摘要
本研究对电弧离子镀方法制备的AlCrNbSiTi高熵合金涂层锆合金开展了1200℃高温蒸汽氧化淬火试验。采用环压方式评估了高熵合金涂层锆合金氧化后的塑性,通过称重、金相、扫描电镜、电子探针、惰气脉冲红外吸收法,探究了锆合金的脆化机理。经过335 s氧化后涂层侧未观察到氧化层,基体氢含量约为100 ppm(同等条件下Zirlo合金约为10 ppm),基体补偿应变大于20%;经过500 s氧化后涂层侧仍未观察到氧化层,基体氢含量约为240 ppm,基体补偿应变小于5%。以上结果表明:高熵合金涂层可有效阻止锆基体的氧化,而锆基体塑性仍然丧失,其原因可能与基体内氢含量的增加有关,需要进一步深入研究。
It is one of the main ideas of developing ATF cladding materials to improve the accident resistance of zirconium alloy by coating.In the existing research on the protection mechanism of the coating on zirconium alloy substrate,the main focus is on the oxidation resistance of the coating.It is often concluded that all kinds of coating can effectively improve the accident resistance of zirconium alloy.But in fact,the embrittlement of zirconium alloy cladding under accident conditions depends not only on the degree of oxidation,but also on the change of hydrogen content in zirconium alloy.The increase of hydrogen content will greatly reduce the plasticity of zirconium alloy under accident conditions.In this study,the high-temperature steam oxidation quenching experiment at 1200℃was carried out on the AlCrNbSiTi high entropy alloy coating zirconium alloy prepared by multi-arc ion plating process.The plasticity of zirconium alloy coated with high entropy alloy after oxidation was evaluated by ring compression.The embrittlement mechanism of zirconium alloy was investigated by weighing,metallography,scanning electron microscope,electron probe X-ray microanalysis and inert gas pulse melting infrared absorption method.After oxidation for 335 seconds,no oxide layer is observed on the coating side,which indicates that the coating can effectively prevent the oxidation of zirconium matrix under this oxidation condition.The result of testing the hydrogen content of the matrix is about 100 ppm(under the same conditions,the Zirlo alloy is about 10 ppm),and the result of testing the offset strain of the matrix is more than 20%,which indicates that the coating can not prevent the hydrogen content in the zirconium alloy matrix from increasing under this oxidation condition,but plays a reverse role.However,100 ppm hydrogen is not enough to reduce the plasticity of high matrix,and oxidation still plays a major role.After oxidation for 500 seconds,no oxide layer is observed on the coating side,which indicates that the coating can still effectively prevent the oxidation of zirconium matrix under this oxidation condition.The result of testing the hydrogen content of the matrix is about 240 ppm(under the same conditions,the Zirlo alloy is about 10 ppm),and the result of testing the offset strain of the matrix is more than 5%.This indicates that the increase of hydrogen content caused by the coating is the main reason for the loss of plasticity of the zirconium alloy matrix.The results show that high entropy alloy coating can effectively prevent the oxidation of zirconium matrix,and the loss of plasticity of zirconium matrix may be due to the synergistic effect of hydrogen embrittlement and oxidation embrittlement.
作者
涂蒙河
胡勇
张宝亮
刘鑫
李燊
王辉
TU Menghe;HU Yong;ZHANG Baoliang;LIU Xin;LI Shen;WANG Hui(China Institute of Atomic Energy,Beijing 102413,China)
出处
《原子能科学技术》
EI
CAS
CSCD
北大核心
2023年第8期1606-1613,共8页
Atomic Energy Science and Technology
关键词
高熵合金涂层
高温蒸汽氧化
吸氢脆化
high entropy alloy coating
high-temperature steam oxidation
hydrogen embrittlement