摘要
根据d-电子合金理论研究了合金系统Ni-16Cr-9A1-2W-1Mo-4Co-Ti-Ta-Nb(at.-%)的热腐蚀行为。选择了最佳成分范围内的4种成分进行单晶生长及性能评价。确定了性能匹配最佳的合金成分(at.-%)为:Ni-16Cr-9A1-2W-1Mo-4Co-3.125Ti-0.875Ta。完成了整个合金设计过程.该合金抗热腐蚀能力达到或超过IN738LC,使用温度比IN738LC高70-90℃,其持久强度达到CMSX-2的水平,试验证明d-电子合金设计理论可以用于研制开发高性能抗热腐蚀单晶镍基高温合金.
A study of the hot corrosion behaviour of the alloy system Ni-16Cr-9A1-2W-1Mo-4Co-Ti-Ta-Nb (in at. -%) selected by the d-electrons alloy design theory was conducted. At the same time, four experimental compositions were selected in the optimum compositional ranges to characterize the single crystal growth behaviour and properties.Finally, the compositions of an alloy with the desired balance of the comprehensive properties was determined as Ni-16Cr-gA1-2W-1Mo-4Co-3.125Ti-0.875Ta(at. - %). This alloy satisfies the alloy design requirements fairly good, i.c., it shows the hot corrosion resistance at the same or higher level of IN 738 LC, while the service temperature capability 70-90℃ higher than IN 738 LC. The stress rupture strength of this alloy reaches the level of the single crystal alloy CMSX-2 which contains much less Cr content, and is the highest among the current hot corrosion resistant nickel-base superalloys. The results of this study show the effectiveness and feasibility of applications of the d-electrons alloy design concept to the design and development of hot corrosion resistant nickel-base superalloys.ZHANG Jishan, associate professor,(Department of Materials Science and Engineering,Univeristy of Science and Technology Beijing, Beijing 100083)
出处
《金属学报》
SCIE
EI
CAS
CSCD
北大核心
1994年第2期A070-A078,共9页
Acta Metallurgica Sinica
基金
国家自然科学基金
关键词
抗热腐蚀
镍基合金
耐热合金
d-electrons alloy design
hot corrosion resistant alloy
single crystal superalloys
hot corrosion process
