Polymer incremental sheet forming process: Temperature analysis using response surface methodology
作者: I. Bagudanch , M. Vives-Mestres , M. Sabater , M.L. Garcia-Romeu
DOI: 10.1080/10426914.2016.1176191
关键词: Frustum 、 Response surface methodology 、 Pyramid (geometry) 、 Incremental sheet forming 、 Materials science 、 Process (computing) 、 Forming processes 、 Design of experiments 、 Mechanical engineering 、 Generatrix
摘要: ABSTRACTTo reduce costs associated with the manufacturing of customized products, several innovative forming processes have been developed. Incremental sheet (ISF) is one these new technologies, becoming, in past decade, more interesting for academic and industrial community. The influence main process parameters, namely, tool diameter, spindle speed, feed rate, step down, studied depth this paper. maximum temperature achieved during a truncated pyramid frustum circular generatrix using three nonbiocompatible two biocompatible polymer materials measured. Box–Behnken design experiments response surface methodology utilized to statistically analyze results provide models able predict temperatures.
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