Add to ORKGSingle crystal diamond tools used in the machining process have been inspected in both the optical microscope and scanning electron microscope. Attention was focused on surface characteristics related to the specific polishing process and its relationship to cutting-edge structure. The need for tool inspection is discussed as well as the drawbacks with the inspection techniques presently used. Low accelerating voltage ( \u3c 2.5 keV) inspection of uncoated diamond tools for machining is shown to be a viable method for the determination of polishing flaws that grossly reflect in the surface quality of the finished part
<p>Chips measured by the Hitachi electron microscope TM3000, (a) feed rate is 7 mm/min, (b) feed rat...
The research described in this paper is a continuation of the collaborative efforts by Lawrence Live...
In recent years, nanomachining has attracted increasing attention in advanced manufacturing science ...
Single crystal diamond tools used in the machining process have been inspected in both the optical m...
This paper discusses the effect of tool wear on surface finish in single-point diamond turning of si...
Some material aspects such as grain size, purity and anisotropy exert an important influence on surf...
Ultraprecision, single point diamond turning (SPDT) is a tool based machining technology that allows...
Ultra precision diamond turning is one of the advanced techniques to generate highly finished optica...
In this work, ultra-precision machining on aluminum alloys were carried out to investigate the surfa...
The major application of the scanning tunneling microscope (STM) is as a local surface topography an...
This paper describes a parametric analysis of nanosurface generation in single-point diamond turning...
Diamond cutting is a viable alternative to grinding and polishing in the fabrication of high-quality...
The parameter that has a major control over the performance of the optical components is its surface...
[[abstract]]Single crystal diamond tool has the highest known hardness, good wear resistance, high c...
Optically flat components are increasing in more demand, which is hard to manufacture with high prec...
<p>Chips measured by the Hitachi electron microscope TM3000, (a) feed rate is 7 mm/min, (b) feed rat...
The research described in this paper is a continuation of the collaborative efforts by Lawrence Live...
In recent years, nanomachining has attracted increasing attention in advanced manufacturing science ...
Single crystal diamond tools used in the machining process have been inspected in both the optical m...
This paper discusses the effect of tool wear on surface finish in single-point diamond turning of si...
Some material aspects such as grain size, purity and anisotropy exert an important influence on surf...
Ultraprecision, single point diamond turning (SPDT) is a tool based machining technology that allows...
Ultra precision diamond turning is one of the advanced techniques to generate highly finished optica...
In this work, ultra-precision machining on aluminum alloys were carried out to investigate the surfa...
The major application of the scanning tunneling microscope (STM) is as a local surface topography an...
This paper describes a parametric analysis of nanosurface generation in single-point diamond turning...
Diamond cutting is a viable alternative to grinding and polishing in the fabrication of high-quality...
The parameter that has a major control over the performance of the optical components is its surface...
[[abstract]]Single crystal diamond tool has the highest known hardness, good wear resistance, high c...
Optically flat components are increasing in more demand, which is hard to manufacture with high prec...
<p>Chips measured by the Hitachi electron microscope TM3000, (a) feed rate is 7 mm/min, (b) feed rat...
The research described in this paper is a continuation of the collaborative efforts by Lawrence Live...
In recent years, nanomachining has attracted increasing attention in advanced manufacturing science ...