橡胶回收工业是一个运输较为敏感的行业,对供应网络,手段以及输入费用都有较高要求。
The reclaim rubber industry is freight sensitive commodity, higher demand means wider network of supply sources and higher input costs.
运用神经网络方法,建立了预测橡胶老化性能的计算模型。
The calculation model for predicting rubber aging properties was derived by means of neural network method.
综述了橡胶硫黄硫化网络结构的研究进展,介绍了近年来用于研究网络结构的理论方法和计算方法。
Progress of structural simulation of sulfur vulcanized rubber network is reviewed. It introduces the latest development, theoretical methods and arithmetic methods on network structure studies.
采用序列法制备氢化丁腈橡胶(HNBR)/聚甲基丙烯酸酯互穿聚合物网络(IPN)阻尼材料。
Abstract :Sequential interpenetrating polymer networks(IPNs) based on hydrogenated nitrile rubber(HNBR) and various polyalkyl methacrylates were synthesized.
另外研究了橡胶网络在高速拉伸场下的结晶过程,回答了应变速率对结晶动力学和晶体形态的影响作用。
Additional, the crystallization of natural rubber with high strain rates was investigated to answer the effects of strain rate on the crystallization kinetics and the crystal morphology.
依据BP神经网络系统能够利用人工智能的方法,准确分析多变量非线性系统的特性,采用多层向前BP神经网络系统建立起了橡胶老化预报模型。
Based on characteristics of BP neural network which can precisely analyze multi-variable nonlinear systems using artificial intelligence, in this paper, we proposed model for predicting rubber aging.
硫磺对已经存在的橡胶交联网络进一步进行改性,同时对橡胶分子链也进行改性,在胶粉与胶粉界面上形成硫磺梯度分布。
The sulfur further modifies an existing rubber cross-linked network and rubber molecular chains to form gradient distribution of sulfur on a rubber powder-rubber powder interface.
结果表明:蜂窝结构硅橡胶泡沫材料内部为大小不等但相互连通的开孔网络结构,泡沫与硅橡胶之间无明显界面;
The results showed that the honeycomb laminates had an interlinking open cell structure without remarkable interface between silicone rubber and silicone rubber foam;
水凝胶是一种具有三维网络结构的新型功能高分子材料,以其含水量高、溶胀快、柔软、具有橡胶般的粘稠性和良好的生物相容性等优点得到广泛应用及研究。
Hydrogel was moderate crosslinded, branched polymers, widely studied and applied because of the ability to absorb large quantities of water, swell quickly, soft, elastine and biologic consistence.
水凝胶是一种具有三维网络结构的新型功能高分子材料,以其含水量高、溶胀快、柔软、具有橡胶般的粘稠性和良好的生物相容性等优点得到广泛应用及研究。
Hydrogel was moderate crosslinded, branched polymers, widely studied and applied because of the ability to absorb large quantities of water, swell quickly, soft, elastine and biologic consistence.
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