Effect of cryogenic thermal cycling on SiC-modified C/C composites

Abstract: The bonding strength, mechanical properties and high-temperature thermal shock resistance of C/C-SiC composites after undergoing simulated low earth orbit environment including cryogenic thermal cycles (CTCs) between 153 and 393 K for 200 times with high-vacuum state of 1.3 × 10 −3 Pa were investigated. Results of the tests showed that, the bonding strength at coating/substrate interface monotonically decreased as the CTCs increased. After 100 CTCs, the flexural strength of C/C-SiC composites enhanced and the … Show more

“…Moreover, matrix cracks were observed by X radiography. Zhang et al focused on the mechanical properties and high‐temperature thermal shock resistance of composites under thermal cycles between 153 and 393 K for 200 times. Once thermal cycles increase 200 times, the flexural strength will reduce 87.4% of initial strength.…”

Thermal cycling influences on compressive deformations of laminate composites

“…Moreover, matrix cracks were observed by X radiography. Zhang et al focused on the mechanical properties and high‐temperature thermal shock resistance of composites under thermal cycles between 153 and 393 K for 200 times. Once thermal cycles increase 200 times, the flexural strength will reduce 87.4% of initial strength.…”

Thermal cycling influences on compressive deformations of laminate composites