Assessment of results of determinations of free silicon in self-bonded silicon carbide by chemical analysis and the evaporation method

1984 ◽  
Vol 23 (10) ◽  
pp. 794-795
Author(s):  
�. Ya. Vinokur ◽  
Yu. P. Dyban'
Keyword(s):  
Silicon Carbide ◽  
Chemical Analysis ◽  
Evaporation Method ◽  
Free Silicon

Bulk and epitaxial growth of micropipe-free silicon carbide on basal and rhombohedral plane seeds

2008 ◽  
Vol 245 (7) ◽  
pp. 1257-1271 ◽  
Author(s):  
B. M. Epelbaum ◽  
O. Filip ◽  
A. Winnacker
Keyword(s):  
Silicon Carbide ◽  
Epitaxial Growth ◽  
Free Silicon

Codeposition of Free Silicon during CVD of Silicon Carbide

1995 ◽  
Vol 78 (1) ◽  
pp. 229-232 ◽  
Author(s):  
Jacob Yeheskel ◽  
Mordecai S. Dariel
Keyword(s):  
Silicon Carbide ◽  
Free Silicon

Development of Al-Cu-Fe Quasicrystal-Poly(p-phenylene sulfide) Composites

2000 ◽  
Vol 643 ◽  
Author(s):  
Paul D. Bloom ◽  
K.G. Baikerikar ◽  
James W. Anderegg ◽  
Valerie V. Sheares
Keyword(s):  
Silicon Carbide ◽  
Wear Resistance ◽  
Chemical Analysis ◽  
Fold Increase ◽  
Reinforced Composites ◽  
Volume Loss ◽  
Third Body ◽  
Wear Properties ◽  
X Ray ◽  
Phenylene Sulfide

AbstractQuasicrystalline Al-Cu-Fe powders were used as a novel filler material in poly(p-phenylene sulfide) (PPS). These polymer/quasicrystal composites showed useful properties that may be beneficially exploited in applications such as dry bearings and composite gears. Al-Cu-Fe quasicrystalline filler significantly improved wear resistance to volume loss in polymer-based composites. In addition to improving the composite wear resistance, the Al-Cu-Fe filler showed low abrasion to the 52100 chrome steel counterface. Furthermore, mechanical testing results showed a two-fold increase in the storage modulus of the reinforced composites compared with the polymer samples. In addition, the Al-Cu-Fe filler was compared to its constituent metals, aluminum oxide, and silicon carbide in PPS. Chemical analysis of the wear interface by X-ray spectroscopy indicated the generation of a third body oxide layer during wear. The fabrication in addition to the thermal, mechanical, and wear properties of these unique materials is described.

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