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Start-on-the-Part Transient Model for In-Situ Automated Tape Placement of Thermoplastic Composites

机译：用于热塑性复合材料的原位自动化带放置的零件瞬态模型

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Fabrication of a complex part by automated tape placement (ATP) can require starting up a new tape-end in the part interior, termed start-on-the-part. Careful thermal management of the starting transient is needed to achieve uniform crystallinity and inter-laminar weld strength -- which is the objective of this modeling effort. The transient is modeled by a Fourier-Laplace transform solution of the time-dependent thermal transport equation in two spatial dimensions. The solution is subject to a quasi-steady approximation for the speed and length of the consolidation head. Sample calculations are done for the Langley ATP robot applying PEEK/carbon fiber composite and for two upgrades in robot performance. The head starts out almost at rest which meets an engineering requirement for accurate placement of the new tape-end. The head then rapidly accelerates until it reaches its steady state speed. This rapid acceleration, however, violates the quasi-steady approximation, so uniform weld strength and crystallinity during the starting transient are not actually achieved. The solution does give the elapsed time and distance from start-up to validity of the quasi-steady approximation -- which quantifies the length of the non-uniform region. The elapsed time was always less than 0.1 s and the elapsed distance less than 1 cm. This quantification would allow the non-uniform region to be either trimmed away or compensated for in the design of a part. Such compensation would require experiments to measure the degree of non-uniformity, because the solution does not provide this information. The rapid acceleration suggests that the consolidation roller or belt be actively synchronized to avoid abrading the tape.

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Costen, R. C. ; Marchello, J. M.;
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年度 2004
页码 1-15
总页数 15
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Carbon fiber reinforced plastics; Composite materials; Models; Thermoplastic Polymers; Tapes; Weld strength; Robots;

机译：碳纤维增强塑料;复合材料;模型;热塑性聚合物;胶带;焊接强度;机器人;

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专利

1. Processing of thermoplastic matrix composites through automated fiber placement and tape laying methods A review [J] . Yassin Khaled, Hojjati Mehdi Journal of Thermoplastic Composite Materials . 2018,第12期

机译：通过自动纤维放置和胶带铺设方法加工热塑性矩阵复合材料综述
2. Modeling for Heat Transfer of the Thermoplastic Composites In Situ Automated Fiber Placement Process [J] . Yuehua Li, Hongya Fu, Zhenyu Han, Advanced Science Letters . 2012,第Null期

机译：原位自动纤维放置过程中热塑性复合材料传热建模
3. Modeling and control of the in-situ thermoplastic composite tape-laying process [J] . Wei-Ching Sun, Susan C. Mantell, Kim A. Stelson Journal of Dynamic Systems, Measurement, and Control . 1998,第4期

机译：原位热塑性复合材料铺带过程的建模和控制
4. Start-on-the-part transient model for in-situ automated tape placement of thermoplastic composites [C] . Robert C.Costen, Jospeh M.Marchello International SAMPE symposium and exhibition . 1998

机译：用于热塑性复合材料原位自动胶带放置的部分开始瞬态模型
5. Modeling of the thermoplastic composite tape placement process [D] . Sonmez, Fazil Onder 1995

机译：热塑性复合材料胶带放置过程的建模
6. Multi-Scale Modeling and Simulation of Thermoplastic Automated Tape Placement: Effects of Metallic Particles Reinforcement on Part Consolidation [O] . Angel Leon, Marta Perez, Anaïs Barasinski, 2019

机译：热塑性塑料自动胶带放置的多尺度建模和仿真：金属颗粒增强对零件固结的影响
7. Heat transfer modelling of flashlamp heating for automated tape placement of thermoplastic composites [O] . Anastasios Danezis, David Williams, Michael Edwards, 2021

机译：热塑性复合材料自动胶带施加闪光加热的传热建模

Start-on-the-Part Transient Model for In-Situ Automated Tape Placement of Thermoplastic Composites

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