Add to ORKGThe effects of the popular TiN and TiCN coatings on the cutting process, friction and predictive mechanics of cutting models for forces and power in machining operations are investigated. Extensive orthogonal cutting and turning tests on steel work materials have shown that the cutting process and predictive force models are not qualitatively affected by these coatings. Quantitatively, both coatings are equally effective in reducing the friction, forces and power in orthogonal cutting when applied to high-speed steel (HSS) tools and equally ineffective when applied to carbide tools. Both TiN and TiCN coatings applied to HSS tools resulted in modest reductions in the power force component and power of 12-30 per cent 'on average' with larger ...
The development and application of Titanium Aluminium Nitrate (TiAlN) coatings for cutting tools has...
A detailed study has been made of commercially produced, powder metallurgy, BT42 grade high speed st...
Titanium-based ceramic coatings, comprising Ti(B,N) and (Ti,Al)N, were produced by d.c. plasma-assis...
In this paper, the effects of multiple layer hard surface coatings of cutting tools on cutting force...
The effects of a number of cutting tool coating materials on the surface quality of workpieces, depe...
The influence of coating thickness on the life of TiN-coated high speed steel cutting tools has been...
Cutting is an important process in the manufacturing industry. It is necessary to use good quality c...
The current study emphasises the role of coating materials in enhancing the wear resistance of the c...
The surface topography formed during the technological process has an influence on the wear characte...
The paper presents results of a systematic study of tool coatings on drilling performance of twist d...
The paper presents results of a systematic study of tool coatings on drilling performance of twist d...
The effects of a number of cutting tool coating materials on the surface quality of workpieces, depe...
PVD titanium aluminium nitride coatings are known to improve the performance of cutting tools in agg...
At present, high-speed cutting technology is the most promising approach to increase both efficiency...
In the past, many papers have been presented which show that the coating of cutting tools often yiel...
The development and application of Titanium Aluminium Nitrate (TiAlN) coatings for cutting tools has...
A detailed study has been made of commercially produced, powder metallurgy, BT42 grade high speed st...
Titanium-based ceramic coatings, comprising Ti(B,N) and (Ti,Al)N, were produced by d.c. plasma-assis...
In this paper, the effects of multiple layer hard surface coatings of cutting tools on cutting force...
The effects of a number of cutting tool coating materials on the surface quality of workpieces, depe...
The influence of coating thickness on the life of TiN-coated high speed steel cutting tools has been...
Cutting is an important process in the manufacturing industry. It is necessary to use good quality c...
The current study emphasises the role of coating materials in enhancing the wear resistance of the c...
The surface topography formed during the technological process has an influence on the wear characte...
The paper presents results of a systematic study of tool coatings on drilling performance of twist d...
The paper presents results of a systematic study of tool coatings on drilling performance of twist d...
The effects of a number of cutting tool coating materials on the surface quality of workpieces, depe...
PVD titanium aluminium nitride coatings are known to improve the performance of cutting tools in agg...
At present, high-speed cutting technology is the most promising approach to increase both efficiency...
In the past, many papers have been presented which show that the coating of cutting tools often yiel...
The development and application of Titanium Aluminium Nitrate (TiAlN) coatings for cutting tools has...
A detailed study has been made of commercially produced, powder metallurgy, BT42 grade high speed st...
Titanium-based ceramic coatings, comprising Ti(B,N) and (Ti,Al)N, were produced by d.c. plasma-assis...