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在参考金属磨削过程动态模型以及对墙地砖磨边机磨削过程分析折基础上,建立了磨边机磨削数学动态模型。该模型反映了砖的形态等因素与磨削力的关系,并提出了改进磨边机磨削质量的途径。 相似文献
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周集义 《化学推进剂与高分子材料》1993,(2)
对粘合剂的分子结构和固体推进剂的力学以及流变性能之间的关系进行了研究.由发动机中药住的操作条件对推进剂力学性能的要求以及已有的加工技术对药浆流变性能的限制出发.反推得出固体推进剂粘合剂理想的分子结构.结构和加工要求是由三种类型的火箭发动机的应用要求决定的:航天转运、运载火箭和弹道导弹以及空对空战术导弹.考虑了可满足这些应用要求的三种一般的配方.除假想的全粘合剂推进剂外,还包括传统的复合和硝酸酯增塑的推进剂配方.对这三类中的各种配方按分子量、交联密度、溶解度参数、链的刚硬性、单体的摩擦系数、填充物的体积分数和增塑剂的体积分数确定了各种聚合物的分子特性.10个聚合物粘合剂系统的特性数据说明了它们的分子结构如何影响制得的推进剂的性能. 相似文献
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通过对目前物理化学教材内容和讲授模式的分析,针对在概念著述和课堂讲授中存在的误区,结合物理化学家吉布斯的启发式教学典故,本文构建一种"立足客观自然、环环相扣启发"的概念教学模式,以"焓"概念的讲授为例,化抽象为直观,收了良好的教学效果。启发式模式对当前物理化学的概念教学有重要的参考价值。 相似文献
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在国外学习艺术玻璃这几年,谈起彩色玻璃镶嵌,自然会联想到欧洲教堂里的彩色玻璃窗。它是中世纪教堂装饰的一种独特方法,主要盛行于罗马式、哥特式和拜占庭式建筑。前两种建筑的窗户多而大,几乎布满整个建筑立面,便于采光。 相似文献
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丁二酸酐的化学简式是C4H4O3丁二酸酐是医药、染料、涂料的主要原材料,同时还是重要的药物和化学试剂成分,另外丁二酸酐可以用于生胃酮、琥珀酸胺噻唑的生产,并且可以广泛的应用于树脂的合成和制备。目前工业上对丁二酸酐的制备主要有以下两种方法:第一种方法就是对顺丁烯二酸酐的直接催化加氢法。现在对顺丁烯二酸酐直接催化加氢的生产工艺流程研究的比较广泛,特别是对丁二酸酐生产工艺中的热力学以及探索新的催化研究体系等方面的研究更为广泛;第二种方法就是直接对丁二酸进行脱水。第二种方法的主要优点就在于它对环境污染较小且不使用苯类溶剂,所以国内外很多丁二酸酐生产厂家都普遍采用第二种方法。 相似文献
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根据1997年7月~1998年6月国内期刊上有关有机硅的文献资料,综述了有机硅单体、硅橡胶、硅油、硅树脂等方面的技术进展。 相似文献
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国外有机硅的产品及消费构成 总被引:1,自引:0,他引:1
根据SRI Internationl的“2003年化学经济手册”提供的数据,分析了1998年世界有机硅产品的产量和消费量的地区分布,及美国、欧洲和日本的有机硅的产品和消费构成,以供同行借鉴和参考。 相似文献
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This study reports the results of investigations on blends of silicone rubber and fluororubber based on tetrafluoroethylene/propylene/vinylidene fluoride terpolymer and the effects of replacement of silicone rubber and/or fluororubber in their 50/50 blend by the respective vulcanizate powders of known compositions. To simulate the aging condition of factory wastes, the silicone rubber or fluororubber vulcanizates were aged for 72 h at 200°C and then converted into powder by mechanical grinding. The fluororubber vulcanizate powder (FVP), mostly spherical in shape with average diameter varying between 2 and 10 μm, exists in a highly aggregated state displaying chainlike structures that, however, break down during blending with virgin rubbers. The silicone rubber vulcanizate powder (SVP) is irregular in shape, with larger particles in the range of 30–100 μm, and the smaller particles exist in highly aggregated chainlike structures, as in the case of FVP, which break down during milling to mostly spherical particles of 2–10 μm in diameter. Measurements of physical properties reveal that the blends of silicone rubber and fluororubber are technologically compatible. SEM photomicrographs of THF‐etched samples show the biphasic structure of the blends, in which the fluororubber forms the dispersed phase in a continuous silicone rubber matrix of lower viscosity. Replacement of silicone rubber in the 50/50 silicone rubber/fluororubber blend by its vulcanizate powder (SVP) increases the Mooney viscosity, but replacement of fluororubber in the blend by its vulcanizate powder (FVP) has little effect on the Mooney viscosity. Monsanto rheometric studies reveal that replacement of silicone rubber by SVP or fluororubber by FVP in the 50/50 silicone rubber/fluororubber blend increases the minimum rheometric torque but decreases the maximum torque, and the effect is more pronounced in the case of SVP. Furthermore, the replacement of silicone rubber in the blend by SVP causes a decline in the physical properties (25% replacement causing about 10% decline in properties, for example), whereas even 75% replacement of fluororubber by FVP has little effect on the physical properties. When both silicone rubber and fluororubber are partially replaced by SVP and FVP in the same blend, properties of the resulting blend composition are controlled more by SVP incorporation, whereas fluororubber replacement has only a marginal effect on blend properties. It is evident from dynamic mechanical spectra that the blends are immiscible in all compositions and addition of SVP or FVP does not affect the glass–rubber transitions of the constituent polymers. © 2001 John Wiley & Sons, Inc. J Appl Polym Sci 82: 2326–2341, 2001 相似文献