1) sequential co-injection molding
顺序共注成型
1.
On the basis of general Hele-Shaw model, the simulation of the effect of polymer rheological behavior and several important molding process parameters on breakthrough of core melt front of sequential co-injection molding process was implemented by means of CAE technique.
基于Hele Shaw流动模型 ,运用CAE技术 ,模拟了聚合物流变性能及重要工艺参数对顺序共注成型芯层熔体前沿突破过程的影响 ,并用流变学理论揭示其影响机理。
2.
On the basis of general Hele-Shaw model,the simulation of the effect of several important molding process parameters on sequential co-injection molding process was implemented by means of CAE technique which involves temperature,prefilled polymer volume fraction and injection velocity.
基于Hele -Shaw模型 ,采用CAE技术 ,模拟了顺序共注成型中几个重要工艺参数———温度、壳层预填充量、注射速度等对其成型过程的影响。
2) sequential injection moulding
顺序浇注成型
1.
Applying sequential injection moulding to control weld-line locations;
顺序浇注成型控制熔接线位置研究
4) co-injection molding
共注成型
1.
Study on the influence of melt viscosity on co-injection molding;
熔体粘度对共注成型影响机理的研究
2.
On the basis of general Hele-Shaw model,the effect of processing parameters on the warpage in co-injection molding and the mechanism of warpage were studied.
基于Hele-shaw模型,通过有限元数值模拟技术,研究了工艺参数对共注成型制品翘曲变形影响规律,并根据注射成型原理揭示了翘曲变形的产生机理。
3.
The melt front breakthrough of the core is the main cause of forming waster in the co-injection molding.
在塑料共注成型中,芯层熔体前沿突破是导致废品的主要原因,其成型机理至今尚未弄清。
5) continuous modeling method
顺序成型法
6) Co-injection Molding
共注射成型
1.
Tracing of Moving Interface during Polymer Mold Filling in Co-injection Molding Process;
共注射成型充填过程的运动界面追踪
2.
Gas-assisted co-injection molding, a new injection molding process, is developed based on gas-assisted injection molding and co-injection molding.
气体辅助共注射成型是在气体辅助注射成型和共注射成型的基础上发展起来的一种新型注射成型工艺。
3.
As a new injection molding technology, co-injection molding is of great significance in resolving the recycling of waste plastics, producing cost-effective plastic products and achieving the functional diversification in plastic products.
本论文采用数值模拟技术对共注射成型过程进行流动分析和翘曲分析,从芯层熔体前缘突破,芯层熔体穿透深度,制件均匀性及翘曲变形等方面进行研究。
补充资料:电泳注浆成型
分子式:
CAS号:
性质:陶瓷浆料的成型方法之一。利用浆料中颗粒荷负电,在直流电场作用下向阳极运动而沉积在模型(阳极)上形成坯体的成型方法。此法可加快坯体形成速度,坯体较致密,可用于面砖,基板等的成型,但有时会因水的电解作用产生气泡,电场不均匀会造成坯体厚薄不均或脱模困难,故尚未得到广泛使用。
CAS号:
性质:陶瓷浆料的成型方法之一。利用浆料中颗粒荷负电,在直流电场作用下向阳极运动而沉积在模型(阳极)上形成坯体的成型方法。此法可加快坯体形成速度,坯体较致密,可用于面砖,基板等的成型,但有时会因水的电解作用产生气泡,电场不均匀会造成坯体厚薄不均或脱模困难,故尚未得到广泛使用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条