Increased demands for precision components made of brittle materials such as glasses and advanced ceramics, are such that conventional (free abrasive) grinding and polishing techniques can no longer meet the requirements of today’s precision manufacturing engineering. Both fast production rates and high quality surfaces of complex shapes are required in addition to the spherical or planar surfaces produced which are most readily produced by conventional free abrasive techniques. The work investigates the feasibility of using ductile-mode single-point diamond turning both as an alternative machining technique in its own right and as a model for certain parameters involved in (rigid-wheel) grinding. Indentation and ruling/scribing we...
This paper addresses the effects of bonds and grains of abrasive tools on the edge aspect of ground ...
The overarching goal of this research was to investigate the application of spherically shaped abras...
AbstractPrediction models for machining brittle and hard materials are barely seen while various pre...
This project aims at gaining a better understanding of the mechanics of precision grinding of brittl...
Two novel techniques were used to study the formation of ductile mode streaks during diamond grindi...
Machining of hard and brittle materials always pose problems such as rough surface, cracks, subsurfa...
Diamond cutting is a viable alternative to grinding and polishing in the fabrication of high-quality...
Brittle materials are hard to machine while maintaining the surface roughness desired. A brittle ma...
Single crystal silicon carbide (SiC) is an ultra hard ceramic material which possesses extremely hig...
Single-point diamond turning of silicon and germanium was investigated in order to clarify the role ...
Ductile streaks produced during diamond grinding of hard and brittle materials have aided the subse...
Thesis (Ph. D.)--University of Rochester. College of Engineering and Applied Science. Institute of O...
AbstractSingle point diamond turning (SPDT) of large functional surfaces on silicon remains a challe...
Single point diamond turning (SPDT) of large functional surfaces on silicon remains a challenge owin...
Abstract. In order to diamond-turn optical glasses to a nanometric surface finish, it is critical to...
This paper addresses the effects of bonds and grains of abrasive tools on the edge aspect of ground ...
The overarching goal of this research was to investigate the application of spherically shaped abras...
AbstractPrediction models for machining brittle and hard materials are barely seen while various pre...
This project aims at gaining a better understanding of the mechanics of precision grinding of brittl...
Two novel techniques were used to study the formation of ductile mode streaks during diamond grindi...
Machining of hard and brittle materials always pose problems such as rough surface, cracks, subsurfa...
Diamond cutting is a viable alternative to grinding and polishing in the fabrication of high-quality...
Brittle materials are hard to machine while maintaining the surface roughness desired. A brittle ma...
Single crystal silicon carbide (SiC) is an ultra hard ceramic material which possesses extremely hig...
Single-point diamond turning of silicon and germanium was investigated in order to clarify the role ...
Ductile streaks produced during diamond grinding of hard and brittle materials have aided the subse...
Thesis (Ph. D.)--University of Rochester. College of Engineering and Applied Science. Institute of O...
AbstractSingle point diamond turning (SPDT) of large functional surfaces on silicon remains a challe...
Single point diamond turning (SPDT) of large functional surfaces on silicon remains a challenge owin...
Abstract. In order to diamond-turn optical glasses to a nanometric surface finish, it is critical to...
This paper addresses the effects of bonds and grains of abrasive tools on the edge aspect of ground ...
The overarching goal of this research was to investigate the application of spherically shaped abras...
AbstractPrediction models for machining brittle and hard materials are barely seen while various pre...