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中国科学院金属研究所专利:多孔导电MAX相陶瓷及其制备方法和用途
中国科学院金属研究所 专利 多孔导电 MAX相陶瓷
2023/11/16
本发明涉及多孔导电陶瓷,具体为一种具有贯通孔结构的多孔导电MAX相(Ti3SiC2、Ti3AlC2或Ti2AlC)陶瓷及其制备方法和用途。多孔陶瓷孔隙率在20-65%之间可调,且该类陶瓷具有贯通的孔结构,开口气孔率在85%以上。制备方法:以MAX相陶瓷粉为原料,成型后,在气氛炉内无压烧结得到多孔陶瓷,烧结温度1200-1400℃,烧结时间0.5-3小时。无压烧结法制备的具有贯通孔结构的MAX相导电...
中国科学院金属研究所专利:一种湿化学制备MAX相多孔催化剂载体材料的方法
中国科学院金属研究所 专利 湿化学 MAX相 多孔催化剂 载体材料
2023/11/16
本发明涉及湿化学制备MAX相多孔催化剂载体材料的方法,具体为一种通过湿化学的方法制备具有高稳定性的浆料,并利用不同固含量的浆料来制备结构可控的MAX相多孔材料的方法。先制备稳定的MAX相浆料,固相物质含量为5-45vol%,分散剂的含量为固相物质的0.5-5wt%。再将多孔模板材料浸入浆料,浆料干燥后,烧除模板材料获得多孔材料粉坯。多孔材料粉坯烧结后,得到MAX相多孔催化剂载体材料。本发明通过湿化...
中国科学院金属研究所专利:多孔导电MAX相陶瓷极其制备方法和用途
中国科学院金属研究所 专利 MAX相 陶瓷
2023/9/25
中国科学院金属研究所专利:多孔导电MAX相陶瓷极其制备方法和用途
专利名称:球磨制备具有片层结构的纳米MAX相陶瓷粉体或料浆并调控粉体氧含量的方法。
原位探测MAX熔盐反应中的相演变过程取得新进展(图)
原位探测 熔盐反应 相演变过程
2024/1/4
中国科学技术大学国家同步辐射实验室宋礼教授团队联合上海光源开发了原位同步辐射X射线衍射(SRXRD)技术,揭示了MAX材料在熔盐环境下的相演变过程,并提出了通过精确温度和时间调节实现最佳刻蚀的可控合成方法。相关成果以“Operando Exploring and Modulating Phase Evolution Chemistry from MAX to MXenes in Molten Sa...
轻质高强韧高阻尼材料对于促进结构减重、保障安全服役,以及提升减振、吸能、降噪等功能至关重要,在航空航天、精密仪器等领域具有广泛应用前景。金属和陶瓷是工程应用最广泛的两类结构材料,陶瓷具有高模量、高硬度、高热稳定性等优点,但断裂韧性和阻尼偏低,力学性能对缺陷较为敏感,特别是在张应力条件下强度明显减弱。与之相比,金属通常表现出更为优异的延展性和断裂韧性,其中镁和镁合金具有突出的比强度、比刚度和阻尼性能...
近日,中国科学院近代物理研究所科研人员在MAX相材料中氦离子(He)与重离子共同辐照损伤效应研究中获得进展,研究揭示了材料中氦行为与辐照损伤的关系。
Yoffie, David;Max and Doris Starr Professor of International Business Administration in Harvard Business School(图)
Yoffie, David Professor International Business
2011/11/6
Professor David B. Yoffie is the Max and Doris Starr Professor of International Business Administration and Senior Associate Dean, Chair, Executive Education at Harvard Business School. A member of th...
1914年诺贝尔物理得奖主Max von Laue(图)
X-rays crystals
2009/8/24
The Nobel Prize in Physics 1914, Max von Laue, for his discovery of the diffraction of X-rays by crystals.
The Nobel Prize in Physics 1918, Max Karl Ernst Ludwig Planck, in recognition of the services he rendered to the advancement of Physics by his discovery of energy quanta.
The Nobel Prize in Physics 1954, Max Born, for his fundamental research in quantum mechanics, especially for his statistical interpretation of the wavefunction.
The Nobel Prize in Medicine 1962,Max Ferdinand Perutz,for his studies of the structures of globular proteins.
The Nobel Prize in Medicine 1951,Max Theiler,for his discoveries concerning yellow fever and how to combat it. Max Theiler was born on January 30, 1899, in Pretoria, South Africa, one of the four chil...
The Nobel Prize in Medicine 1969,Max Delbrück,for his discoveries concerning the replication mechanism and the genetic structure of viruses. Max Delbrück was born on September 4th, 1906, in Berlin, Ge...
Max Tishler(图)
Max Tishler chemist
2009/5/13
MAX TISHLER WAS AN illustrious scientist, a chemist, who--unlike most of his Harvard associates--elected to join the ranks of industry. After a thirty-two-year career of remarkable scientific producti...