Add to ORKGHigh precision grinding tools can be manufactured using microcrystalline CVD diamond as grinding layer. The small and sharp edges of the crystallites act as cutting edges and - deposited onto tool base bodies - can perform grinding and honing processes. Peripheral and face grinding wheels as well as abrasive pencils have been manufactured using silicon, ceramics, graphite and cemented carbide as base body materials. High performance was achieved in the grinding of glass, ceramics, silicon, cemented carbide and hartened steel. Tool life was limited only due to wear of the tips of the diamond crystallites and not due to layer flacking. Workpiece roughnesses Ra of 5 nm were obtained
This project aims at gaining a better understanding of the mechanics of precision grinding of brittl...
In this study, two diamond wheels are newly developed. A novel approach of mechanical chemical grind...
This paper reports the ultraprecision grinding of tungsten carbide for spherical mirrors with nanome...
Both for ultra-precision and for micro-machining diamond is used very often as tool material. The re...
Todays diamond grinding wheels have restrictions for very small grit sizes, that are needed for achi...
Advanced results are presented on the manufacturing and application of CVD diamond grinding wheels f...
Diamond abrasive layers produced by chemical vapour deposition (CDV) have demonstrated their high po...
Rough, microcrystalline CVD diamond layers are under research for many years for grinding applicatio...
Results are presented of the development of microtools for milling, drilling and grinding with diame...
Abrasive pencils (burs) for grinding can be made by coating cemented carbide bodies with a rough che...
Diamond abrasive layers produced by chemical vapour deposition (CVD) have proven their high potentia...
The coating of cemented carbide microtools with chemical vapour deposition (CVD) diamond is presente...
This paper presents the use of a new kind of dicing blades for the machining of various hard and bri...
Cobalt-cemented carbide micro-end mills were coated with diamond grown by chemical vapor deposition ...
Ductile streaks produced during diamond grinding of hard and brittle materials have aided the subse...
This project aims at gaining a better understanding of the mechanics of precision grinding of brittl...
In this study, two diamond wheels are newly developed. A novel approach of mechanical chemical grind...
This paper reports the ultraprecision grinding of tungsten carbide for spherical mirrors with nanome...
Both for ultra-precision and for micro-machining diamond is used very often as tool material. The re...
Todays diamond grinding wheels have restrictions for very small grit sizes, that are needed for achi...
Advanced results are presented on the manufacturing and application of CVD diamond grinding wheels f...
Diamond abrasive layers produced by chemical vapour deposition (CDV) have demonstrated their high po...
Rough, microcrystalline CVD diamond layers are under research for many years for grinding applicatio...
Results are presented of the development of microtools for milling, drilling and grinding with diame...
Abrasive pencils (burs) for grinding can be made by coating cemented carbide bodies with a rough che...
Diamond abrasive layers produced by chemical vapour deposition (CVD) have proven their high potentia...
The coating of cemented carbide microtools with chemical vapour deposition (CVD) diamond is presente...
This paper presents the use of a new kind of dicing blades for the machining of various hard and bri...
Cobalt-cemented carbide micro-end mills were coated with diamond grown by chemical vapor deposition ...
Ductile streaks produced during diamond grinding of hard and brittle materials have aided the subse...
This project aims at gaining a better understanding of the mechanics of precision grinding of brittl...
In this study, two diamond wheels are newly developed. A novel approach of mechanical chemical grind...
This paper reports the ultraprecision grinding of tungsten carbide for spherical mirrors with nanome...