当前位置: X-MOL 学术Indian J. Eng. Mater. Sci. › 论文详情
Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)
Optimization and investigation of process parameters in single point incremental forming
Indian Journal of Engineering & Materials Sciences ( IF 0.615 ) Pub Date : 2020-08-03
Ajay Kumar, Vishal Gulati

Single point incremental forming (SPIF) process is an innovative and dies-less forming technique to produce various useful shapes for small batch size economically. This process exempts expensive and complex tooling which is used in traditional sheet forming processes. Study of forming force and thickness reduction of the components formed by SPIF process would help the process engineers to provide some guidelines regarding the implementations of this process to mainstream of manufacturing industries. In this work, seven impact factors of this process have been exploited to optimize SPIF process using Taguchi method as a design of experiment (DoE) technique. The objective of current work is to optimize the forming forces and thickness reduction of the formed conical frustums for a given set of factors for operation sustainability. The predictive models have also been generated for estimating optimal characteristics of the process. The predictive model estimated the response characteristics of the SPIF process effectively and accurately.

中文翻译:

单点增量成形工艺参数的优化与研究

单点增量成型(SPIF)工艺是一种创新的无模具成型技术,可经济地生产各种有用形状的小批量产品。此过程免除了在传统的板材成型过程中使用的昂贵且复杂的工具。通过SPIF工艺形成的零件的成型力和厚度减小的研究将有助于工艺工程师向制造业主流提供有关此工艺实施的一些指导原则。在这项工作中,利用Taguchi方法作为实验设计(DoE)技术,利用了该过程的七个影响因素来优化SPIF过程。当前工作的目的是针对给定的操作可持续性因素,优化成形圆锥台的成形力和厚度减小。预测模型也已生成,用于估计过程的最佳特性。该预测模型有效,准确地估计了SPIF过程的响应特性。
更新日期:2020-08-03
down
wechat
bug