溶液法制备高接枝率HDPE-g-MAH

用溶液法制备了HDPE -g -MAH,并讨论了单体、引发剂用量、反应温度、反应时间、投料方式等因素对产物接枝率的影响。     

台塑公司高密度聚乙烯专用树脂的开发策略

介绍了台湾塑胶工业股份有限公司高密度聚乙烯(HDPE)树脂的生产装置、工艺技术、生产能力、树脂牌号及新产品开发现状,同时阐述了HDPE专用树脂的开发策略。目前,台塑公司HDPE商品牌号台塑烯的产品包括薄膜专用树脂、中空吹塑专用树脂、挤出专用树脂和注塑等用树脂等,并且产品具有单峰、双峰甚至宽峰相对分子质量分布的特性。2006年,台塑公司将调整台塑烯专用树脂的生产比例,强化产品结构而维持一定的营利水平。     

结晶性高聚物作为相变材料的应用

本文研究了结晶性高聚物聚乙烯及其共混物作为相变材料对模拟发热体铜片热量的吸收作用，由于相变的吸热，铜片的温度在一定时间范围内保持在一个定值。选择不同的相变材料，可使这种温度平台出现在不同的温度范围，不共晶的共混物可有两个以上的温度平台，提高了降温效果。     

浅析影响聚乙烯、聚丙烯与聚四氟乙烯粘接性能的因素

对聚乙烯（PE）、聚丙烯（PP）、聚四氟乙烯（PTFE）粘接性能的影响因素进行了综述，分析出其影响因素分别为：分子结构的规整度、分子的极性、溶解度参数、边界层的强弱、表面张力、相对分子质量以及胶粘剂的分解。     

Rheological analysis of vapor‐grown carbon nanofiber‐reinforced polyethylene composites

The melt rheological analysis of high‐density polyethylene reinforced with vapor‐grown carbon nanofibers (VGCNFs) was performed on an oscillatory rheometer. The influence of frequency, temperature, and nanofiber concentration (up to 30 wt %) on the rheological properties of composites was investigated. Specifically, the viscosity increase is accompanied by an increase in the elastic melt properties, represented by the storage modulus G′, which is much higher than the increase in the loss modulus G″. The composites and pure PE exhibit a typical shear thinning behavior as complex viscosity decreases rapidly with the increase of shearing frequency. The shear thinning behavior is much more pronounced for the composites with high fiber concentration. The rheological threshold value for this system was found to be around 10 wt % of VGCNF. The damping factor was reduced significantly by the inclusion of nanofibers into the matrix. © 2004 Wiley Periodicals, Inc. J Appl Polym Sci 93: 155–162, 2004     

Surface chemistry and mechanical property changes of wood‐flour/high‐density‐polyethylene composites after accelerated weathering

Although wood–plastic composites have become more accepted and used in recent years and are promoted as low‐maintenance, high‐durability building products, they do experience a color change and a loss in mechanical properties with accelerated weathering. In this study, we attempted to characterize the modulus‐of‐elasticity (MOE) loss of photostabilized high‐density polyethylene (HDPE) and composites of wood flour and high‐density polyethylene (WF/HDPE) with accelerated weathering. We then examined how weathering changed the surface chemistry of the composites and looked at whether or not the surface changes were related to the MOE loss. By examining surface chemistry changes, we hoped to begin to understand what caused the weathering changes. The materials were left unstabilized or were stabilized with either an ultraviolet absorber or pigment. After 1000 and 2000 h of accelerated weathering, the samples were tested for MOE loss. Fourier transform infrared (FTIR) spectroscopy was employed to monitor carbonyl and vinyl group formation at the surface. Changes in the HDPE crystallinity were also determined with FTIR techniques. It was determined that structural changes in the samples (carbonyl group formation, terminal vinyl group formation, and crystallinity changes) could not be reliably used to predict changes in MOE with a simple linear relationship. This indicated that the effects of crosslinking, chain scission, and crystallinity changes due to ultraviolet exposure and interfacial degradation due to moisture exposure were interrelated factors for the weathering of HDPE and WF/HDPE composites. © 2004 Wiley Periodicals, Inc. J Appl Polym Sci 94: 2263–2273, 2004     

普通聚烯烃类塑料生物降解研究进展

介绍了高分子材料生物降解的概念、生物降解的作用方式,影响生物降解的因素,并且分析了高分子聚合物生物降解的研究现状,从添加易生物降解的填料法和添加光氧助剂-生物降解法这两个方面总结了普通聚烯烃类塑料生物降解研究进展,指出了今后研究的重点。     

HDPE耐环境应力开裂性能的研究及改进

对HDPE的耐环境应力开裂性能进行了研究。试验表明:采用共混及化学改性的方法,HDPE的耐环境应力开裂性能有了很大提高,为解决HDPE树脂在制作管材时出现的短时间内应力开裂问题提供了依据。     

三层PE防腐新技术在埋地管道中的应用

简要介绍先进的埋地管道防腐工艺——管道三层PE防腐,在埋地天然气管道、给排水管道中的应用,三层PE管道防腐工艺逐渐取代传统的管道防腐工艺。     

LLDPE-g-GMA对PA66/PE性能影响的研究

研究了LLDPE—g—GMA(甲基丙烯酸缩水甘油酯)对PA66／PE相容性的影响。结果表明LLDPE-g-GMA是PA66／PE合金良好的反应型增容剂，对于PA66／PE合金，LLDPE—g-GMA的加入使合金的拉伸强度、弯曲强度、Izod缺口冲击强度有明显提高。但刚性和耐热性略有降低，并且DMA谱图证实了LLDPE—g-GMA对PA66／PE的反应增容作用，计算出了PA66／PE玻璃化转变活化能。