Brittle-ductile transition in shape adaptive grinding (SAG) of SiC aspheric optics

[1]  A. Gent,et al.  On the Relation between Indentation Hardness and Young's Modulus , 1958 .

[2]  J. E. Ritter,et al.  Grinding Mechanisms and Strength Degradation for Ceramics , 1989 .

[3]  J. Little,et al.  Oxidation behaviour and protection of carbon/carbon composites , 1991, Journal of Materials Science.

[4]  R. Scattergood,et al.  Ductile-Regime Grinding: A New Technology for Machining Brittle Materials , 1991 .

[5]  N. Padture In situ-toughened silicon carbide , 1994 .

[6]  Yoshiharu Namba,et al.  Ultraprecision surface grinding of chemical vapor deposited silicon carbide for X-ray mirrors using resinoid bonded diamond wheels , 1999 .

[7]  John S. Johnson,et al.  Rapid fabrication of lightweight silicon-carbide mirrors , 2002, SPIE Optics + Photonics.

[8]  Jiwang Yan,et al.  Mechanism for material removal in diamond turning of reaction-bonded silicon carbide , 2009 .

[9]  Yoshiharu Namba,et al.  Finishing of optical moulds to λ/20 by automated corrective polishing , 2011 .

[10]  Eric M. Gullikson,et al.  Review of substrate materials, surface metrologies and polishing techniques for current and future-generation EUV/x-ray optics , 2012, Other Conferences.

[11]  Guoyu Yu,et al.  Edge control in CNC polishing, paper 2: simulation and validation of tool influence functions on edges. , 2013, Optics express.

[12]  Kai Xin,et al.  Fabrication of SiC aspheric mirrors with low mid-spatial error , 2013, Optics & Photonics - Optical Engineering + Applications.

[13]  R. Reuben,et al.  Brittle-ductile transition during diamond turning of single crystal silicon carbide , 2013 .

[14]  Yoshiharu Namba,et al.  Shape adaptive grinding of CVD silicon carbide , 2014 .

[15]  Yoshiharu Namba,et al.  Process mechanism in shape adaptive grinding (SAG) , 2015 .