1) self-disintegrating
自粉
1.
Effect of MgO on leaching and self-disintegrating property of calcium aluminate slag;
MgO对铝酸钙炉渣体系浸出和自粉性能的影响
2.
The phase composition, self-disintegrating property and alumina leaching property of calcium aluminate slag obtained at different temperatures and different holding times were investigated by XRD and laser particle size analyzer when the material ratio of calcium aluminate slag is at the optimum condition.
结果表明,当温度低于1450℃时,炉渣处于固相反应区,反应速度缓慢,并含有相当一部分的难浸物质2CaO·Al2O3·SiO2,降低了炉渣的自粉率和浸出性能。
3.
The effects of C/A(the molar ratio of CaO to Al2O3,excluding the CaO synthesized with SiO2 to form 2CaO·SiO2) and A/S(the mass fraction ratio of Al2O3 to SiO2) on the phase compositions and self-disintegrating behavior were investigated by XRD and a laser particle size analyze.
SiO2之外的n(CaO)/n(Al2O3))和A/S(w(Al2O3)/w(SiO2))对其物相组成和自粉性能的影响。
2) autogenouse pulverization
自粉化
3) automatic powder feeding
自动送粉
1.
With techniques of vibrating focusing beam and automatic powder feeding, a faultless laser cladding layer of Ni based alloy with single track width of 12 mm and thickness of 0.
利用振荡聚焦光束和自动送粉技术 ,获得单道宽 12mm以上、组织致密无缺陷的镍基合金激光熔覆层 ,并对其硬度分布、组织及成分进行了分析和测
2.
On the basis of an analysis on the feeding pattern of the coating material and its behavior in the laser beam during the process of laser coating with automatic powder feeding, a heat equilibrium equation was established and expressions relating the parameters in the process were obtained.
在分析自动送粉式激光熔覆过程中熔覆材料颗粒加入方式及其在激光束中的行为的基础上,建立热平衡方程,推导出反映熔覆过程实际情况的参数:熔覆材料颗粒尺寸、在激光束中运动距离、加热温度、激光功率密度之间的相互关系式等。
4) self powdering
自动涂粉
1.
This article introduces the methods of self detect and control of rapid self powdering and drying programming for the compact fluorescent lamp.
本文介绍了紧凑型荧光灯高速自动涂粉、烘干工艺过程的自动检测与控制方
5) Self-made navel powder
自制脐粉
6) autologous bone powder
自体骨粉
1.
Experimental study of repairing mandibular defect with autologous bone powder;
应用自体骨粉修复下颌骨缺损的实验研究
补充资料:自由粉碎
分子式:
CAS号:
性质:在连续式粉碎机中,为了避免阻塞起见,排料速率必须等于进料速率。如果为闭塞粉碎,部分物料在排料前多次被粉碎,使很多颗粒超过了必需的细度,便造成能量的浪费及粉碎效率的降低,为了避免上述情况,粉碎机的设计及操作,要使其易于将粉碎过的物料及时排出。这样虽可能同时排出过大颗粒,但可将其经过分级,返回粉碎机再进行粉碎。这就是自由粉碎或自由排出粉碎。
CAS号:
性质:在连续式粉碎机中,为了避免阻塞起见,排料速率必须等于进料速率。如果为闭塞粉碎,部分物料在排料前多次被粉碎,使很多颗粒超过了必需的细度,便造成能量的浪费及粉碎效率的降低,为了避免上述情况,粉碎机的设计及操作,要使其易于将粉碎过的物料及时排出。这样虽可能同时排出过大颗粒,但可将其经过分级,返回粉碎机再进行粉碎。这就是自由粉碎或自由排出粉碎。
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