1) Al2O3/Ni cermet
Al2O3/Ni金属陶瓷
1.
Al2O3/Ni cermet were prepared by hot pressing,and the relationship between their microstructure,mechanical and dielectric properties with Ni particle content were investigated.
以热压烧结的方法制备了Al2O3/Ni金属陶瓷,探讨了Al2O3/Ni金属陶瓷显微结构、力学性能及微波介电性能随Ni粒子含量变化的规律。
2.
Ni coated α-Al2O3 composite microspheres are first synthesized by heterogeneous precipitation coating method, and then Al2O3/Ni cermets are prepared by hot press-sintering of the as-prepared Ni-coated α-Al2O3 powders.
首先采用非均相沉淀包裹法制备金属镍包裹α-Al2O3复合微球粉体,然后采用热压烧结制备了Al2O3/Ni金属陶瓷。
2) Al2O3/Ni nanocermets
Al2O3/Ni纳米金属陶瓷
1.
Al2O3/Ni nanocermets were prepared by the heterogeneous precipitation method and hot-pressing technique.
采用非均相沉淀法和热压工艺制备了Al2O3/Ni纳米金属陶瓷。
3) Al_2O_3/Ni cermet
Al_2O_3/Ni金属陶瓷
1.
The powders were sintered by hot-pressing, and Al_2O_3/Ni cermet obtained.
采用包裹工艺和热压工艺制备了Al_2O_3/Ni金属陶瓷。
4) TiC-Ni cermets
TiC-Ni金属陶瓷
1.
TiC-Ni cermets were prepared by combining forced compaction and self-propagating high-temperature synthesis (SHS).
利用自蔓延高温燃烧合成结合机械压力方法制备了TiC -Ni金属陶瓷 ,研究了TiC-Ni金属陶瓷材料的热膨胀性质随温度和组成的变化关系。
5) TiB 2 Ni ceramet
TiB_2-Ni金属陶瓷
6) TiC-Ni ceramet
TiC-Ni基金属陶瓷
补充资料:氧化铝-铬金属陶瓷
分子式:
CAS号:
性质:氧化铝基添加金属铬制成的金属陶瓷。其性能因加入金属铬的量不同而有所不同。如以70%(质量)氧化铝和30%(质量)铬制成的陶瓷为例。密度4.6~4.65g/cm3;气孔率<0.5。热膨胀系数4.8×10-6/℃(25~800℃)。抗折强度386.5MPa(24℃)。抗拉强度246.2MPa(24℃)。抗热震性良好。抗高温氧化性,到1500℃仍优良。以氧化铝粉70%~90%(质量)和金属铬粉10%~30%(质量)按配比混合均匀,经成型,在高温还原气氛(或惰性气体)中烧结而成。主要用于制作高温金属陶瓷制品和零件、熔炼金属的坩埚、承烧板等。
CAS号:
性质:氧化铝基添加金属铬制成的金属陶瓷。其性能因加入金属铬的量不同而有所不同。如以70%(质量)氧化铝和30%(质量)铬制成的陶瓷为例。密度4.6~4.65g/cm3;气孔率<0.5。热膨胀系数4.8×10-6/℃(25~800℃)。抗折强度386.5MPa(24℃)。抗拉强度246.2MPa(24℃)。抗热震性良好。抗高温氧化性,到1500℃仍优良。以氧化铝粉70%~90%(质量)和金属铬粉10%~30%(质量)按配比混合均匀,经成型,在高温还原气氛(或惰性气体)中烧结而成。主要用于制作高温金属陶瓷制品和零件、熔炼金属的坩埚、承烧板等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条