1) fracture toughness
破碎韧性
2) crushing
破碎
1.
Establishment of Crushing Theory of Air Striking and Its Industrial Practice in Fine Breaking of Hard Rock;
空中打击破碎理论的建立和在硬岩细碎中的工业实践
2.
Hierarchical multi-scale discrete particle model and crushing simulation;
离散颗粒多尺度分级模型与破碎模拟
3.
Contrasts of Numerical Simulation s about Talc Crushing Process;
滑石破碎过程数值模拟的对比
3) breaking
破碎
1.
The study on releasing adenosylmethionine by breaking yeast;
破碎酵母释放腺苷蛋氨酸的研究
2.
Experimental research on vibration removing and breaking of cobalt-rich crusts;
富钴结壳振动剥离破碎的实验研究
3.
Selection of breaking equipment for Jiangkou artificial aggregate system and architecture comparison;
江口人工砂石系统破碎设备选型及工艺比较
4) breakup
破碎
1.
Study on the Mechanism of Liquid Jet Breakup under Heating Conditions;
加热条件下液体燃料射流破碎机理的研究
2.
The Study of Breakup Scale of Liquid Sheets under Heating Conditions;
加热条件下液膜射流破碎尺度影响因素的研究
3.
Breakup of a Liquid Jet with High Speed at Its Initial Stage;
高速液体射流初始阶段的破碎
5) breakage
破碎
1.
Problem of corn breakage in bulk grain port handling systems;
玉米在港口散粮装卸中的破碎问题
2.
Irrational drying conditions would lead to crack of rice,increasing sensitivity of breakage and lowering percentage of head rice during milling.
不合理的干燥条件导致稻谷出现裂纹,破碎敏感度增大,碾米时整米率降低。
3.
According to the characteristics of the heat and mass transfer for large carbon particles in fluidized bed, deduced the distribution of the thermal stress in the large carbon particles and developed a thermal stress breakage theory for large carbon particles during combustion in fluidized bed.
根据大颗粒炭在流化床中的传热和燃烧的特点,推导出大颗粒炭内部产生的热应力分布,提出大颗粒炭热应力破碎理论。
6) fragmentation
破碎
1.
The Plain analysis and solution on the fragmentation of corn in Northeast China;
东北地区玉米破碎原因及解决措施
2.
Remote sensing of forest landscape fragmentation on Changbai Mountain;
长白山森林景观破碎的遥感探测(英文)
3.
A numerical study on liquid ring motion and fragmentation for the initial process of liquid explosive dispersal;
液体爆炸抛撒初期液环运动、破碎的数值研究
参考词条
补充资料:超韧性聚甲醛
分子式:
CAS号:
性质:又称超韧性聚甲醛。多采用机械共混法制备。一般需要在高剪切力的双螺杆挤出机或密炼机中进行。它具有如下特性:(1)韧性高,改共混物的缺口冲击强度为聚甲醛(POM)的7倍,无缺口冲击强度为POM的30倍,而且比PC高10倍;(2)吸湿性小,从而保证了制品的尺寸稳定性;(3)耐溶剂性、耐应力开裂性优于PC。以100ST为例,密度1.34g/cm3,拉伸强度46MPa,断裂伸长率200%,弯曲模量1.41GPa,热变形温度(1.86MPa负荷)90℃,悬臂梁缺口冲击强度940J/m。适于制造汽车、农业机械、电器、机械、建筑、运输和精密仪器的零部件等。
CAS号:
性质:又称超韧性聚甲醛。多采用机械共混法制备。一般需要在高剪切力的双螺杆挤出机或密炼机中进行。它具有如下特性:(1)韧性高,改共混物的缺口冲击强度为聚甲醛(POM)的7倍,无缺口冲击强度为POM的30倍,而且比PC高10倍;(2)吸湿性小,从而保证了制品的尺寸稳定性;(3)耐溶剂性、耐应力开裂性优于PC。以100ST为例,密度1.34g/cm3,拉伸强度46MPa,断裂伸长率200%,弯曲模量1.41GPa,热变形温度(1.86MPa负荷)90℃,悬臂梁缺口冲击强度940J/m。适于制造汽车、农业机械、电器、机械、建筑、运输和精密仪器的零部件等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。