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废旧塑料是一种可回收利用的资源,通过改性可以提高回收再生塑料的性能。本文介绍了废旧塑料的改性再生技术现状及最新进展,并就主要技术、产品及发展趋势提出了建议。 相似文献
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本文介绍了混合废旧塑料不加分炼和分离,通过增容改剂制成新聚合物合金,重新用于高附加值用途的回收技术动向。 相似文献
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废旧塑料的利用及改性 总被引:6,自引:0,他引:6
加强废旧塑料的回收、再生及应用工作,并通过改性提高回收再生塑料的性能,扬长避短扩展其应用领域,是在新世纪中发展塑料工业的一项重要战略.本文介绍了废旧塑料的利用及改性技术现状,并就重点技术与产品及发展趋势提出了自己的看法. 相似文献
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聚甲醛合金的增容改性研究进展 总被引:1,自引:0,他引:1
介绍了不同增容剂增容聚甲醛(POM)/热塑性聚氨酯、POM/丁腈橡胶、POM/凝胶丁腈共聚物、POM/(乙烯/辛烯)共聚物、POM/(乙烯/丙烯/二烯)共聚物、POM/(甲基丙烯酸酯/丁二烯/苯乙烯)共聚物、POM/聚丙烯、POM/高密度聚乙烯合金体系的研究进展,并对其增容效果做了比较。 相似文献
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根据车用塑料存在的问题,阐述了废旧塑料的处理、再生利用、分解产物的利用及其可降解塑料的开发技术;并指出了废弃塑料再生利用的市场前景及环境保护的和谐发展趋向。 相似文献
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为了实现聚碳酸酯(PC)/丙烯腈–丁二烯–苯乙烯塑料(ABS)回收资源的合理化应用,对回收PC/ABS机壳材料进行了增韧及阻燃改性研究。结果表明,回收PC/ABS机壳材料的加工温度越高,性能越差。在回收PC/ABS机壳材料中添加增韧剂能明显提高回收料的韧性,且添加具有增容作用的甲基丙烯酸甲酯–丁二烯–苯乙烯共聚物(MBS)比高胶粉增韧效果更明显,添加5%的MBS后综合力学性能最佳。添加阻燃剂能有效提高回收料的阻燃性能,同时添加十溴二苯乙烷的阻燃效果优于有机磷酸酯类阻燃剂。当添加质量分数5%十溴二苯乙烷时,回收PC/ABS材料的性能最佳,缺口冲击强度为10.9 k J/m~2,同时也可以达到1.6 mm的UL94 V–0级别。 相似文献
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建筑物的兴建与拆除,产生许多建筑废弃物,在当前积极推广再生能源节约环保的前提下,建筑废弃物的再生与利用显得尤为重要.因此本文将两种不同建筑废弃物(红砖、空心砖)作为混凝土粗骨材,通过在不同的粗骨材比、灰水比中,运用坍度试验、抗压强度试验、耐磨试验等方法详加比较,分析得出两种建筑废弃物作为混凝土粗骨材时,不同比例可达到之最佳强度的目的.以便再生混凝土的后期应用与研究提供参考. 相似文献
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为了提高再生混凝土(RAC)的力学性能,将废聚对苯二甲酸乙二酯(PET)塑料瓶剪成纤维条制成纤维再生混凝土(FRRAC)。通过纤维再生混凝土与再生混凝土的坍落度试验和强度试验,研究废PET塑料纤维长度、掺量对再生混凝土基本性能的影响,并进行强度影响因素的显著性分析和混凝土微观结构分析。结果表明:与不掺纤维的再生混凝土相比,纤维再生混凝土的流动性降低,且随废PET塑料纤维掺量、长度的增大而下降;掺PET纤维后,再生混凝土的抗压强度总体上有所提高,劈裂抗拉强度明显大幅提高。对于抗压强度,废PET塑料纤维的掺量影响显著;对于劈裂抗拉强度,纤维掺量、长度及二者交互作用均影响显著。掺PET纤维虽然会引入薄弱的界面过渡区,但适量时可使再生混凝土结构致密。 相似文献
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Carmela Sica Giacomo Scarascia-Mugnozza Pietro Picuno 《Polymer-Plastics Technology and Engineering》2015,54(12):1207-1214
The increased use of plastic material in many different agricultural applications causes high volumes of waste. The mechanical recycling of postconsumption plastic is a suitable system for the recovery of these materials. With the aim of evaluating the mechanical and physical characteristics of plastic bars’ profiles, obtained by recycling different polymeric mixtures of agricultural plastic film. Experimental tests were performed on different blends of heterogeneous material. Bars, made from recycled agricultural plastic film were produced through mechanical recycling, mixed with calcium carbonate, high density polyethylene, ‘densified’ polyethylene from scrap material, wood powder, and glass fibers. 相似文献
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废玻璃和废混凝土是广泛存在的两种固体废弃物,如何对它们进行有效地回收利用越来越受关注.国内外学者对再生混凝土基本性能以及结构性能等方面进行了比较系统的研究,取得了很多可以用于实践的成果;在废弃玻璃应用于混凝土方面,研究了废弃玻璃作为混凝土骨料的基本性能,近年来进行了将废弃玻璃粉作为辅助胶凝材料替代部分水泥的研究.本文通过对比分析废弃混凝土应用于混凝土中和废弃玻璃应用于混凝土中的研究成果,表明废玻璃和废混凝土两种固体废弃物进行综合利用生产再生混凝土具有一定的可行性. 相似文献
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研究了废旧塑料改性沥青相容性方面的问题,指出了废旧塑料作用于沥青改性的潜在价值,在当前技术条件支持下,对常见的沥青聚合物改性剂类型及其改性效果进行了阐述,最后分析了影响废旧塑料改性沥青相容性的主要因素,可在今后的工作中进一步研究与论证。 相似文献
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《国际聚合物材料杂志》2012,61(8):797-805
Polymer-based composite structures have advantages over many other materials. The most important advantage is the higher mechanical properties obtained from the composites when supported by fiber reinforcement. The mechanical and thermal properties of fiber-reinforced composite structures are affected by the amount of fibers in the structures, orientation of the fibers and fiber length. Silk and cotton fibers are used in many fields but especially in clothing and textiles. However, there is not enough research on their usage as reinforcement fibers in composite structures. Silk fibers as a textile material have better physical and mechanical properties than other animal fibers. The improvement of the mechanical and physical properties of the composite structures allows them to be used in many areas. From economical, technological and environmental points of view, the improvement of mechanical and physical properties of polymeric materials are receiving much attention in recent studies. In this study, different application areas were chosen to evaluate the waste silk and waste cotton rather than classic textile applications. Waste silk and cotton and recycled polycarbonate polymer were mixed and as a result composite structures were obtained. Silk and cotton waste fiber dimensions were in between 1 mm, 2.5 mm and 5 mm. The recycled PC/silk and cotton wastes were mixed in the rates of 97%/3%. Mixtures were prepared by twin-screw extruder. Tensile strength, % elongation, yield strength, elasticity modulus, Izod impact strength, melt flow index (MFI), heat deflection temperature (HDT) and Vicat softening temperature properties were determined. To determine the materials' thermal transition and microstructure properties, differential scanning calorimetry (DSC) and scanning electron microscopy (SEM) were used. 相似文献
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