Synthesis and characterisation of star polymer/silicon carbide nanocomposites

A~tract--This work relates to a novel silicone and silicon carbide copolymer prepared by copolymerizing a cyclic or polycyclic non-conjugated diene with polysiloxane or dihydrosilyl hydrocarbon through the so-called hydrosilation. Norbornadiene, 5-vinyl-[2,2,1]bicyclohept-2 ene and 4-vinylcyclohexen

Abstraet---Organosilane polymers of the type [R t R2Sik were prepared by dechlorination of RI R2SiC12 (R t = CH3; R 2 = H, C2H5, C3H7, C4H9, C6HII, CsHI7 or C6H5) with sodium in toluene as solvent. The polymers were characterized by i.r., NMR and thermal analysis. The decomposition temperature, yiel

1997 mechanical properties, thermal properties mechanical properties, thermal properties D 3000 ## 52 -004 Tensile Creep of Alumina-Silicon Carbide "Nanocomposites". -The tensile creep resistance of Al2O3 is improved dramatically by addition of submicrometer SiC particles. Addition of 5 vol.% of

The surface characteristics of two grades of silicon carbide powders were analyzed and modified with the aim to control and tailor their behaviour in colloidal suspensions. The as-received submicron and nanosized SiC particles were both found to be covered with a thin oxygen-containing layer, compos