Design Analysis and Modification of Ribs and Tubes on Thin-Wall Parts for Mold Flow Analysis

CAD'20 Pub Date : 2020-05-25 DOI:10.14733/cadconfp.2020.106-110

J. Lai, Zhongwei Zhang, Pei-Pu Song, Chia-Hsiang Hsu, Yao-Chen Tsai

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Abstract

A DFM analysis and design modification system for plastic injection molding was developed in this study. It mainly included a feature recognition algorithm to extract tube and rib features for analysis, a DFM analysis algorithm for the optimization of feature dimensions, and a design modification algorithm to modify unqualified ribs and tubes automatically. The proposed feature recognition algorithm recognized auxiliary faces, including translation, wall and bottom faces, on the inner surface of a thin-wall part, and then grouped each set of protrusion faces. Tubes and ribs were then recognized with separate recognition algorithms. The proposed DFM analysis algorithm provided a data structure of fillet, rib and tube features for the evaluation of rib and tube dimensions. The optimization of feature dimensions included thickness, height, draft angle, base radius, and space for both ribs and tubes in accordance with various design guides. Finally, the design modification algorithm could modify all unqualified ribs and tubes automatically. This enables the CAE engineer to perform a trial-and-error analysis and the modification of the CAD design during the CAE analysis stage.

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薄壁件肋、管的模流分析设计与修正

开发了塑料注射成型DFM分析与设计修改系统。主要包括提取管肋特征进行分析的特征识别算法、优化特征尺寸的DFM分析算法和自动修改不合格管肋的设计修改算法。提出的特征识别算法在薄壁件的内表面识别辅助面，包括平移面、壁面和底面，然后对每组突出面进行分组。然后用不同的识别算法识别管子和肋骨。提出的DFM分析算法为肋和管的尺寸评定提供了一种圆角、肋和管特征的数据结构。特征尺寸的优化包括厚度、高度、吃水角、基底半径以及肋和管的空间，并按照各种设计指南进行优化。最后，设计修正算法可以自动修正所有不合格的肋、管。这使得CAE工程师能够在CAE分析阶段执行试错分析和修改CAD设计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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CAD'20

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