模拟燃烧环境介质和温度对不锈钢表面氧化物形态的影响研究
谢冬柏1(
), 洪昊2, 王文3, 彭晓1, 多树旺2
), 洪昊2, 王文3, 彭晓1, 多树旺2
Oxidation Behavior of Stainless Steel 1Cr11Ni2W2MoV in a Simulated Kerosene Combustion Environment
XIE Dongbai1(), HONG Hao2, WANG Wen3, PENG Xiao1, DUO Shuwang2
), HONG Hao2, WANG Wen3, PENG Xiao1, DUO Shuwang2
图4. 试样在800 ℃热空气和煤油燃烧气氛中氧化不同时间后的表面宏观形貌
Fig.4. Surface morphologies of the samples after oxidation at 800 ℃ in air (a~e) and in air-kerosene (f~h) for 0 min (a), 15 min (b, f), 30 min (c, g), 45 min (d, h) and 1 h (e) (the linishing marks on samples' surface formed when the samples were picked up by using a tweezer)
