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废 PCB 粉改性聚烯烃木塑复合材料结构与性能研究
关键字:废印刷电路板非金属粉(废 PCB 粉)、聚烯烃、木塑复合材料、老化性能
随着全球电子信息产业的快速发展,大量增长的电子废弃物逐渐成为困扰全球的环境问题。据相关数据显示,全球每小时就有 4000t 电子废弃物产生,而每年电子电器设备废料产量高达2000~5000 万 t,并以每年 3%~8%的速度增长。至今为止,我国已成为全球第二大线路板生产国,世界上约有 40%的线路板在中国生产,仅广东省每年产生的废印刷电路板高达 10 万吨。目前有...
http://www.polymer.cn/research/dis_info17167 |
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废 PCB 粉改性聚烯烃木塑复合材料结构与性能研究
关键字:废印刷电路板非金属粉(废 PCB 粉)、聚烯烃、木塑复合材料、老化性能
随着全球电子信息产业的快速发展,大量增长的电子废弃物逐渐成为困扰全球的环境问题。据相关数据显示,全球每小时就有 4000t 电子废弃物产生,而每年电子电器设备废料产量高达2000~5000 万 t,并以每年 3%~8%的速度增长。至今为止,我国已成为全球第二大线路板生产国,世界上约有 40%的线路板在中国生产,仅广东省每年产生的废印刷电路板高达 10 万吨。目前有...
http://www.polymer.cn/research/sy_info15070 |
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废 PCB 粉改性聚烯烃木塑复合材料结构与性能研究
关键字:废印刷电路板非金属粉(废 PCB 粉)、聚烯烃、木塑复合材料、老化性能
随着全球电子信息产业的快速发展,大量增长的电子废弃物逐渐成为困扰全球的环境问题。据相关数据显示,全球每小时就有 4000t 电子废弃物产生,而每年电子电器设备废料产量高达2000~5000 万 t,并以每年 3%~8%的速度增长。至今为止,我国已成为全球第二大线路板生产国,世界上约有 40%的线路板在中国生产,仅广东省每年产生的废印刷电路板高达 10 万吨。目前有...
http://www.polymer.cn/research/sy_info15069 |
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废 PCB 粉改性聚烯烃木塑复合材料结构与性能研究
关键字:废印刷电路板非金属粉(废 PCB 粉)、聚烯烃、木塑复合材料、老化性能
随着全球电子信息产业的快速发展,大量增长的电子废弃物逐渐成为困扰全球的环境问题。据相关数据显示,全球每小时就有 4000t 电子废弃物产生,而每年电子电器设备废料产量高达2000~5000 万 t,并以每年 3%~8%的速度增长。至今为止,我国已成为全球第二大线路板生产国,世界上约有 40%的线路板在中国生产,仅广东省每年产生的废印刷电路板高达 10 万吨。目前有...
http://www.polymer.cn/research/dis_info17167 |
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Dynamic Viscoelasticity and Shear Flow Behavior of the Short Glass Fiber Filled Polypropylene Melts
关键字:Dynamic Viscoelasticity, Shear Flow Behavior, Short Glass Fiber Filled Polypropylene Melts
Dynamic viscoelastic properties and steady shear flow behaviors have been investigated for melts of short glass fiber filled polypropylene melts. A second plateau appears in the low frequency region of the storage modulus G‘, and...
http://www.polymer.cn/research/ct_info464 |
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Effect of Transcrystallization and Thermal Treatment on Interfacial Bond Strength of Glass Fiber/Polypropylene Composites
关键字:Effect,Transcrystallization,Thermal,Treatment,Interfacial,Bond,Strength,Glass,Fiber,Polypropylene,Composites,
The strong orientation of the transcrystalline layer in glass-fiber/polypropylene composites has affected the mechanical properties of composite materials by altering interfacial structure and drawn much interest.Experimental studies on single fiber ...
http://www.polymer.cn/research/dis_info7150 |
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SIGNIFICANT GLASS TRANSITION TEMPERATURE INCREASE BASED ON POLYHEDRAL OLIGOMERIC SILSEQUIOXANE (POSS) COPOLYMER THROUGH HYDROGEN BONDING
关键字:SIGNIFICANT,GLASS,TRANSITION,TEMPERATURE,INCREASE,BASED,POLYHEDRAL,OLIGOMERIC,SILSEQUIOXANE,POSS,COPOLYMER,THROUGH,HYDROGEN,BONDING,
Polyhedral oligosilsesquioxane (POSS) based hybrid polymers have recently generated much interest. These polymers have potential in the development of a wide range of hybrid materials with diverse properties.
http://www.polymer.cn/research/dis_info3325 |
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EFFECT OF INTERPHASE STRUCTURE ON DEGRADATION BEHAVIOR IN GLASS WOVEN FABRIC REINFORCED VINYLESTER COMPOSITES
关键字:EFFECT,INTERPHASE,STRUCTURE,DEGRADATION,BEHAVIOR,GLASS,WOVEN,FABRIC,REINFORCED,VINYLESTER,COMPOSITES,
It has been recognized that the interface plays an important role in composite materials. Stress, vibration, heat should be transmitted through the interface between matrix and reinforcement. In order to improve the mechanical&n...
http://www.polymer.cn/research/dis_info3284 |
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Dynamic Viscoelasticity and Shear Flow Behavior of the Short Glass Fiber Filled Polypropylene Melts
关键字:Dynamic Viscoelasticity, Shear Flow Behavior, Short Glass Fiber Filled Polypropylene Melts
Dynamic viscoelastic properties and steady shear flow behaviors have been investigated for melts of short glass fiber filled polypropylene melts. A second plateau appears in the low frequency region of the storage modulus G‘, and...
http://www.polymer.cn/research/dis_info1570 |
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Dynamic Viscoelasticity and Shear Flow Behavior of the Short Glass Fiber Filled Polypropylene Melts
关键字:Dynamic Viscoelasticity, Shear Flow Behavior, Short Glass Fiber Filled Polypropylene Melts
Dynamic viscoelastic properties and steady shear flow behaviors have been investigated for melts of short glass fiber filled polypropylene melts. A second plateau appears in the low frequency region of the storage modulus G‘, and...
http://www.polymer.cn/research/ct_info464 |
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