Beside the advantages of advanced ceramics like high working temperature and chemical resistance the low ductility of ceramics is one of their major disadvantages. The low Kic of ceramics in comparision to ductile materials entails spontaneous crack growth at the same loading conditions for smaller defects. Thus holds in particular for the surface near zone. Therefore, the quality of the finished surface is imporatnt in order to prevent damage during loading. The final machining of the ceramic surface plays a central role. Here, two different grinding methods (alternating and creep feed grinding) are compared by mechanical testing and nondestructive testing methods
Objectives: The choice of material and sequence of finishing & polishing of pressed ceramics which a...
Die vorliegende Arbeit behandelt den Einfluss der Endbearbeitungsverfahren Schleifen und Laeppen auf...
For high-performance optical applications, transparent polycrystalline ceramics are interesting mate...
Ceramic cutting tools have been successfully employed in many industrial application. However they w...
The objective of this program was to develop a cost-effective method to determine the grindability o...
This dissertation focuses on two important issues in abrasive machining of ceramic materials: (i) im...
The aim of this work is to evaluate the mechanism of stock removal and the ground surface quality of...
The aim of this work is to evaluate the mechanism of stock removal and the ground surface quality of...
This thesis is focused on ceramics materials in terms of their partition, properties, structure, man...
The strength controlling surface effects of different machined ceramics have been assessed by means ...
The actual grinding result of ceramics has not been well predicted by the present mechanical models....
Grinding helps to shape and finish workpieces, but also induces damage, especially in ceramics. In t...
In order to optimize efficiency of machining, surface properties and strength of machined ceramics, ...
A technological basis for efficient ceramic machining requires a fundamental understanding of the pr...
Micro- and macroscopic residual stresses, phase transformations and strength of machined ceramics we...
Objectives: The choice of material and sequence of finishing & polishing of pressed ceramics which a...
Die vorliegende Arbeit behandelt den Einfluss der Endbearbeitungsverfahren Schleifen und Laeppen auf...
For high-performance optical applications, transparent polycrystalline ceramics are interesting mate...
Ceramic cutting tools have been successfully employed in many industrial application. However they w...
The objective of this program was to develop a cost-effective method to determine the grindability o...
This dissertation focuses on two important issues in abrasive machining of ceramic materials: (i) im...
The aim of this work is to evaluate the mechanism of stock removal and the ground surface quality of...
The aim of this work is to evaluate the mechanism of stock removal and the ground surface quality of...
This thesis is focused on ceramics materials in terms of their partition, properties, structure, man...
The strength controlling surface effects of different machined ceramics have been assessed by means ...
The actual grinding result of ceramics has not been well predicted by the present mechanical models....
Grinding helps to shape and finish workpieces, but also induces damage, especially in ceramics. In t...
In order to optimize efficiency of machining, surface properties and strength of machined ceramics, ...
A technological basis for efficient ceramic machining requires a fundamental understanding of the pr...
Micro- and macroscopic residual stresses, phase transformations and strength of machined ceramics we...
Objectives: The choice of material and sequence of finishing & polishing of pressed ceramics which a...
Die vorliegende Arbeit behandelt den Einfluss der Endbearbeitungsverfahren Schleifen und Laeppen auf...
For high-performance optical applications, transparent polycrystalline ceramics are interesting mate...
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