Basic Principles for Thermoplastic Parts Finishing With Impulse Thermal Energy Method

Handbook of Research on Advancements in the Processing, Characterization, and Application of Lightweight Materials Pub Date : 1900-01-01 DOI:10.4018/978-1-7998-7864-3.ch003

Sergiy Plankovskyy, O. Shypul, Yevgen Tsegelnyk, D. Brega, O. Tryfonov, V. Malashenko

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Abstract

Impulse thermal energy method (ITEM) as modification of the thermal energy method that is successfully used for finishing is considered for application to thermoplastics. The chapter focuses to highlight the basic principles of the thermoplastics treatment by acting heat fluxes inherent to ITEM providing the time-controlled production of combustion species. The properties of thermoplastics and the requirements for their treatment have the greatest impact on processing settings. Thus, the questions of the choice of the preferred fuel mixture, the type of its ignition, and combustion have been studied. By means of numerical situating, the processes of melting and healing of pores during processing are investigated. A method of defining processing settings has been developed, taking into account the limitations on critical temperatures. The promising possibilities of ITEM in relation to the processing of thermoplastics parts obtained by additive technologies are outlined.

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脉冲热能法加工热塑性零件的基本原理

脉冲热能量法(ITEM)作为热能量法的改进，已成功地用于整理，考虑应用于热塑性塑料。本章着重强调热塑性塑料处理的基本原理，通过作用热流固有的项目提供燃烧物种的时间控制生产。热塑性塑料的性能及其处理要求对加工设置的影响最大。因此，研究了优选混合燃料的选择、其点火类型和燃烧等问题。采用数值模拟的方法，研究了加工过程中气孔的熔化和愈合过程。考虑到临界温度的限制，已经开发了一种确定加工设置的方法。概述了ITEM在通过增材技术获得的热塑性塑料零件加工方面的前景。

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Handbook of Research on Advancements in the Processing, Characterization, and Application of Lightweight Materials

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