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标题: MuCell 微细发泡成型技术在塑件轻量化的新进展及应用 [打印本页]

作者: liujunyun    时间: 2012-8-15 11:00
标题: MuCell 微细发泡成型技术在塑件轻量化的新进展及应用
微发泡成型技术最早是由美国麻省理工学院(MIT)首 先提出来的。1995 年,Trexel Inc. 成立并获得了MIT 的独家专利授权,成功地将MuCell 应用于实际生产中。目前,Trexel Inc. 已经成为MuCell 技术的全球供货商, 并在此技术领域中开发出了70 多项专利。 Trexel 公司的总部位于美国马萨诸塞州。MuCell 技术的使用先从美国、欧洲开始,随后延伸到日本及东南亚等地区。为了支持公司的快速成长和国际销售服务,Trexel 公司在美国、德国、日本、新加坡、韩国、香港建立了地区性MuCell 支持中心。为了更好地服务中国客户,Trexel 已在中国建立了完善的技术支持体系和备件仓库。

The MuCell process for producing microcellular injection molded parts is accepted as a technology for providing a more dimensionally stable part through a reduction in residual stress with increased productivity over compact molded parts. A much larger improvement in productivity can be realized by designing parts to take advantage of the unique process enhancements provided by the MuCell process.

Trexel Inc and the MuCell Process

Trexel Inc., located in Wilmington, Massachusetts is an investor and employee-owned company specializing in the development and commercialization of microcellular foam processes for the plastics industry. Trexel has Sales and Support Offices in key regions of the world, and also has many alliances with equipment companies, contract manufacturers, materials suppliers, and premier molding organizations, all dedicated to the optimal use of the MuCell Process to improve quality and reduce manufacturing costs.

The MuCell microcellular foam injection molding technology is a complete process and equipment technology which facilitates extremely high quality and greatly reduces production costs. The MuCell process begins by converting the inert gas, nitrogen or carbon dioxide, into a supercritical fluid, or SCF, for precise dosing capability. The SCF is injected into the barrel during screw recovery by the SCF interface kit that is mounted to the barrel. A specially designed MuCell screw with a disperses the SCF into the polymer melt creating a single-phase solution. The SCF acts as a temporary polymer plasticizer, reducing the viscosity of the resin up to 30%. This provides the inherent benefit of improved filling of thin-wall sections and flexible members.

During filling and cooling, microscopic cell growth takes place within the cavity, creating all of the internal pressure needed to completely fill the part. Thus pack and hold, a contributor to cycle time and major source of molded-in part stress in conventional molding, is eliminated with the process. Peak cavity pressure is reduced by up to 80%. Cooling time is often shortened due to reduced mass, lower mold and melt temperatures and less warpage control required. Cycle time reductions averaging 20% to 30% translate into capital cost avoidance and freed machine capacity. A uniform closed-cell, microscopic cell structure is created throughout the part with a solid skin. Stress induced warpage is eliminated and sink marks are eliminated without a chemical change to the polymer. The elimination of the hold phase results in a significantly lower peak clamp tonnage requirement. This allows machine size reduction by up to 50% using MuCell processing and reduced operating costs through the use of the lower corresponding hourly machine rate.
Greener Greener

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美国 Trexel 公司 亚洲区总经理 唐锦荣

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作者: sunyunlong881    时间: 2012-8-15 19:57
不错。。。。。。。。。。
作者: lpyypl    时间: 2012-8-19 09:49
看看,学习一下。
作者: wls030    时间: 2012-9-8 22:50
看了就要顶
作者: wdming961    时间: 2012-9-23 10:30
要学学呀,谢谢




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