摘要
以带凸缘的中空制件为研究对象,研究和分析了凸缘的高径比对挤出吹塑和挤出吹塑-局部抽真空两种成型工艺的影响,找到了合理的凸缘高径比值,为中空制件的设计提供了可靠的参数,对挤出吹塑和挤出吹塑-局部抽真空两种成型工艺进行比较,得出挤出吹塑-局部抽真空成型工艺能增大中空制件凸缘顶部壁厚,降低制件壁厚均方差,提高制件壁厚的均匀性,是一种优化中空制件壁厚分布的有效措施。
Here,we addressed the applications of vacuum technology in manufacturing the irregularly-shaped plastic parts,hollow plastic parts in particular. The impacts of the aspect ratio,λ,of the flange on the two different molding processes,extrusion blow molding,and hollow blow molding combined with a partial vacuum,were experimentally evaluated. The preliminary results show that the aspect ratio of the flange significantly affects the quality of the hollow plastic parts. For a specific flange,its aspect ratio can be easily optimized. In addition,compared with Extrusion Blow Molding,application of vacuum technology adds quite a few competitive edges to the hollow blow molding. For example,an increased thickness at the top of the flange,a reduced standard deviation of wall thickness,an improved uniformity of wall thickness distribution,and an enhanced mechanical strength.
出处
《真空科学与技术学报》
EI
CAS
CSCD
北大核心
2013年第11期1086-1090,共5页
Chinese Journal of Vacuum Science and Technology
基金
重庆市教委科学技术研究项目(KJ110803)
重庆市科委攻关资助项目(CSTC
2011AC4121)
关键词
挤出吹塑
局部抽真空
中空制件
凸缘高径比
壁厚均匀性
Extrusion blow molding
Partial vacuumizing
Hollow part
Ratio of height to diameter of flange
Wall thickness uniformity
