工程塑料应用
工程塑料應用
공정소료응용
Engineering Plastics Application
2015年
9期
19-25
,共7页
姚雪霞%戴存礼%傅雷鸣%刘玉涛%何春霞
姚雪霞%戴存禮%傅雷鳴%劉玉濤%何春霞
요설하%대존례%부뢰명%류옥도%하춘하
花生壳%PE-HD%预处理%界面改性%木塑复合材料
花生殼%PE-HD%預處理%界麵改性%木塑複閤材料
화생각%PE-HD%예처리%계면개성%목소복합재료
peanut shell%PE-HD%pretreatment%interface modification%wood plastic composite
为了改善花生壳与高密度聚乙烯(PE-HD)基体的界面相容性,分别采用5% NaOH,5% HAc及高温和微波水浴四种方式对花生壳粉进行预处理,再用硅烷偶联剂KH550处理花生壳粉,用模压方法制备成PE-HD/花生壳木塑复合材料。通过对花生壳粉进行化学成分和X射线衍射分析表明,各种预处理均提高了花生壳粉中纤维素的含量,降低了半纤维素和木质素的含量,且提高了纤维素的相对结晶度。通过对PE-HD/花生壳木塑复合材料力学性能和吸水性能的分析表明,大部分复合预处理改善了木塑复合材料的力学性能和防水性能。其中用NaOH和硅烷偶联剂KH550复合预处理对木塑复合材料的力学性能和防水性能改善效果最明显,与只用KH550处理的木塑复合材料相比,其弯曲强度提高了26.2%,冲击强度提高了62.1%,浸泡192 h的吸水率由14.9%降低为4.1%。这主要是因为NaOH预处理对花生壳粉的性能改变最显著,导致花生壳粉和PE-HD的界面相容性明显提高。
為瞭改善花生殼與高密度聚乙烯(PE-HD)基體的界麵相容性,分彆採用5% NaOH,5% HAc及高溫和微波水浴四種方式對花生殼粉進行預處理,再用硅烷偶聯劑KH550處理花生殼粉,用模壓方法製備成PE-HD/花生殼木塑複閤材料。通過對花生殼粉進行化學成分和X射線衍射分析錶明,各種預處理均提高瞭花生殼粉中纖維素的含量,降低瞭半纖維素和木質素的含量,且提高瞭纖維素的相對結晶度。通過對PE-HD/花生殼木塑複閤材料力學性能和吸水性能的分析錶明,大部分複閤預處理改善瞭木塑複閤材料的力學性能和防水性能。其中用NaOH和硅烷偶聯劑KH550複閤預處理對木塑複閤材料的力學性能和防水性能改善效果最明顯,與隻用KH550處理的木塑複閤材料相比,其彎麯彊度提高瞭26.2%,遲擊彊度提高瞭62.1%,浸泡192 h的吸水率由14.9%降低為4.1%。這主要是因為NaOH預處理對花生殼粉的性能改變最顯著,導緻花生殼粉和PE-HD的界麵相容性明顯提高。
위료개선화생각여고밀도취을희(PE-HD)기체적계면상용성,분별채용5% NaOH,5% HAc급고온화미파수욕사충방식대화생각분진행예처리,재용규완우련제KH550처리화생각분,용모압방법제비성PE-HD/화생각목소복합재료。통과대화생각분진행화학성분화X사선연사분석표명,각충예처리균제고료화생각분중섬유소적함량,강저료반섬유소화목질소적함량,차제고료섬유소적상대결정도。통과대PE-HD/화생각목소복합재료역학성능화흡수성능적분석표명,대부분복합예처리개선료목소복합재료적역학성능화방수성능。기중용NaOH화규완우련제KH550복합예처리대목소복합재료적역학성능화방수성능개선효과최명현,여지용KH550처리적목소복합재료상비,기만곡강도제고료26.2%,충격강도제고료62.1%,침포192 h적흡수솔유14.9%강저위4.1%。저주요시인위NaOH예처리대화생각분적성능개변최현저,도치화생각분화PE-HD적계면상용성명현제고。
To improve the interface compatibility between peanut shell and PE-HD matrix,the peanut shell powder was treated by 5% NaOH,5% HAc,high temperature and microwave respectively,then treated by silane coupling agent KH550. The PE-HD/peanut shell wood plastic composites were prepared by blending with PE-HD and peanut shell through molding. Through chemical composition and X-ray diffraction analysis of the peanut shell powder,it is found that different kinds of pretreatments all increase the content of cellulose,decrease the content of hemicellulose and lignin,and increase the degree of relative crystallinity of cellulose. The mechanical properties and water absorption performance of the PE-HD/peanut shell wood plastic composites were investigated. The experimental results show that most pretreated methods improve the mechanical properties and waterproof performance of the composites. In addition,the composite prepared with NaOH and KH550 has best comprehensive performance. Compared with that of the composites only prepared by KH550,the bending strength of the composites pretreated by NaOH and KH550 enhances by 26.2%,the impact strength increases by 62.1%,and the water absorption decreases from 14.9% to 4.1 %. This is mainly due to that NaOH pretreatment changes the chemical and physical properties of the peanut shell powder most obviously. Thus the interface compatibility between peanut shell and PE-HD is most improved by NaOH and KH550 combined pretreatment.