The reverse manufacturing technology and biomimetic shope-modified technology was employed to solve the problem of shoe soles adhesion,and its experimental system was designed.
利用逆向制造技术和仿生改形技术探索了鞋底的黏附问题,并设计了试验系统。
The effective factors on the quality of polyurethane shoe sole in the production were analysed.
研究分析了聚氨酯(PU)鞋底生产过程中影响产品质量的主要因素。
Research results on application of a kind of modified by using Yantai Wanhua MDI product-Wannate 8617 in microcellular polyurethane for shoe sole are introduced.
介绍了烟台万华改性MDI产品Wannate 8617在微孔聚氨酯鞋底领域的应用研究结果,考察了密度、硬度以及增强填料对微孔聚氨酯弹性体性能的影响。
Using butadiene nitrile rubber(NBR), ethylene-vinyl acetate copolymer(EVA)and natural rubber as main materials,other compositions being added into,through a series of working procedures,such as masticating,composing,mixing,crosslinking and foaming,terpolymer shoe-sole with microporeis made.
以丁腈橡胶(NBR)、乙酸乙烯共聚物(EVA)和天然橡胶为主要原料,配以其它体系,经素炼、合炼、混炼、交联发泡等工序制得三元共混微孔鞋底。
The design and realization of anti-adhesive testing system of shoe-sole was carried out, using reverse manufacturing technology and computer biomimetic modified design technology.
对比试 验表明:在同样的条件下,某些仿生改形表面的鞋底具有十分明显的减粘脱附效果,降低粘附力最大为8。
The status quo and development of foamed sole material;
发泡鞋底材料研究现状及发展趋势
Comparing with ordinary rubber sole, PU sole is light in weight with better abrasion resistance.
聚氨酯鞋底与普通橡胶鞋底相比,它具有质量轻、耐磨性能好等特点。
The article analyzes and expounds on factors affecting footprint forming from five aspects of slope, physical character of the supported object, sole, walking speed, loaded weight, foot muscles and disguise.
本文从鞋底的物理性能、承受客体的物理性能、负重、伪装以及行走速度五个方面对影响足迹形成的因素进行了分析和论述 ,指出了各自的特点 ,并就分析足迹时如何克服这些因素的影响提出了自己的观点。
Development of polyurethane adhesive for spray-paint of shoes;
鞋底喷漆用聚氨酯胶粘剂的研制
The surface treating agent for rubber shoe sole was synthesized by grafting modification of CR/SBS with methyl methacrylate and acrylic acid.
采用甲基丙烯酸甲酯、丙烯酸接枝改性CR/SBS ,合成橡胶鞋底表面处理剂 ,解决了传统橡胶鞋底粘接强度不大等问题。
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