1) SPS in-situ synthesis
SPS原位反应
3) in-situ reaction
原位反应
1.
Preparation of polyester/nano-ZnO composites by in-situ reaction;
原位反应合成聚酯/纳米氧化锌复合材料
2.
Fabrication of Al_2O_3-TiC/Al Composites by In-situ Reaction;
原位反应法制备Al_2O_3-TiC/Al复合材料
3.
In-situ reaction and phase composition design of monolithic refractories;
不定形耐火材料中的原位反应与相组成设计
4) in situ reaction
原位反应
1.
The room and elevated temperature mechanical properties,and fracture mechanism of the composites fabricated by in situ reaction method in the Al-TiO2-C system were studied.
讨论了Al-TiO2-C反应系原位反应合成铝基复合材料的常温和高温拉伸性能及其断裂机理。
2.
The TiN/Al2O3 composites were synthesized by in situ reaction using Al and TiO2 as starting materials,which were high energy milled and hot pressed.
结果表明:在球磨过程中粉料吸附并溶解了N2气,在后续热处理中原位反应形成了Ti2AlN相,当温度升高到一定程度时分解形成TiN,这有助于材料的致密化并使其力学性能提高。
3.
VCp/Fe composite was produced by in situ reaction,studied the influence of heat treatment on its structure and properties.
通过原位反应法制备了VCp/Fe复合材料,研究了热处理对其组织和性能的影响。
5) in situ
原位反应
1.
This paper aims at the request properties of the bricks for cement kiln, MgO-FeAl_2O_4 material was prepared in situ using metal Fe as main ferreous raw material, the condition of hercynite formed in situ, the preparation and the properties change laws of MgO-FeAl_2O_4 material under different condition were investigated.
本文针对新型干法水泥窑烧成带用耐火材料的要求,利用金属铁作为主要铁源原位反应生成铁铝尖晶石制备MgO-FeAl_2O_4材料,研究了铁铝尖晶石的原位生成条件及不同条件下MgO-FeAl_2O_4材料的性能变化规律。
6) in situ synthesis
原位反应
1.
Microstructure and mechanical properties of SiC_p/MoSi_2 composites prepared by in situ synthesis and hot-pressing;
原位反应热压SiC_p/MoSi_2复合材料的组织与性能
2.
In situ synthesis preparing methods of Metal Matrix Composites;
金属基复合材料的原位反应制备方法
3.
TiC_P/PH5-7Mo stainless steel composite was fabricated by the technique of in situ synthesis in high temperature melt of steel.
采用熔铸过程中的原位反应合成工艺方法,制备了TiCp/PH15-7Mo(0Cr15Ni7Mo2Al)钢基复合材料。
补充资料:原位反应
分子式:
CAS号:
性质:指在实际反应条件下进行的反应。为了解实际反应条件下催化剂的物化性能及催化机理等信息,发展了多种原位反应的检测技术,如原位红外光谱等,以克服许多大型物理化学分析仪器原配置难以进行原位反应检测的缺点。
CAS号:
性质:指在实际反应条件下进行的反应。为了解实际反应条件下催化剂的物化性能及催化机理等信息,发展了多种原位反应的检测技术,如原位红外光谱等,以克服许多大型物理化学分析仪器原配置难以进行原位反应检测的缺点。
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