The production of high-purity ceramic materials from low-molecular weight, inorganic or organoelement precursors is a topic of increasing relevance within materials science.
With this emerging technology it is possible to precisely tailor the properties of the ceramic material which enables new high-temperature or electronic applications.
Every materials scientist and engineer involved in the research and development of new high-performance ceramic materials will find these results – presented at a recent workshop of the Max-Planck-Gesellschaft – of great importance for his own work.
Зміст
INTRODUCTION
Precursor-Derived Covalent Ceramics
Ceramics Superplasticity
CERAMICS FROM ORGANOELEMENT COMPOUNDS
Synthesis and Processing of Si C Based Materials
Si C Fibers
High Temperature Stable Ceramics from Inorganic Polymers
CHARACTERIZATION
Photoelectron Spectroscopy
Solid State NMR
Diffraction Methods
X-ray and Neutron Diffraction Investigation
HIGH TEMPERATURE MECHANICAL PROPERTIES
Compression Creep Behavior
Nano-, Micro- and Milliboundaries in Si N Based Ceramics
Plastic Deformation at High Temperatures
Fabrication of Fine-Grained Si N and Si C
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