake Turning inserts have a 90° edge and sit at an angle in the holder to provide a strong cutting force for heavy duty applications. They have cutting edges on both sides for twice the life of comparable positive-rake inserts.

The M-level single-sided chip breaker groove has high cutting edge safety, and can obtain high metal removal rate and low cutting force under large cutting depth and greater feeding.

M-level double-sided, high cutting edge strength, is the solution to overcome the undesirable processing factors such as sand hole and slag inclusion in the cast iron processing.

M-level single-sided chip breaker groove, strong edge, high safety, strong plastic deformation resistance under high metal removal rate.

The M-level double-sided chip breaker groove has the advantages of small cutting force and wide chip breaker range, which can also get better chip breaking effect on alloy steel with high viscosity.

M-level double-sided breaker groove, sharp edge, effectively solve the processing difficulties of stainless steel chip breaking, sticking phenomenon, surface hardening, etc., and obtain high-quality finished surface.

The M-level single/double-sided chip breaker groove has strong impact resistance. The groove design has the best balance point in the edge safety and sharpness, solves the difficulties such as high cutting heat and sticking phenomenon in the processing of stainless steel, and achieves high efficiency.

The E-level double-sided chip breaker groove has the advantages of high transposition accuracy, hard working prevention, strong wear resistance, and can obtain high machining accuracy and high quality finished surface.

The compressive strength of cemented carbide is as high as 6000MPa and the elastic modulus is (4 ~ 7) × 105Mpa, which are all higher than that of high-speed steel.

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The M-level double-sided chip breaker groove has the advantages of high transposition accuracy, high work hardening prevention and wear resistance, and higher work efficiency than NF.

Wodenco Turning Inserts has an excellent corrosion resistance and oxidation resistance. Generally, it can resist corrosion by the atmosphere, acid, alkali, etc., and is not easily oxidized.

G-level double-sided, ceramic blade, blade angle can be used to process hardened steel, cast iron, steel and other materials under different treatment conditions.

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Due to the high hardness and brittleness of cemented carbide, there is no need for cutting or regrinding after powder metallurgy forming and sintering.

G-level, PCBN and PCD superhard materials are welded to the cemented carbide matrix, which are the solutions for processing materials with high hardness and non-ferrous metals

M-level double-sided chip breaker groove, the first choice for light load rough machining, metal removal rate and cutting edge economy can be obtained.

M-level double-sided chip breaker groove, with wiper design, can obtain better surface quality in high-feed and efficient.