机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2010年
5期
139-144
,共6页
李生杰%颜永年%秦海燕%赵铱民%陈星睿
李生傑%顏永年%秦海燕%趙銥民%陳星睿
리생걸%안영년%진해연%조의민%진성예
聚氨酯%耳廓软骨%支架%快速成形%熔融挤出成形
聚氨酯%耳廓軟骨%支架%快速成形%鎔融擠齣成形
취안지%이곽연골%지가%쾌속성형%용융제출성형
Polyurethane%Auricle cartilage%Scaffold%Rapid prototyping%Melted extrusion forming
在体外构建外形逼真、机械强度可调节的个性化耳廓软骨支架,是组织工程方法修复外耳耳廓缺损的重要方向之一.针对这一研究目的,采用基于快速成形原理的熔融挤出成形方法,使用颗粒状聚氨酯生物材料,通过搭建试验平台,设计一系列工艺因素对成形过程及支架力学性能的影响试验,研究制造耳廓软骨支架的最优工艺参数范围.试验发现:喷头温度影响材料挤出稳定性和弹性;成形室温度影响结构整齐度和层间结合度;送料速度和扫描速度,与挤出速度的匹配关系,影响出丝的均匀度和成形过程的稳定性;不同扫描速度的喷头所形成的温度场分布,影响已成形结构的弹性;成形过程存在最小局部反复造型面积;温度以及CLI数字模型离散处理参数,影响支架力学性能.结果表明,熔融挤出成形方法制备的聚氨酯材料耳廓软骨支架,不仅可以实现逼真的耳廓外形,还可通过控制各种工艺参数,得到接近天然耳廓的力学强度,以满足临床中不同病患的个性化需求.
在體外構建外形逼真、機械彊度可調節的箇性化耳廓軟骨支架,是組織工程方法脩複外耳耳廓缺損的重要方嚮之一.針對這一研究目的,採用基于快速成形原理的鎔融擠齣成形方法,使用顆粒狀聚氨酯生物材料,通過搭建試驗平檯,設計一繫列工藝因素對成形過程及支架力學性能的影響試驗,研究製造耳廓軟骨支架的最優工藝參數範圍.試驗髮現:噴頭溫度影響材料擠齣穩定性和彈性;成形室溫度影響結構整齊度和層間結閤度;送料速度和掃描速度,與擠齣速度的匹配關繫,影響齣絲的均勻度和成形過程的穩定性;不同掃描速度的噴頭所形成的溫度場分佈,影響已成形結構的彈性;成形過程存在最小跼部反複造型麵積;溫度以及CLI數字模型離散處理參數,影響支架力學性能.結果錶明,鎔融擠齣成形方法製備的聚氨酯材料耳廓軟骨支架,不僅可以實現逼真的耳廓外形,還可通過控製各種工藝參數,得到接近天然耳廓的力學彊度,以滿足臨床中不同病患的箇性化需求.
재체외구건외형핍진、궤계강도가조절적개성화이곽연골지가,시조직공정방법수복외이이곽결손적중요방향지일.침대저일연구목적,채용기우쾌속성형원리적용융제출성형방법,사용과립상취안지생물재료,통과탑건시험평태,설계일계렬공예인소대성형과정급지가역학성능적영향시험,연구제조이곽연골지가적최우공예삼수범위.시험발현:분두온도영향재료제출은정성화탄성;성형실온도영향결구정제도화층간결합도;송료속도화소묘속도,여제출속도적필배관계,영향출사적균균도화성형과정적은정성;불동소묘속도적분두소형성적온도장분포,영향이성형결구적탄성;성형과정존재최소국부반복조형면적;온도이급CLI수자모형리산처리삼수,영향지가역학성능.결과표명,용융제출성형방법제비적취안지재료이곽연골지가,불부가이실현핍진적이곽외형,환가통과공제각충공예삼수,득도접근천연이곽적역학강도,이만족림상중불동병환적개성화수구.
In vitro constructing of a personalized auricle cartilage scaffold with lifelike appearance and adjustable mechanical strength,is an important method in tissue engineering to repair the auricle defect. Aiming at this,the melted extrusion forming technique based on the rapid prototyping principle is adopted,particle polyurethane biomaterial is used,and an experiment platform is built up. Then a series of experiments are carried out to study the effects of technical factors on forming process and scaffold mechanical properties,in order to find out the best parameter range for manufacturing the auricle cartilage scaffold. It is found that nozzle temperature has an impact on extrusion stability and material flexibility; forming room temperature affects the structure uniformity and interlayer integrity; feed speed and scanning speed should match extrusion speed,to maintain the strand uniformity and the forming stability; nozzle scanning with different speeds results in different temperature fields,which also affects the flexibility of formed structure; there exists a minimum local forming; temperature and the discrete processing parameters of CLI mathematical model affect the mechanical properties of the formed scaffold. Therefore,based on the melted extrusion forming technique,suitable polyurethane auricle cartilage scaffold can be constructed to fulfill the personalized demand of different patients,not only with exact lifelike appearance,but also with proper mechanical properties close to the natural auricle cartilage.