1) spheronization
滚圆
1.
Progress in extrusion-spheronization process for preparation of pellets;
挤出-滚圆制微丸工艺的进展
2.
The extrusion-spheronization is found its application in preparin g Chinese medical pellets.
方法:用挤出滚圆制粒法制备微丸,并考察微丸的部分物理性质。
2) tapered roller
圆锥滚子
1.
Discussion on machining technology for spherical fiducial surface of tapered roller;
圆锥滚子球基面加工工艺的探讨
2.
Study of generatrix shape of tapered roller processed with centerless grinding;
圆锥滚子无心磨削母线形状的探讨
3.
Improvement of regulation wheel guiding surface during tapered rollers outer surface grinding;
圆锥滚子外径表面磨削时导轮制导面的改进
3) Extrusion-spheronization
挤出滚圆
1.
Extrusion-spheronization granulation expert system;
挤出滚圆法造粒专家系统
2.
Preparation of trimebutine maleate gastric mucoadhesive microspheres by the extrusion-spheronization method;
挤出滚圆法制备马来酸曲美布汀胃黏附微球
3.
Methods:The uncoated dirithromycin pellets were prepared by extrusion-spheronization method and the processing parameters were optimized by orthogonal design.
方法:以挤出滚圆法制备载药素丸,采用正交设计法优化处方和制备工艺参数;用流化床对载药素丸进行包衣,并以体外溶出释放度和杂质限量为控制指标,对包衣液处方进行优化。
5) fillet rolling
圆角滚压
1.
Considering the deformation during the engine crankshaft fillet rolling,theories for changeably load rolling are put forward.
分析曲轴圆角滚压的强化机理,考虑加载过程中存在的塑性变形,提出变力滚压,并加以探讨分析。
2.
The fatigue strength can greatly be improved by the method of the eng ine crankshaft fillet rolling, but the deformation may be produced at the same t ime.
发动机曲轴圆角滚压可以极大地提高曲轴的疲劳强度 ,但滚压后会产生变形 ,传统的弯曲力校直方法会降低由滚压所产生的压应力。
3.
The fillet rolling processing parameters of two types of crankshafts af ter semi-finish machining were investigated and their bending fatigue limits w ere measured.
对两种型号曲轴的半精加工圆角滚压工艺和疲劳强度进行了研究,结果表明,选择合 适的精磨余量和滚压工艺参数,曲轴疲劳强度可提高 175%左右,圆角处疲劳极限应力达 5 52~ 605 N/mm2,曲轴的疲劳强度较之精磨后滚压没有下降。
6) extrusion/spheronization
挤出滚圆
1.
Method: EPC was filled with the pellets prepared byextrusion/spheronization with microcrystalline cellulose(MCC),ethylcellulose(EC) and stearic acid as framework.
方法:,以微晶纤维素(MCC)、乙基纤维素(EC)、硬脂酸为骨架,采用挤出滚圆法制备格列齐特缓释微丸,填充胶囊。
补充资料:滚圆
非常圆:腰身~的母牛丨两只眼睛睁得~~的。
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