Department of Materials Science and Engineering and Chemical Engineering, University Carlos III, Madrid, Spain;
Institute for Ceramic and Glass, CSIC, Madrid, Spain Hispano Italiana de Revestimientos, S.A. Santander, Spain;
Department of Materials Science and Engineering and Chemical Engineering, University Carlos III, Madrid, Spain;
Department of Materials Science and Engineering and Chemical Engineering, University Carlos III, Madrid, Spain;
Institute for Ceramic and Glass, CSIC, Madrid, Spain;
机译:105064碳添加对Ti(C,N)-feni金属丝的微观结构和小规模硬度的影响
机译:FeNi_3亚微米球和SiO_2 @ FeNi_3核-壳结构的微波吸收特性
机译:烧结温度和纳米Ti(C,N)对低Ni-Co的Ti(C,N)金属陶瓷切削刀具材料的组织和力学性能的影响
机译:用于金属膜处理的TI(C,N)-FE / NI / FENI核心壳结构
机译:通过热机械加工改善纳米结构的Ti-Ni形状记忆合金的功能性能。
机译:Ti / FeNi 6 / Ti / Cu / Ti / FeNi / Ti 6纳米结构多层元件在宽频率范围内的铁磁共振参数的角度依赖性
机译:Ti / Feni 6 / Ti / Cu / Ti / Ti / Ti / Ti / Feni / Ti 6纳米结构多层元素在宽频率范围内的角磁性依赖性的角度依赖性
机译:100×100组相对协方差矩阵exp 46 Ti(N,p),exp 58 Ni(N,p),exp 58 Ni(N,2N),exp 56 Fe(N,p),exp 47 Ti(N, Np),exp 47 Ti(N,p),exp 48 Ti(N,Np),exp 48 Ti(N,p)。将Greenwood的能量结构用于REaL-80