Development of Technological Means for Formation of Multilayer Composite Coatings, Providing Increased Resistance of Carbide Tools, for Different Machining Conditions

Vladimir P. Tabakov; A.S. Vereschaka

doi:10.4028/www.scientific.net/KEM.581.55

Paper Titles

Experimental Research of Cutting Performance and Quality Abilities of Modern Drilling Tools
p.32

Cutting Tool Life in Machining at Various Speeds
p.38

Influence of the Lead Angle from the Vertical Axis Milling on Effective Radius of the Cutter
p.44

Wear Rate of CBN Cutting Tool in Hard Turning of 100Cr6 Bearing Steel
p.50

Development of Technological Means for Formation of Multilayer Composite Coatings, Providing Increased Resistance of Carbide Tools, for Different Machining Conditions
p.55

Development of Assisted Filtered Cathodic Vacuum Arc Deposition of Nano-Dispersed Multi-Layered Composite Coatings on Cutting Tools
p.62

Improving the Efficiency of the Cutting Tool Made of Ceramic when Machining Hardened Steel by Applying Nano-Dispersed Multi-Layered Coatings
p.68

Applying Projective Geometry in Design of Worm Manufacturing
p.77

The Role of Polymer Binder in Ceramic Injection Moulding
p.82

HomeKey Engineering MaterialsKey Engineering Materials Vol. 581Development of Technological Means for Formation...

Development of Technological Means for Formation of Multilayer Composite Coatings, Providing Increased Resistance of Carbide Tools, for Different Machining Conditions

Abstract:

The present work documents the results of development a methodological and technological means for the formation of multilayer composite coatings essential to increasing the tool life of a cemented carbide cutting tool edge. A methodology, based on of a rational choice of structure, architecture, and properties of a multilayer coating for tool edge working in various cutting conditions, is formulated. The results demonstrate an increase of efficiency of the carbide tool edge life based on the methodology stated above, and are presented here.

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Periodical:

Key Engineering Materials (Volume 581)

Pages:

55-61

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.581.55

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Online since:

October 2013

Authors:

Vladimir P. Tabakov, A.S. Vereschaka

Keywords:

Edge Cutting Tools, Efficiency of Machining, Mechanical Property, Multilayer Coating, Tool Life

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