Add to ORKGDuctile grinding of silicon wafers with superior surface quality and TTV is one way of precision machining. Most promising results are found with diamond grinding wheels using high grain concentrations and small D-size values. Innovative machining employing the ductile grinding mode are presented promising advantages for future generations to come
The majority of semiconductor devices are built on silicon wafers. Manufacturing of high quality sil...
Spherical grinding was conducted with a ductile regime mode using a CNC grinding machine and a metal...
A grinding technique, referred to as the McCarter Superfinish, for grinding large size optical compo...
Microchip device production depends heavily on high-quality silicon wafers. Current developments in ...
Grinding of Silicon Carbide (SiC) has been found difficult to be machined since the material is typi...
Ductile streaks produced during diamond grinding of hard and brittle materials have aided the subse...
Silicon like any hard and brittle material is well known for its low machinability unless it is mach...
A new method of ductile mode machining of silicon using high speed end milling with diamond coated t...
Presently, silicon is the most important semiconducting material used in the electronic industry. Si...
An ultrafine diamond wheel of a mesh size of 12,000 was fabricated by using a hybrid bond material, ...
Two novel techniques were used to study the formation of ductile mode streaks during diamond grindi...
This project aims at gaining a better understanding of the mechanics of precision grinding of brittl...
Silicon being a typical hard-brittle material is difficult to machine to a good surface finish. Alth...
This work presents a system of measuring grinding forces in precision applications. Several experime...
Grinding is an important process for manufacturing of silicon wafers. The demand for silicon wafers ...
The majority of semiconductor devices are built on silicon wafers. Manufacturing of high quality sil...
Spherical grinding was conducted with a ductile regime mode using a CNC grinding machine and a metal...
A grinding technique, referred to as the McCarter Superfinish, for grinding large size optical compo...
Microchip device production depends heavily on high-quality silicon wafers. Current developments in ...
Grinding of Silicon Carbide (SiC) has been found difficult to be machined since the material is typi...
Ductile streaks produced during diamond grinding of hard and brittle materials have aided the subse...
Silicon like any hard and brittle material is well known for its low machinability unless it is mach...
A new method of ductile mode machining of silicon using high speed end milling with diamond coated t...
Presently, silicon is the most important semiconducting material used in the electronic industry. Si...
An ultrafine diamond wheel of a mesh size of 12,000 was fabricated by using a hybrid bond material, ...
Two novel techniques were used to study the formation of ductile mode streaks during diamond grindi...
This project aims at gaining a better understanding of the mechanics of precision grinding of brittl...
Silicon being a typical hard-brittle material is difficult to machine to a good surface finish. Alth...
This work presents a system of measuring grinding forces in precision applications. Several experime...
Grinding is an important process for manufacturing of silicon wafers. The demand for silicon wafers ...
The majority of semiconductor devices are built on silicon wafers. Manufacturing of high quality sil...
Spherical grinding was conducted with a ductile regime mode using a CNC grinding machine and a metal...
A grinding technique, referred to as the McCarter Superfinish, for grinding large size optical compo...