Abstract

The deposition rate, phase, chemical composition and microstructure of deposits were determined from 950 to 1100 °C. With increasing temperature, the deposition rate increases, and the morphology changes from smooth to coarse, meanwhile, the concentration of silicon increases while that of boron decreases. The deposition process is controlled by chemical reactions, and the activation energy is 271 kJ/mol. At relatively lower temperature (below 1000 °C), the deposition process is dominated by formation of B4C. While at higher temperature (above 1000 °C), it is governed by formation of SiC. B4C and SiC disperse uniformly in the Si–B–C co-deposition system and form a dense network structure.

Full Text
Paper version not known

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Effects of deposition parameters on characteristics of carbon coatings on optical fibers prepared by thermal chemical vapor deposition
Sham-Tsong Shiue ... Hung-Yi Lin
Surface Technology | VOL. 205
Sham-Tsong Shiue, et. al.Sham-Tsong Shiue ... Hung-Yi Lin
11 Aug 2010
Effects of different acetylene/nitrogen ratios on characteristics of carbon coatings on optical fibers prepared by thermal chemical vapor deposition
Ren-Hung Lee ... Sham-Tsong Shiue
Thin solid films | VOL. 518
Ren-Hung Lee, et. al.Ren-Hung Lee ... Sham-Tsong Shiue
07 May 2010
Fabrication and modification of mixed matrix polyvinylchloride based heterogeneous cation exchange membrane by Ag nanolayer/plasma treatment: investigation of nanolayer deposition rate effect
Akbar Zendehnam ... Sayed Mohsen Hosseini
Journal of Polymer Engineering | VOL. 34
Akbar Zendehnam, et. al.Akbar Zendehnam ... Sayed Mohsen Hosseini
01 Jun 2014
Subatmospheric chemical vapor deposition ozone/TEOS process for SiO2 trench filling
I A Shareef ... D H Kim
Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena | VOL. 13
I A Shareef, et. al.I A Shareef ... D H Kim
01 Jul 1995
View more papers

More From: Journal of Materials Science and Technology

Paper Title
Journal
Date
Author
Oxidation behavior of Ti55 alloy and TiBw/Ti55 composites and antioxidation mechanism of TiBw in composites at 960–1000°C
Guangyu Liu ... Miaoquan Li
Journal of Materials Science and Technology | VOL. -
Guangyu Liu, et. al.Guangyu Liu ... Miaoquan Li
01 Jul 2024
Advances in liquid-solid triboelectric nanogenerators and its applications
Tengfei Xiang ... Shihong Zhang
Journal of Materials Science and Technology | VOL. -
Tengfei Xiang, et. al.Tengfei Xiang ... Shihong Zhang
01 Jul 2024
Exceptional strength paired with increased cold cracking susceptibility in laser powder bed fusion of a Mg-RE alloy
Qingchen Deng ... Wenjiang Ding
Journal of Materials Science and Technology | VOL. -
Qingchen Deng, et. al.Qingchen Deng ... Wenjiang Ding
01 Jul 2024
Inhibition of the intergranular brittleness of HR3C heat-resistant steel by strain-aging induced nano-M23C6 dispersion precipitation
Xuehan Wang ... Lijie Qiao
Journal of Materials Science and Technology | VOL. -
Xuehan Wang, et. al.Xuehan Wang ... Lijie Qiao
01 Jul 2024
View more papers