Durability of wood flour-plastic composites exposed to accelerated freeze-thaw cycling. II. High density polyethylene matrix

Pilarski JM; Matuana LM

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Durability of wood flour-plastic composites exposed to accelerated freeze-thaw cycling. II. High density polyethylene matrix

机译：木粉-塑料复合材料在加速冻融循环中的耐久性。二。高密度聚乙烯基体

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This study examined the durability of extruded HDPE/wood-flour composites exposed to 15 accelerated cycles of water submersion, freezing, and thawing, according to ASTM standard D6662. The durability of both maple and pine composites was assessed by testing the flexural properties and density. Mercury intrusion porosimetry and scanning electron microscopy were also used to evaluate the interfacial adhesion between the matrix and wood flour before and after exposure to accelerated freeze-thaw cycling. Freeze-thaw actions had no apparent effect on the density of the composites after exposure, regardless of the wood species. However, these actions led to moisture uptake, which decreased the interfacial adhesion and increased the pore size and quantity in the composites, which resulted in a significant loss in flexural properties. (c) 2005 Wiley Periodicals, Inc.

机译：这项研究根据ASTM标准D6662检验了15次加速的水浸，冷冻和解冻循环后，挤出的HDPE /木粉复合材料的耐久性。枫木和松木复合材料的耐久性都通过测试弯曲性能和密度来评估。汞侵入孔隙率法和扫描电子显微镜也被用来评估基质和木粉在加速冻融循环前后的界面粘附性。不论木材种类如何，冻融作用对暴露后的复合材料的密度均无明显影响。但是，这些作用导致水分吸收，从而降低了界面粘合力，并增加了复合材料的孔径和数量，从而导致弯曲性能显着下降。（c）2005年Wiley Periodicals，Inc.

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《Journal of Applied Polymer Science》 |2006年第1期|共5页
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Pilarski JM; Matuana LM;
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正文语种 eng
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freeze-thaw cycling; degradation; moisture; wood plastic composites; porosity; flexural properties; FIBER COMPOSITES; PVC;

机译：冻融循环;降解;水分;木质塑料复合材料;孔隙率;弯曲性能;纤维复合材料;PVC;

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1. Durability of wood flour-plastic composites exposed to accelerated freeze-thaw cycling. II. High density polyethylene matrix [J] . Pilarski JM, Matuana LM Journal of Applied Polymer Science . 2006,第1期

机译：木粉-塑料复合材料在加速冻融循环中的耐久性。二。高密度聚乙烯基体
2. Durability of Wood Flour-Plastic Composites Exposed to Accelerated Freeze-Thaw Cycling.I.Rigid PVC Matrix [J] . Pilarski J M, Matuana L M Focus on Plastics Additives . 2005,第73期

机译：木粉-塑料复合材料在加速冻融循环下的耐久性I.刚性PVC基体
3. Durability of Wood Flour-Plastic Composites Exposed to Accelerated Freeze-Thaw Cycling.Part I.Rigid PVC Matrix [J] . Jeanette M.Pilarski, Laurent M.Matuana Journal of Vinyl & Additive Technology . 2005,第1期

机译：加速冻融循环的木粉-塑料复合材料的耐久性第一部分。硬质PVC基体
4. Mechanical Properties of Rice Hull/High Density Polyethylene and Wood/High Density Polyethylene Composites [C] . T. Kuboki, C. B. Park, Y. H. Lee, World Congress . 2007

机译：稻壳/高密度聚乙烯和木材/高密度聚乙烯复合材料的力学性能
5. Durability of wood-plastic composites exposed to freeze-thaw cycling. [D] . Pilarski, Jeanette M. 2005

机译：经受冻融循环的木塑复合材料的耐久性。
6. Optimization of High Temperature and Pressurized Steam Modified Wood Fibers for High-Density Polyethylene Matrix Composites Using the Orthogonal Design Method [O] . Xun Gao, Qingde Li, Wanli Cheng, 2016

机译：正交设计法优化高密度聚乙烯基复合材料高温高压蒸汽改性木纤维
7. Surface Chemistry and Mechanical Property Changes of Wood-Flour/High-Density-Polyethylene Composites after Accelerated Weathering [O] . Nicole M. Stark, Laurent M. Matuana 2004

机译：加速老化后木粉/高密度聚乙烯复合材料的表面化学和力学性能变化

Durability of wood flour-plastic composites exposed to accelerated freeze-thaw cycling. II. High density polyethylene matrix

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