1) strengthened sintering technology
强化烧结工艺
2) sintering process
烧结工艺
1.
Influence of sintering process on the cutting and welding performance of diamond saw blade;
烧结工艺对金刚石锯片切割性能和焊接性能的影响
2.
Research on hot-press sintering process of N type thermoelectric materials ZnO;
N型热电材料ZnO热压烧结工艺研究
3.
Study on sintering process of P/M M42 high speed steel prepared by spark plasma sintering
SPS烧结M42粉末高速钢的烧结工艺研究
3) sintering technology
烧结工艺
1.
Study on the sintering character of iron ore and the optimization of sintering technology;
唐钢铁矿石烧结性能研究及烧结工艺优化
2.
Research on the sintering technology of the PZT piezoelectric ceramic filter;
PZT压电陶瓷滤波器的烧结工艺研究
3.
The sintering technology,mechanical properties and microstructures of Mo5Si3/MoSi2 with and without La2O3 were investigated.
通过粉末冶金方法制备了Mo5Si3/MoSi2和La2O3/Mo5Si3/MoSi2复合材料,探讨了其烧结工艺。
4) sintering
['sintəriŋ]
烧结工艺
1.
Study on Cathode Sintering Technology in the Process of Electrochemical Reduction of TiO_2;
电化学还原法制备金属钛的阴极烧结工艺研究
2.
The investigation of the sintering process of Al-10Mg binary alloy system was carried out ly use of high-temperature optical microscope,the effects of pressure and heating mode on behavior of binary alloy during sintering were studied.
为改进常规烧结工艺提供了直接的试验依据。
3.
The sintering processes and their effects of sintering processes on microstructure, density and compressive property of the alloy sintered were investigated.
0Cr(%)气雾化预合金粉末为原料,采用注射成形工艺制备了TiAl合金材料,研究了TiAl合金烧结工艺以及烧结工艺对烧结体显微组织、密度和性能的影响。
5) sintering technique
烧结工艺
1.
Study on sintering technique of NiFe_2O_4/SiC_w used as matrix of inert anodes;
SiC晶须增强NiFe_2O_4基惰性阳极材料烧结工艺研究
2.
Strontium barium niobate/barium strontium titanate(BSTN in short) was prepared through a modified sol-gel technique,by controlling the ratios of different components in the sol solution to suspend the fine strontium barium niobate powders(SBN in short)which was made beforehand by traditional ceramic sintering technique.
本文以钛酸四丁酯等配制溶胶前驱体溶液,通过控制前驱体溶液中各组分的配比成功制备了粘稠的溶胶溶液,以悬浮传统固相烧结工艺制备的微米级铌酸锶钡陶瓷粉体,在超声分散等的作用下形成均匀凝胶,最后成功制备出复相陶瓷坯体。
3.
In this paper, the influence of different sintering technique on mechanical properties and microstructure of CNTs/HAp composite was studied.
本文主要研究了不同烧结工艺对碳纳米管 /羟基磷灰石复合材料力学性能与微观结构的影响。
6) sintering processing
烧结工艺
1.
The influence of ferrite particle agglomerating state and sintering processing on the microstructure and grain growth was studied in this paper.
研究了NiCuZn 铁氧体颗粒聚集状态以及烧结工艺对晶粒生长与微结构的影响。
2.
In this paper, the influence of sintering processing on MnZn ferrite was investigated.
在高频低损耗的功率铁氧体材料的制备过程中,烧结工艺是决定材料性能的关键因素之一。
补充资料:强化烧结
分子式:
CAS号:
性质:又称活化烧结或强化烧结。通过添加物的作用,使反应与烧结同时进行的一种烧结方法。此法与普通烧结法比较,有如下两个主要特点:(1)提高制品质量,烧成的制品不收缩,尺寸不变化;(2)反应速度快,传质和传热过程贯彻在烧结全过程。普通烧结法物质迁移过程发生在坯体颗粒与颗粒的局部,反应烧结法物质迁移过程发生在长距离范围内。分为液相反应烧结和气相反应烧结两类。采用前一类的居多。例如,烧结氧氮化硅坯件时添加硅、二氧化硅和氟化钙(或氧化钙、氧化镁等,玻璃相形成剂)同氮反应生成二氮氧化二硅(Si2ON2),氧化钙、氧化镁等同二氧化硅形成玻璃相,氮溶解在焙融体(玻璃相)中;Si2ON2,晶体从被氮饱和的玻璃相中析出。这样制出的氧氮化硅的密度可相当于理论密度90%以上。
CAS号:
性质:又称活化烧结或强化烧结。通过添加物的作用,使反应与烧结同时进行的一种烧结方法。此法与普通烧结法比较,有如下两个主要特点:(1)提高制品质量,烧成的制品不收缩,尺寸不变化;(2)反应速度快,传质和传热过程贯彻在烧结全过程。普通烧结法物质迁移过程发生在坯体颗粒与颗粒的局部,反应烧结法物质迁移过程发生在长距离范围内。分为液相反应烧结和气相反应烧结两类。采用前一类的居多。例如,烧结氧氮化硅坯件时添加硅、二氧化硅和氟化钙(或氧化钙、氧化镁等,玻璃相形成剂)同氮反应生成二氮氧化二硅(Si2ON2),氧化钙、氧化镁等同二氧化硅形成玻璃相,氮溶解在焙融体(玻璃相)中;Si2ON2,晶体从被氮饱和的玻璃相中析出。这样制出的氧氮化硅的密度可相当于理论密度90%以上。
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