1) Foam ceramic
泡沫陶瓷
1.
The Preparation of Foam Ceramic as Immobile Cell Carrier;
细胞固定化载体泡沫陶瓷的制备
2.
The Influence of Sintering Craft on the Compressive Strength of Mullite Crystal Toughening Foam Ceramic
烧成工艺对莫来石增韧泡沫陶瓷强度的影响
3.
The Growth of Mullite Crystal Toughening Foam Ceramic
莫来石晶体增韧泡沫陶瓷中晶体的生长过程
2) foam ceramics
泡沫陶瓷
1.
Hydrodynamic performance and mass transferefficiency of foam ceramics ring packing;
泡沫陶瓷环形填料的流体力学和传质性能
2.
Preparation of moissanite composites foam ceramics filters used in production of soft magnetic alloys;
净化软磁合金用碳化硅质泡沫陶瓷过滤器的研制
3.
The experiments and mechanism of foam ceramics affecting gas explosion process;
泡沫陶瓷对瓦斯爆炸过程影响的实验及机理
3) ceramic foam
泡沫陶瓷
1.
Effect of Fe_2O_3 on properties of SiC-base ceramic foam filter;
Fe_2O_3对SiC基泡沫陶瓷过滤器性能的影响
2.
Study of the sintered ceramic foam filters for molten steel;
铸钢用泡沫陶瓷过滤器的研制
3.
Effects of the rare-earth abounding with CeO_2 on the mechanical properties, morphology and constitution of phases in the zirconia ceramic foam;
富铈稀土对氧化锆泡沫陶瓷过滤器性能及晶相组织结构的影响
4) ceramic foams
泡沫陶瓷
1.
Deformation behavior of two kinds of ceramic foams made by different methods are investigated by compressive tests.
在压缩条件下研究了两种不同工艺生产(1#自然硬化法和2 #高温烧结法)的泡沫陶瓷压缩破坏行为。
2.
Depending on their nature and structure, ceramic foams have novel and potential applications in industrial fields.
泡沫陶瓷是具有泡沫状结构的一类高孔隙率多孔陶瓷。
3.
Because of the low cost and high efficacy, alumina-mullite ceramic foams has been widely concerned in the industry.
泡沫陶瓷是一种特殊工艺制作的开孔率高达70%~90%并具有三维立体网络骨架结构和贯通气孔的新型多孔陶瓷材料,具有化学性能稳定、强度高、耐高温、抗热震性好、比表面积大等诸多优点。
5) foamed ceramics
泡沫陶瓷
1.
This paper studies the in-situ toughening of the alumina foamed ceramics from the perspectives of percentage of water absorption of biscuits,viscosity of sol and impregnation technique.
从素烧坯体吸水率、溶胶粘度、浸渍工艺三个方面对氧化铝质泡沫陶瓷的原位增韧进行了研究。
6) silicon cabide(SiC) ceramic foam
SiC陶瓷泡沫
补充资料:泡沫陶瓷
分子式:
分子量:
CAS号:
性质:一种多孔而质的陶瓷。如陶粒和轻质砖等。在易熔的粘土等中加入起泡剂如碳酸盐、煤粉、炭粒或木屑等,经混合、成型、干燥、烧成而得。具有高的机械强度和良好的绝热性能。广泛用作轻质建筑材料和隔热材料。
分子量:
CAS号:
性质:一种多孔而质的陶瓷。如陶粒和轻质砖等。在易熔的粘土等中加入起泡剂如碳酸盐、煤粉、炭粒或木屑等,经混合、成型、干燥、烧成而得。具有高的机械强度和良好的绝热性能。广泛用作轻质建筑材料和隔热材料。
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