engineering polymer meaning in English
工程聚合物
Examples
- We are also the world ' s largest producer of acetyl products , including acetic acid , vinyl acetate monomer ( vam ) and polyacetals ( pom ) and a leading global producer of high - performance engineered polymers used in consumer and industrial products and designed to meet highly technical customer requirements
公司是世界上最大的乙酰基产品制造商,产品包括醋酸、醋酸乙烯和聚甲醛,公司在聚合物领域内也具有世界领先地位。 - With engineering polymer - pmma taken as the main researched object and viscoelastic failure considered as the theory basis , the non - linear viscoelasticity and crazing damage phenomena under creep condition in macromolecule material were researched by means of experiment
本文以工程高聚物pmma为主要研究对象,以粘弹性破坏理论为基础,以实验为手段,对高分子材料蠕变条件下的非线性粘弹性性能及其银纹损伤现象进行了初步探讨。 - We are also one of the world ' s largest producer of acetyl products , including acetic acid , vinyl acetate monomer ( vam ) and polyacetals ( pom ) and a leading global producer of high - performance engineered polymers used in consumer and industrial products and designed to meet highly technical customer requirements
公司是世界上最大的乙酰基产品制造商之一,产品包括醋酸、醋酸乙烯和聚甲醛,公司在聚合物领域内也具有世界领先地位。 - It is one of mechanisms of plastic distortion , at the same time it is also the beginning of microcosmic damage and rupture before the macroscopical destroying of materials , it representatives a mid - state between materials " macroscopical rupture and bend , it is considered a premonitory that the rupture of polymer material , which get common attention by scholar inside and outside nation . therefore , the research for engineering polymer in mechanic action of non - linearity destroy such as distortion , destroy and depe nd on time and temperature is valuable in theoretic research and actual application , which offer the important theoretic gist for changing complex material ' s capability and actualize polymer ' s perfect application with high quality of capability in engineering
同时,银纹化和银纹损伤是高聚物特有的一种现象,细观层次的银纹引发、生长和断裂在聚合物损伤断裂的整个过程中起着承前启后的作用,它是沟通宏、微观变形机制的桥梁,是材料塑性变形的机制之一,同时又是材料宏观破坏以前微观上损伤、破坏的开始,它代表材料微观断裂和屈服之间的一个中间状态,可以看作是聚合物材料宏观断裂的先兆,受到国内外学者们的广泛关注。因此,开展工程聚合物变形、破坏以及时间相依和温度依赖性等非线性力学行为研究,探讨聚合物破坏过程中的非线性力学行为,为聚合物及其复合材料的改性、实现聚合物的工程化与高性能化提供重要的理论依据,具有重要的理论研究意义和实际应用价值。