西部林业科学
西部林業科學
서부임업과학
JOURNAL OF WEST CHINA FORESTRY SCIENCE
2015年
2期
152-156
,共5页
短纤维%聚丙烯%碱处理%物理性能%力学性能
短纖維%聚丙烯%堿處理%物理性能%力學性能
단섬유%취병희%감처리%물이성능%역학성능
Natural-wooden-fiber%PP%alkali solution treatment%physical properties%mechanical properties
利用短纤维代替粉状材料作为增强材料制备纤维增强型聚丙烯基复合材料,研究不同的木纤维/聚丙烯配比、密度以及不同浓度的碱处理对木纤维/聚丙烯复合材料物理力学性能的影响。结果表明,目标密度仅为0.55 g/cm3时,且当木纤维与聚丙烯的配比为30:70时,木纤维/聚丙烯复合材料表现出最佳的物理力学性能,但仍达不到标准要求。因此,综合产品成本和物理力学性能,选取了50:50的原料配比,研究密度对该产品物理力学性能的影响。进一步研究表明,随着密度的增加,复合材料的力学强度得到不断提高,当密度为0.70 g/cm3时,板材的力学性能就可以满足国标要求但吸水厚度膨胀率不能满足国标要求。当密度为0.83 g/cm3时,板材的力学性能满足国标要求,吸水厚度膨胀率有减小的趋势。为了进一步提高该复合材料的物理力学性能,利用浓度分别为1%,3%和5%的氢氧化钠溶液对木材纤维和工业大麻杆纤维进行处理,结果表明,经过碱处理后复合材料的吸水厚度膨胀率减小了,静曲强度和弹性模量仍可满足标准要求。
利用短纖維代替粉狀材料作為增彊材料製備纖維增彊型聚丙烯基複閤材料,研究不同的木纖維/聚丙烯配比、密度以及不同濃度的堿處理對木纖維/聚丙烯複閤材料物理力學性能的影響。結果錶明,目標密度僅為0.55 g/cm3時,且噹木纖維與聚丙烯的配比為30:70時,木纖維/聚丙烯複閤材料錶現齣最佳的物理力學性能,但仍達不到標準要求。因此,綜閤產品成本和物理力學性能,選取瞭50:50的原料配比,研究密度對該產品物理力學性能的影響。進一步研究錶明,隨著密度的增加,複閤材料的力學彊度得到不斷提高,噹密度為0.70 g/cm3時,闆材的力學性能就可以滿足國標要求但吸水厚度膨脹率不能滿足國標要求。噹密度為0.83 g/cm3時,闆材的力學性能滿足國標要求,吸水厚度膨脹率有減小的趨勢。為瞭進一步提高該複閤材料的物理力學性能,利用濃度分彆為1%,3%和5%的氫氧化鈉溶液對木材纖維和工業大痳桿纖維進行處理,結果錶明,經過堿處理後複閤材料的吸水厚度膨脹率減小瞭,靜麯彊度和彈性模量仍可滿足標準要求。
이용단섬유대체분상재료작위증강재료제비섬유증강형취병희기복합재료,연구불동적목섬유/취병희배비、밀도이급불동농도적감처리대목섬유/취병희복합재료물리역학성능적영향。결과표명,목표밀도부위0.55 g/cm3시,차당목섬유여취병희적배비위30:70시,목섬유/취병희복합재료표현출최가적물리역학성능,단잉체불도표준요구。인차,종합산품성본화물리역학성능,선취료50:50적원료배비,연구밀도대해산품물리역학성능적영향。진일보연구표명,수착밀도적증가,복합재료적역학강도득도불단제고,당밀도위0.70 g/cm3시,판재적역학성능취가이만족국표요구단흡수후도팽창솔불능만족국표요구。당밀도위0.83 g/cm3시,판재적역학성능만족국표요구,흡수후도팽창솔유감소적추세。위료진일보제고해복합재료적물리역학성능,이용농도분별위1%,3%화5%적경양화납용액대목재섬유화공업대마간섬유진행처리,결과표명,경과감처리후복합재료적흡수후도팽창솔감소료,정곡강도화탄성모량잉가만족표준요구。
The composites were manufactured with polypropylene ( PP ) and natural-wooden-fiber instead of the natural-wooden-powder and PP to gain the composites of better physical and mechanical properties .It researched the influences of different ratios of natural-wooden-fiber to PP, different densities of composites and different con-centrations of alkali solutions on the physical and mechanical properties of natural -wood-fiber/PP composites .The results showed that , as the ratio of natural-wooden-fiber to PP was 30 percent to 70 percent, the mechanical and physical properties of composites were best while those could not reach the requirement of the standard for wood -plastic composites (WPC) for the target density only was 0.55 g/cm3.Considering the cost of the composites, the 50:50 natural-wooden-fiber to PP was selected to research the influence of density on the properties of compos-ites.As the density of composites increasing , the mechanical properties of composites was increasing either;when the target density was 0.70 g/cm3 , the mechanical properties of the composites could reach the requirements of the standard and when the target density was 0.83 g/cm3 , the mechanical properties and physical properties of the composites both could be improved .To promote the mechanical and physical properties of the composites , the studied influence of the alkali solutions on the properties ( including the mechanical and physical properties ) of the composites and the alkali solutions concentration were 1 percent , 3 percent and 5 percent respectively , and the re-sults showed that the physical properties of the composites were improved after the fiber were treated by the alkali solution , and the mechanical properties could satisfy the requirement of the standard .
