机译:Cu-Al-Mn超弹性合金棒在酸性和碱性环境中的耐化学性
Dept. of Architecture College of Engineering Nihon Univ. Koriyama 963-8642 Japan;
Technology Development Dept. Special Metals Div. Furukawa Techno Material Co. Ltd. Hiratsuka 254-0016 Japan;
Technology Development Dept. Special Metals Division Furukawa Techno Material Co. Ltd. Hiratsuka 254-0016 Japan;
Sony Astani Dept. of Civil and Environmental Engineering Univ. of Southern California Los Angeles CA 90089-2531;
Sonny Astani Dept. of Civil and Environmental Engineering Univ. of Southern California Los Angeles CA 90089-2531;
Sonny Astani Dept. of Civil and Environmental Engineering Univ. of Southern California Los Angeles CA 90089-2531;
Graduate School of Environmental Studies Nagoya Univ. Nagoya 464-8603 Japan;
Cu-AI-Mn; Superelastic alloys; Chemical aging; Acid exposure; Alkaline exposure;
机译:带头端的超弹性Cu-al-Mn合金棒的机械拼接
机译:循环拉伸下多晶Cu-Al-Mn超弹性合金棒的功能疲劳
机译:Cu-Al-Mn超弹性合金棒作为自感材料的可行性
机译:Cu-Al-Mn超弹性合金棒作为自感材料的可行性
机译:在混凝土碱性环境中影响玻璃纤维复合材料棒强度损失的因素。
机译:β-壳聚糖/多胺官能化氧化石墨烯杂化活性蓝221染料在不同酸碱环境下的吸附性能高耐酸碱稳定性
机译:Cu-Al-Mn超弹性合金棒作为自感材料的可行性