Oxidative Ablation Behavior of W‐Coated C/C Composites Prepared by Chemical Vapor Deposition with Heat Treatment

Abstract: The ORCID identification number(s) for the author(s) of this article can be found under https://doi.org/10.1002/adem.202201781.

“…In all the nanoscale structures of ceramic materials, the one-dimensional structure with a large aspect ratio, with the advantages of high surface area, low density, excellent mechanical properties and multifunctionality, is one of the main structures of ceramic materials with flexibility. Among the various preparation processes, electrospinning, 17–19 blow spinning, 16,20 chemical vapor deposition (CVD) 21,22 and atomic layer deposition (ALD) 23,24 are suitable options to accomplish this task. For example, a large-area flexible TiO 2 nanofiber network is prepared by the extended electrospinning method, and the flexible pressure sensor based on the ceramic network can withstand high temperatures up to 370 °C.…”

“…Among the various preparation processes, electrospinning, [17][18][19] blow spinning, 16,20 chemical vapor deposition (CVD) 21,22 and atomic layer deposition (ALD) 23,24 are suitable options to accomplish this task. For example, a large-area flexible TiO 2 nanofiber network is prepared by the extended electrospinning method, and the flexible pressure sensor based on the ceramic network can withstand high temperatures up to 370 °C.…”

A flexible precontact CNT-Al₂O₃ fiber sensor resistant to extreme temperatures

“…In all the nanoscale structures of ceramic materials, the one-dimensional structure with a large aspect ratio, with the advantages of high surface area, low density, excellent mechanical properties and multifunctionality, is one of the main structures of ceramic materials with flexibility. Among the various preparation processes, electrospinning, 17–19 blow spinning, 16,20 chemical vapor deposition (CVD) 21,22 and atomic layer deposition (ALD) 23,24 are suitable options to accomplish this task. For example, a large-area flexible TiO 2 nanofiber network is prepared by the extended electrospinning method, and the flexible pressure sensor based on the ceramic network can withstand high temperatures up to 370 °C.…”

“…Among the various preparation processes, electrospinning, [17][18][19] blow spinning, 16,20 chemical vapor deposition (CVD) 21,22 and atomic layer deposition (ALD) 23,24 are suitable options to accomplish this task. For example, a large-area flexible TiO 2 nanofiber network is prepared by the extended electrospinning method, and the flexible pressure sensor based on the ceramic network can withstand high temperatures up to 370 °C.…”

A flexible precontact CNT-Al₂O₃ fiber sensor resistant to extreme temperatures