工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2014年
12期
6-10
,共5页
朱健%戚嵘嵘%洪玉琢%冯正明%李海波
硃健%慼嶸嶸%洪玉琢%馮正明%李海波
주건%척영영%홍옥탁%풍정명%리해파
聚乳酸%液态聚异丁烯%增韧%相容性
聚乳痠%液態聚異丁烯%增韌%相容性
취유산%액태취이정희%증인%상용성
PLA%LPIB%toughness%compatibility
为了改善聚乳酸(PLA)材料的脆性,且不影响其可降解性,选择了低分子量液态聚异丁烯(LPIB)和PLA进行共混改性,研究了LPIB用量对PLA/LPIB共混物性能的影响。结果表明,LPIB可提高PLA的韧性,但降低了其拉伸强度,当LPIB质量分数为12%时,共混物的缺口冲击强度达到最高,为5.3 kJ/m2,比纯PLA提高了近一倍;LPIB在PLA中起到异相成核的作用,可提高其结晶度。采用扫描电子显微镜观察了共混物的微观形态,发现PLA与LPIB两相是分离的。为提高两者的相容性,采用缩水甘油酯(GMA)接枝LPIB (LPIB-g-GMA)作为增容剂,并研究了其用量对PLA/LPIB/LPIB-g-GMA共混物性能的影响。结果表明,LPIB-g-GMA对PLA/LPIB共混物有一定的增容作用,可使其相界面变得模糊,相容性有明显提高;当PLA,LPIB与LPIB-g-GMA的质量比为88/2/10时, PLA/LPIB/LPIB-g-GMA共混物的缺口冲击强度和拉伸强度达到最大,与未加LPIB-g-GMA的共混物相比,分别提高了20.7%和13.8%;少量LPIB-g-GMA的加入会提高PLA/LPIB/LPIB-g-GMA共混物的结晶度,但其用量过高时,会降低共混物的结晶度。
為瞭改善聚乳痠(PLA)材料的脆性,且不影響其可降解性,選擇瞭低分子量液態聚異丁烯(LPIB)和PLA進行共混改性,研究瞭LPIB用量對PLA/LPIB共混物性能的影響。結果錶明,LPIB可提高PLA的韌性,但降低瞭其拉伸彊度,噹LPIB質量分數為12%時,共混物的缺口遲擊彊度達到最高,為5.3 kJ/m2,比純PLA提高瞭近一倍;LPIB在PLA中起到異相成覈的作用,可提高其結晶度。採用掃描電子顯微鏡觀察瞭共混物的微觀形態,髮現PLA與LPIB兩相是分離的。為提高兩者的相容性,採用縮水甘油酯(GMA)接枝LPIB (LPIB-g-GMA)作為增容劑,併研究瞭其用量對PLA/LPIB/LPIB-g-GMA共混物性能的影響。結果錶明,LPIB-g-GMA對PLA/LPIB共混物有一定的增容作用,可使其相界麵變得模糊,相容性有明顯提高;噹PLA,LPIB與LPIB-g-GMA的質量比為88/2/10時, PLA/LPIB/LPIB-g-GMA共混物的缺口遲擊彊度和拉伸彊度達到最大,與未加LPIB-g-GMA的共混物相比,分彆提高瞭20.7%和13.8%;少量LPIB-g-GMA的加入會提高PLA/LPIB/LPIB-g-GMA共混物的結晶度,但其用量過高時,會降低共混物的結晶度。
위료개선취유산(PLA)재료적취성,차불영향기가강해성,선택료저분자량액태취이정희(LPIB)화PLA진행공혼개성,연구료LPIB용량대PLA/LPIB공혼물성능적영향。결과표명,LPIB가제고PLA적인성,단강저료기랍신강도,당LPIB질량분수위12%시,공혼물적결구충격강도체도최고,위5.3 kJ/m2,비순PLA제고료근일배;LPIB재PLA중기도이상성핵적작용,가제고기결정도。채용소묘전자현미경관찰료공혼물적미관형태,발현PLA여LPIB량상시분리적。위제고량자적상용성,채용축수감유지(GMA)접지LPIB (LPIB-g-GMA)작위증용제,병연구료기용량대PLA/LPIB/LPIB-g-GMA공혼물성능적영향。결과표명,LPIB-g-GMA대PLA/LPIB공혼물유일정적증용작용,가사기상계면변득모호,상용성유명현제고;당PLA,LPIB여LPIB-g-GMA적질량비위88/2/10시, PLA/LPIB/LPIB-g-GMA공혼물적결구충격강도화랍신강도체도최대,여미가LPIB-g-GMA적공혼물상비,분별제고료20.7%화13.8%;소량LPIB-g-GMA적가입회제고PLA/LPIB/LPIB-g-GMA공혼물적결정도,단기용량과고시,회강저공혼물적결정도。
In order to improve the brittleness of PLA and don't affect its biodegradability,liquid polyiosbutene (LPIB) was used as a toughness agent for being blended with PLA. The effects of LPIB content on the properties of PLA/LPIB blends were investigated. The results show that LPIB can improve the brittleness of PLA,the notched impact strength of the blend with 12%LPIB is the best,reaching to 5.3 kJ/m2,nearly twice as much as pure PLA. LPIB acts as a heterogeneous nucleating agent and can improve the crystallization of PLA. Scanning electron microscopy indicates that two phases (PLA and LPIB) are separated. To improve the compatibility between PLA and LPIB,the glycidyl methacrylate grafted LPIB (LPIB-g-GMA) was used as compatilizer, and the effects of LPIB-g-GMA content on the performance of the PLA/LPIB/LPIB-g-GMA blends were investigated. The results show that LPIB-g-GMA can improve the compatibility between PLA and LPIB,make the interface between PLA and LPIB become vague,which indicates that the compatibility is improved. When the mass ratio of the PLA/LPIB/LPIB-g-GMA is 88/2/10,the notched impact strength and tensile strength of PLA/LPIB/LPIB-g-GMA blends can reach maximum,which increases by 20.7%and 13.8%respectively comparing with the PLA/LPIB blend. A little of LPIB-g-GMA can improve the crystallinity of the PLA/LPIB/LPIB-g-GMA blend,but too much LPIB-g-GMA has an adverse result.
