五邑大学学报:自然科学版
五邑大學學報:自然科學版
오읍대학학보:자연과학판
Journal of Wuyi University(Natural Science Edition)
2012年
2期
58-62
,共5页
气体辅助注射成型%传统注射成型%泵盖%MPI仿真
氣體輔助註射成型%傳統註射成型%泵蓋%MPI倣真
기체보조주사성형%전통주사성형%빙개%MPI방진
gas-assisted injection molding%traditional injection molding%pump covers%MPI simulation
利用MPI软件对泵盖分别进行气体辅助注射成型和传统注射成型的仿真分析,结果发现应用气体辅助注射成型的泵盖塑件在充填时间、体积收缩率、气穴、熔接痕、充填结束时的体积温度和合模力等方面比传统的注射成型更具优势,因此利用气体辅助注射成型技术对改善制品质量、提高生产效率和节能降耗等有重要意义.
利用MPI軟件對泵蓋分彆進行氣體輔助註射成型和傳統註射成型的倣真分析,結果髮現應用氣體輔助註射成型的泵蓋塑件在充填時間、體積收縮率、氣穴、鎔接痕、充填結束時的體積溫度和閤模力等方麵比傳統的註射成型更具優勢,因此利用氣體輔助註射成型技術對改善製品質量、提高生產效率和節能降耗等有重要意義.
이용MPI연건대빙개분별진행기체보조주사성형화전통주사성형적방진분석,결과발현응용기체보조주사성형적빙개소건재충전시간、체적수축솔、기혈、용접흔、충전결속시적체적온도화합모력등방면비전통적주사성형경구우세,인차이용기체보조주사성형기술대개선제품질량、제고생산효솔화절능강모등유중요의의.
A simulation analysis is made of gas-assisted injection molding and traditional injection molding using the MPI software on pump covers and the results reveal that plastic pump cover parts made by using gas-assisted injection molding are better than those made by adopting the traditional injection molding in filling time, volume shrinkage, cavitation, welding marks, the volume temperature at the end of filling and clamping force. Therefore, adopting gas-assisted injection molding technology is of great significance in improving product quality and increasing production and energy efficiency.
