The goal of these experiments is to determine optimum cutting factors for the machining of silicon optics. This report describes experimental design, a systematic method of selecting optimal settings for a limited set of experiments, and its use in the silcon-optics turning experiments. 1 fig., 11 tabs
[[abstract]]Precise and efficient tool setting technique and accurate tool shape monitoring are of e...
The Oak Ridge National Laboratory has been instrumental in developing ultraprecision technologies fo...
To improve the quality of diamond turned optics, it is necessary to employ a laborious postprocessin...
The interdependence of process parameters on diamond turning of single-crystal silicon is poorly und...
The research described in this paper is a continuation of the collaborative efforts by Lawrence Live...
Thesis (Ph. D.)--University of Rochester. College of Engineering and Applied Science. Institute of O...
Single-crystal silicon microlens arrays are increasingly required in advanced infrared optics. In th...
An empirical study was conducted to evaluate cutting fluids for Single Point Diamond Turning (SPDT) ...
This paper describes an experimental set-up to perform cutting tests on different materials using si...
A scientific method has been developed to determine the optimum values of machining variable, which ...
This paper presents an investigation of the effect of tool rake angle in single point diamond turnin...
Optical freeform surface components have attracted much attention due to their high degree of design...
Optically flat components are increasing in more demand, which is hard to manufacture with high prec...
In the present study investigation was done to analyze the tool life by analyzing the change in surf...
This paper discusses the effect of tool wear on surface finish in single-point diamond turning of si...
[[abstract]]Precise and efficient tool setting technique and accurate tool shape monitoring are of e...
The Oak Ridge National Laboratory has been instrumental in developing ultraprecision technologies fo...
To improve the quality of diamond turned optics, it is necessary to employ a laborious postprocessin...
The interdependence of process parameters on diamond turning of single-crystal silicon is poorly und...
The research described in this paper is a continuation of the collaborative efforts by Lawrence Live...
Thesis (Ph. D.)--University of Rochester. College of Engineering and Applied Science. Institute of O...
Single-crystal silicon microlens arrays are increasingly required in advanced infrared optics. In th...
An empirical study was conducted to evaluate cutting fluids for Single Point Diamond Turning (SPDT) ...
This paper describes an experimental set-up to perform cutting tests on different materials using si...
A scientific method has been developed to determine the optimum values of machining variable, which ...
This paper presents an investigation of the effect of tool rake angle in single point diamond turnin...
Optical freeform surface components have attracted much attention due to their high degree of design...
Optically flat components are increasing in more demand, which is hard to manufacture with high prec...
In the present study investigation was done to analyze the tool life by analyzing the change in surf...
This paper discusses the effect of tool wear on surface finish in single-point diamond turning of si...
[[abstract]]Precise and efficient tool setting technique and accurate tool shape monitoring are of e...
The Oak Ridge National Laboratory has been instrumental in developing ultraprecision technologies fo...
To improve the quality of diamond turned optics, it is necessary to employ a laborious postprocessin...
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