中国临床康复
中國臨床康複
중국림상강복
CHINESE JOURNAL OF CLINICAL REHABILITATION
2004年
11期
2166-2168
,共3页
刘芳%贾德民%吴小华%侯天伟%吴昌荣%游长江%王迎军
劉芳%賈德民%吳小華%侯天偉%吳昌榮%遊長江%王迎軍
류방%가덕민%오소화%후천위%오창영%유장강%왕영군
聚(D,L-乳酸)%聚(D,L-乳酸)/羟基磷灰石复合材料%成型加工
聚(D,L-乳痠)%聚(D,L-乳痠)/羥基燐灰石複閤材料%成型加工
취(D,L-유산)%취(D,L-유산)/간기린회석복합재료%성형가공
背景:加工条件和加工温度会使聚乳酸[Poly(lactic acid),PLA]降解,损害力学性能. 目的:探讨成型加工条件对聚(D,L-乳酸)(PDLLA),二苯基甲烷二异氰酸酯(MDI)扩链PDLLA和MDI扩链PDLLA/羟基磷灰石(HA)复合材料力学性能的影响.设计:分组对照研究.地点和方法:在华南理工大学材料学院完成实验.利用MDI作为扩链剂对PDLLA和PDLLA/HA复合材料扩链,合成MDI扩链PDLLA和MDI扩链PDLLA/HA复合材料,采用自行设计的模压挤出设备对其进行加工.主要观察指标:成型加工条件对PDLLA,MDI扩链PDLLA和MDI扩链PDLLA/HA复合材料力学性能的影响.结果:在模压温度165℃,挤出温度100℃、口模长度10 mm的最佳成型工艺条件下,PDLLA和PDLLA/HA复合材料的弯曲强度分别为35.1MPa和31.2 MPa,弯曲模量分别为2 413.6 MPa和1 735.0 MPa;在模压温度100℃,挤出温度100℃、口模长度10mm的最佳成型工艺条件下,PDLLA/MDI和PDLLA/HA/MDI复合材料的弯曲强度分别为51.3 MPa和55.4 MPa,弯曲模量分别为1 830.9 MPa和2 068.5 MPa.结论:成型加工条件对PDLLA,MDI扩链PDLLA和MDI扩链PDLLA/HA复合材料的力学性能影响显著,而且MDI扩链可显著提高PDLLA和PDLLA/HA复合材料的力学性能.
揹景:加工條件和加工溫度會使聚乳痠[Poly(lactic acid),PLA]降解,損害力學性能. 目的:探討成型加工條件對聚(D,L-乳痠)(PDLLA),二苯基甲烷二異氰痠酯(MDI)擴鏈PDLLA和MDI擴鏈PDLLA/羥基燐灰石(HA)複閤材料力學性能的影響.設計:分組對照研究.地點和方法:在華南理工大學材料學院完成實驗.利用MDI作為擴鏈劑對PDLLA和PDLLA/HA複閤材料擴鏈,閤成MDI擴鏈PDLLA和MDI擴鏈PDLLA/HA複閤材料,採用自行設計的模壓擠齣設備對其進行加工.主要觀察指標:成型加工條件對PDLLA,MDI擴鏈PDLLA和MDI擴鏈PDLLA/HA複閤材料力學性能的影響.結果:在模壓溫度165℃,擠齣溫度100℃、口模長度10 mm的最佳成型工藝條件下,PDLLA和PDLLA/HA複閤材料的彎麯彊度分彆為35.1MPa和31.2 MPa,彎麯模量分彆為2 413.6 MPa和1 735.0 MPa;在模壓溫度100℃,擠齣溫度100℃、口模長度10mm的最佳成型工藝條件下,PDLLA/MDI和PDLLA/HA/MDI複閤材料的彎麯彊度分彆為51.3 MPa和55.4 MPa,彎麯模量分彆為1 830.9 MPa和2 068.5 MPa.結論:成型加工條件對PDLLA,MDI擴鏈PDLLA和MDI擴鏈PDLLA/HA複閤材料的力學性能影響顯著,而且MDI擴鏈可顯著提高PDLLA和PDLLA/HA複閤材料的力學性能.
배경:가공조건화가공온도회사취유산[Poly(lactic acid),PLA]강해,손해역학성능. 목적:탐토성형가공조건대취(D,L-유산)(PDLLA),이분기갑완이이청산지(MDI)확련PDLLA화MDI확련PDLLA/간기린회석(HA)복합재료역학성능적영향.설계:분조대조연구.지점화방법:재화남리공대학재료학원완성실험.이용MDI작위확련제대PDLLA화PDLLA/HA복합재료확련,합성MDI확련PDLLA화MDI확련PDLLA/HA복합재료,채용자행설계적모압제출설비대기진행가공.주요관찰지표:성형가공조건대PDLLA,MDI확련PDLLA화MDI확련PDLLA/HA복합재료역학성능적영향.결과:재모압온도165℃,제출온도100℃、구모장도10 mm적최가성형공예조건하,PDLLA화PDLLA/HA복합재료적만곡강도분별위35.1MPa화31.2 MPa,만곡모량분별위2 413.6 MPa화1 735.0 MPa;재모압온도100℃,제출온도100℃、구모장도10mm적최가성형공예조건하,PDLLA/MDI화PDLLA/HA/MDI복합재료적만곡강도분별위51.3 MPa화55.4 MPa,만곡모량분별위1 830.9 MPa화2 068.5 MPa.결론:성형가공조건대PDLLA,MDI확련PDLLA화MDI확련PDLLA/HA복합재료적역학성능영향현저,이차MDI확련가현저제고PDLLA화PDLLA/HA복합재료적역학성능.
BACKGROUND: Polylactic acid (PLA) is very degradable in the processing conditions and at the processing temperature so its mechanical properties reduce greatly.OBJECTIVE: To investigate the effects of processing conditions on the mechanical properties of poly(D, L-lactide) (PDLLA), methylenediphenyl diisocyanate(MDI) chain-extending PDLLA(PDLLA/MDI) and MDI chain-extending PDLLA/hydroxyapatite (HA) composites (PDLLA/HA /MDI).DESIGN: A grouping and control study was designed.SETTING and METHODS: The experiment was carried out in the College of Materials, South China University of Technology. Using methylenediphenyl diisocyanate(MDI) as chain-extender to prepare MDI chain extending PDLLA(PDLLA/MDI) and MDI chain-extending PDLLA/HA composites (PDLLA/HA/MDI composites) and utilizing self-designed moulding and extruding equipment to process these biodegradable materials.MAIN OUTCOME MEASURE: Effects of processing condictions on PDLLA, PDLLA/MDI and PDLLA/HA/MDI.RESULTS: At the optimal processing conditions of molding temperature 165 ℃, extruding temperature 100 ℃ and mould chamber length 10 mm,bending strength of PDLLA and PDLLA/HA composites is 35.1 MPa and 31.2 MPa, respectively and their bending modulus is 2 413.6 MPa and 1 735.0 MPa, respectively. At the optimal processing conditions of molding temperature 100 ℃, extruding temperature 100 ℃ and mould chamber length 10 mm, bending strength of PDLLA/MD and PDLLA/HA/MDI composites is 51.3 MPa and 55.4 MPa, respectively and their bending modulus is 1 830. 9 MPa and 2068.5 MPa, respectively.CONCLUSION: The processing conditions affected obviously mechanical properties of PDLLA, PDLLA/MDI and PDLLA/HA/MDI composites and MDI chain-extending enhanced significantly mechanical properties of these materials.