PEI板材粘性介质温热胀形试验及变形规律研究
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摘要
针对小批量、复杂形状的薄壁聚醚酰亚胺(PEI)制件提出了采用粘性介质温热成形的方法进行此类零件的成形,以达到降低生产成本、缩短产品研制周期的目的。通过PEI板材的拉伸实验和粘性介质温热胀形试验,研究了不同温度条件下的PEI板材力学性能及其变形规律。研究结果表明:PEI板材在(20~150)℃范围内,随着温度的升高,成形性能逐渐提高;PEI粘性介质温热胀形试件的最大壁厚减薄率在胀形试件中心呈现区域性分布,最大壁厚减薄率区域面积随着变形温度的升高而增大;此外,相比于单向应力状态,PEI板材在双向应力状态下具有更好的成形性能,并且PEI板材的形变没有对零件表面光泽和透光率造成影响。
A viscous warm pressure forming method is proposed to reduce the cost and shorten the development cycle in small batch for complex shape thin-walled parts of polyetherimide(PEI). The tensile test and viscous warm pressure bulging experiment were carried out to investigate the mechanical property and deformation law of PEI sheet. The results show that with the temperature increasing,the formability of PEI sheet increases from 20℃ to 150℃. The maximum wall thickness reduction rate of viscous warm pressure bulging specimen presents regional distribution which locates at the center of the bulging specimen,and with the temperature increasing,the area of regional distribution increases. Furthermore, the formability of PEI sheet is greater in biaxial stress state than that in uniaxial stress state. The surface finish and light transmittance of specimen are not influenced by the deformation of PEI sheet.
A viscous warm pressure forming method is proposed to reduce the cost and shorten the development cycle in small batch for complex shape thin-walled parts of polyetherimide(PEI). The tensile test and viscous warm pressure bulging experiment were carried out to investigate the mechanical property and deformation law of PEI sheet. The results show that with the temperature increasing,the formability of PEI sheet increases from 20℃ to 150℃. The maximum wall thickness reduction rate of viscous warm pressure bulging specimen presents regional distribution which locates at the center of the bulging specimen,and with the temperature increasing,the area of regional distribution increases. Furthermore, the formability of PEI sheet is greater in biaxial stress state than that in uniaxial stress state. The surface finish and light transmittance of specimen are not influenced by the deformation of PEI sheet.
引文
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[9]刘建光,王忠金,王仲仁.涡扇发动机铝合金碗形件的粘性介质压力成形[J].推进技术,2003,24(6):573-576.(Liu Jian-guang,Wang Zhong-jin,Wang Zhong-ren.Viscous pressure forming for aluminum alloy bowl-type parts of turbofan engine[J].Journal of Propulsion Technology,2003,24(6):573-576.)
[10]高铁军,王忠金,高洪波.涡扇发动机异形曲面壳体零件整体成形工艺研究[J].推进技术,2007,28(4):437-440.(Gao Tie-jun,Wang Zhong-jin,Gao Hong-bo.Integral forming for special-shaped curved surface shell parts of turbofan engine[J].Journal of Propulsion Technology,2007,28(4):437-440.)
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[3]Peng H L,Li M Z,Liu C G.Study of multi-point forming for polycarbonate sheet[J].International Journal of Advanced Manufacturing Technology,2013,67(9-12):2811-2817.
[4]庄靖东,黄志高,周华民.热成型条件下PEEK力学行为研究与建模[J].塑料工业,2015,43(7):73-77.(Zhuang Jing-dong,Huang Zhi-gao,Zhou Hua-min.The research and modeling of mechanical behaviors of PEEK under thermoforming conditions[J].China Plastics Industry,2015,43(7):73-77.)
[5]曹鋆汇,付文智,李明哲.高分子板材多点热成形中的压痕及其影响因素[J].吉林大学学报:工学版,2013,43(6):1536-1540.(Cao Jun-hui,Fu Wen-zhi,Li Ming-zhe.Influence factors on dimpling in multi-point thermoforming for polymer sheet[J].Journal of Jilin University:Engineering and Technology Edition,2013,43(6):1536-1540.)
[6]侯珍秀,刘恩仁,刘智.热态气压胀形聚碳酸脂板材盆形件有限元分析[J].哈尔滨工业大学学报,2009,41(3):37-39.(Hou Zhen-xiu,Liu En-ren,Liu Zhi.Finite element analysis of basinshape parts in bulge-forming of polycarbonate sheet[J].Journal of Harbin Institute of Technology,2009,41(3):37-39.)
[7]高铁军,贺平,王忠金.薄壁零件粘性介质外压缩径成形及数值模拟[J].机械设计与制造,2010,232(6):137-138.(Gao Tie-jun,He Ping,Wang Zhong-jin.Viscous medium outer pressure necking forming and numerical simulation for thin-wall parts[J].Machinery Design&Manufacture,2010,232(6):137-138.)
[8]王忠金,王仲仁,王君平.冲压发动机超薄壁波纹形件的粘性介质压力成形[J].推进技术,2002,23(1):84-88.(Wang Zhong-jin,Wang Zhong-ren,Wang Jun-ping.Viscous pressure forming of super-alloy super-thin wall corrugated parts applied to ramjet engine[J].Journal of Propulsion Technology,2002,23(1):84-88.)
[9]刘建光,王忠金,王仲仁.涡扇发动机铝合金碗形件的粘性介质压力成形[J].推进技术,2003,24(6):573-576.(Liu Jian-guang,Wang Zhong-jin,Wang Zhong-ren.Viscous pressure forming for aluminum alloy bowl-type parts of turbofan engine[J].Journal of Propulsion Technology,2003,24(6):573-576.)
[10]高铁军,王忠金,高洪波.涡扇发动机异形曲面壳体零件整体成形工艺研究[J].推进技术,2007,28(4):437-440.(Gao Tie-jun,Wang Zhong-jin,Gao Hong-bo.Integral forming for special-shaped curved surface shell parts of turbofan engine[J].Journal of Propulsion Technology,2007,28(4):437-440.)
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