Add to ORKGPlastic forming (warm pressing) was studied as a shaping method for the preparation of amorphous Si/C/N ceramics from a commercial poly(hydridomethyl)silazane precursor. Pressures up to 630 MPa and temperatures between 70 and 380°C were applied during axial pressing of the polymeric powders. Transparent or translucent, virtually pore free rigid green bodies were prepared at temperatures between 300 and 360°C. The temperature and pressure applied during warm pressing promote the formation of chemical bonds among adjacent polymeric particles and thus increase the degree of crosslinking of the body. Pyrolysis of transparent green bodies in Ar at 1100°C yields black, crack free and nearly fully dense amorphous Si/C/N ceramics (porosity < 2%) wi...
The present paper is concerned with the in-situ carbon content adjustment in amorphous bulk silicon ...
Ceramics are a class of materials that possess high thermal stability, chemical inertness, and high ...
In this paper, we report a simple technique for making bulk Si-based ceramics from polymeric precurs...
Plastic forming (warm pressing) was studied as a shaping method for the preparation of amorphous Si/...
This study reports on the pyrolysis and densifaction behavior of cross-linked poly(hydridomethylsila...
This review highlights the synthesis, processing and properties of non-oxide silicon-based ceramic m...
Here we report on bulk Si–Al–O–C ceramics produced by pyrolysis of commercial poly(methylsilsesquiox...
Bulk Si(O)C ceramics are fabricated from polycarbosilane (PCS) by bulk pyrolysis along the route of ...
The pyrolysis of cross-linked poly(hydridomethyl)silazane pellets via transient isothermal ammonia g...
Technical non-oxide ceramic materials are fabricated according to conventional powder processing met...
In this work we report on bulk Si-Al-O-C ceramics produced by pyrolysis of commercial poly(methylsil...
Within the present work, additive-free amorphous bulk SiHfN ceramics with excellent mechanical prope...
The utilization of silicon-based polymers as a source of amorphous non-oxide ceramics obtained upon ...
Monolithic polymer-derived Si–C–N ceramics were processed by blending 70 vol% of both crosslinked an...
The aim of this work was to study the pyrolytic conversion of a novel commercial polysilazane, poly(...
The present paper is concerned with the in-situ carbon content adjustment in amorphous bulk silicon ...
Ceramics are a class of materials that possess high thermal stability, chemical inertness, and high ...
In this paper, we report a simple technique for making bulk Si-based ceramics from polymeric precurs...
Plastic forming (warm pressing) was studied as a shaping method for the preparation of amorphous Si/...
This study reports on the pyrolysis and densifaction behavior of cross-linked poly(hydridomethylsila...
This review highlights the synthesis, processing and properties of non-oxide silicon-based ceramic m...
Here we report on bulk Si–Al–O–C ceramics produced by pyrolysis of commercial poly(methylsilsesquiox...
Bulk Si(O)C ceramics are fabricated from polycarbosilane (PCS) by bulk pyrolysis along the route of ...
The pyrolysis of cross-linked poly(hydridomethyl)silazane pellets via transient isothermal ammonia g...
Technical non-oxide ceramic materials are fabricated according to conventional powder processing met...
In this work we report on bulk Si-Al-O-C ceramics produced by pyrolysis of commercial poly(methylsil...
Within the present work, additive-free amorphous bulk SiHfN ceramics with excellent mechanical prope...
The utilization of silicon-based polymers as a source of amorphous non-oxide ceramics obtained upon ...
Monolithic polymer-derived Si–C–N ceramics were processed by blending 70 vol% of both crosslinked an...
The aim of this work was to study the pyrolytic conversion of a novel commercial polysilazane, poly(...
The present paper is concerned with the in-situ carbon content adjustment in amorphous bulk silicon ...
Ceramics are a class of materials that possess high thermal stability, chemical inertness, and high ...
In this paper, we report a simple technique for making bulk Si-based ceramics from polymeric precurs...