AbstractMetal matrix composites (MMCs), as a new generation of materials; have proven to be viable materials in various industrial fields such as biomedical and aerospace. In order to achieve a valuable modification in various properties of materials, metallic matrices are reinforced with additional phases based on the chemical and/or physical properties required in the in-service operating conditions. The presence of the reinforcements in MMCs improves the physical, mechanical and thermal properties of the composite; however it induces significant issues in the domain of machining, such as high tool wear and inferior surface finish. The interaction between the tool and abrasive hard reinforcing particles induces complex deformation behavio...
Over the last few decades, Metal Matrix Composites (MMCs) have emerged as a material system offering...
Titanium alloy is one of the advance material that has unique characteristicsdifficult to cut and hi...
Short tool life and rapid tool wear in micromachining of hard-to-machine materials remain a barrier ...
Metal matrix composites (MMCs), as a new generation of materials; have proven to be viable materials...
AbstractMetal matrix composites (MMCs), as a new generation of materials; have proven to be viable m...
Little practical results are known about the cutting tool optimal replacement time, specifically for...
Metal matrix composites (MMCs) are materials which have been widely used in the aerospace and automo...
Reliability estimation and prediction of the remaining life of a cutting tool is paramount for ensur...
AbstractThe Outstanding characteristics of titanium metal matrix composites (Ti-MMCs) have brought t...
A significant part of cost of machining is associated with non-optimum use of cutting tool. Moreover...
This paper presents an approach to establish models for tool life in end milling of titanium alloy T...
This paper presents an approach to establish models for tool life in end milling of titanium alloy ...
Higher tool wear and inferior surface quality of the specimens during machining restrict metal matri...
Machining of Metal Matrix Composites (MMCs) is very significant process and has been a main problem ...
This paper presents an approach to establish models for tool life in end milling of titanium alloy T...
Over the last few decades, Metal Matrix Composites (MMCs) have emerged as a material system offering...
Titanium alloy is one of the advance material that has unique characteristicsdifficult to cut and hi...
Short tool life and rapid tool wear in micromachining of hard-to-machine materials remain a barrier ...
Metal matrix composites (MMCs), as a new generation of materials; have proven to be viable materials...
AbstractMetal matrix composites (MMCs), as a new generation of materials; have proven to be viable m...
Little practical results are known about the cutting tool optimal replacement time, specifically for...
Metal matrix composites (MMCs) are materials which have been widely used in the aerospace and automo...
Reliability estimation and prediction of the remaining life of a cutting tool is paramount for ensur...
AbstractThe Outstanding characteristics of titanium metal matrix composites (Ti-MMCs) have brought t...
A significant part of cost of machining is associated with non-optimum use of cutting tool. Moreover...
This paper presents an approach to establish models for tool life in end milling of titanium alloy T...
This paper presents an approach to establish models for tool life in end milling of titanium alloy ...
Higher tool wear and inferior surface quality of the specimens during machining restrict metal matri...
Machining of Metal Matrix Composites (MMCs) is very significant process and has been a main problem ...
This paper presents an approach to establish models for tool life in end milling of titanium alloy T...
Over the last few decades, Metal Matrix Composites (MMCs) have emerged as a material system offering...
Titanium alloy is one of the advance material that has unique characteristicsdifficult to cut and hi...
Short tool life and rapid tool wear in micromachining of hard-to-machine materials remain a barrier ...