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铺层取向对光敏树脂固化快速成型构件力学性能影响 被引量:4

Influence of Different Ply Orientations on Mechanical Properties of Rapid Prototyping Structure by Photosensitive Resin Curing
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摘要 材料的各向异性是影响光敏树脂固化快速成型构件力学性能与工业应用的重要因素。针对光敏树脂固化快速成型中的DM9895光敏树脂类橡胶材料、DM8505光敏树脂刚性材料以及ABSlike光敏树脂类丙烯腈-丁二烯-苯乙烯共聚物材料,开展不同铺层方向光固成型拉伸试件的力学测试实验,探讨铺层方向对光敏树脂固化快速成型构件力学性能的影响。研究表明:随着光固化增材制备过程铺层方向角度递增,构件拉伸强度与拉伸断裂能呈递增趋势。ABSlike光敏树脂光固化成型构件力学性能最优,可直接作为承载构件实现工业应用。 Material anisotropic is a vital factor of the mechanical properties and industrial application field of photosensitive resin curing rapid prototyping components. Based on the rapid prototyping curing materials of rubber-like resin material DM9895, rigid resin material DM8505 and acrylonitrile-butadiene- styrene resin material ABSlike, tensile experiments of different ply orientations specimens were carried out, and the influence of ply orientation to the mechanical properties of photosensitive resin curing rapid prototyping specimens were investigated. The results reveal that the tensile strength and tensile fracture energy show an increasing trend with the ply orientation angle increment by the specimen processing of photosensitive resin curing rapid prototyping. ABSlike photosensitive resin curing rapid prototyping components have optimum mechanical properties, and can be used as a bearing member to realize the industrial application directly.
作者 郭辰光 李威力 李源 谢华龙
机构地区 辽宁工程技术大学机械工程学院 东北大学先进制造与自动化技术研究所
出处 《塑料工业》 CAS CSCD 北大核心 2016年第3期111-114,共4页 China Plastics Industry
基金 辽宁省科技计划项目资助(20131043)
关键词 光固成型 光敏树脂 铺层方向 拉伸强度 断裂能 Stereo Lithography Photosensitive Resin Ply Orientations Tensile Strength Fracture Energy
分类号 TQ324.8 [化学工程—合成树脂塑料工业]
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  • 1游长江,刘迪达,罗文静,陈怡.不饱和聚酯的改性[J].广州化学,2001,26(2):42-49. 被引量:6
  • 2王广春,袁圆,刘东旭.光固化快速成型技术的应用及其进展[J].航空制造技术,2011,0(6):26-29. 被引量:29
  • 3颜永年,李生杰,张人佶,林峰,吴任东,卢清萍,熊卓,王小红.Rapid Prototyping and Manufacturing Technology:Principle, Representative Technics, Applications, and Development Trends[J].Tsinghua Science and Technology,2009,14(S1):1-12. 被引量:17
  • 4[1]Bertsch A. Rapid prototyping of small size objects[ J ]. Rapid Prototyping Journal, 2000,6(4 ): 259 ~ 266 被引量:1
  • 5[5]Yoshiaki. A novel microchip for capillary with acrylic microchannel fabricated on photosensor array[ J]. Sensors and Actuators B, 81,2002:202 ~209 被引量:1
  • 6[6]Jiang X. Microstereolithography of lead titantate thick film on silicon substrate[ J] . Sensors and Actuator, 87,2000:72 ~77 被引量:1
  • 7[7]Provin C, Monneret S. Complex ceramic-polymer composite microparts[ J ]. IEEE Transactions on Electronics Packaging Manufacturing, 2002,25( 1 ) 被引量:1
  • 8[8]Luo R C, Tzou J H, Chang Y C. Desktop rapid prototyping system with supervisory [ J ]. IEEE/ASME Transactions on Mechatronics, 2001,6(4) 被引量:1
  • 9[9]Farsari M, et al. A novel high-accuracy microstereolithography method employing an adaptive electro-optic mask [ J ]. Journal of Materials Processing Technology, 2000,107:167 ~ 172 被引量:1
  • 10[10]Beluze L, Bertsch A. Microstereolithogrophy: a new process to build complex 3D objects[ A]. In: Proceedings of the SPIE Symposium on Design, Test and Microfabrication of MEMs/MOEMS[C] , Parise ,France, 1999,3680:808~817 被引量:1

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塑料工业
2016年 第3期

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