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塑料激光焊接技术 被引量:2

Laser welding technology of plastics
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摘要 塑料激光焊接技术是一种方兴未艾的非接触焊接技术。同其它焊接方法相比,它具有非接触、不透气、不漏水、焊接速度快、精度高、焊缝强度高、无飞边、无残渣、无振动、热应力最小、易于控制、灵活性好、适应性好等诸多优点。塑料激光焊接技术主要应用于医疗器械、电子元器件、汽车零部件、纺织品、包装工业。本文概述了塑料激光焊接的原理、基本要求、焊接性、激光源、焊接方法、优点、应用和最新进展。 Laser welding technology of plastics is a non-contact welding technology currently in the ascendant, which offers a large number of advantages compared to other welding methods, such as non-contact, airtight, watertight, high weld speed, precise, strong, no flash or debris, vibration-free, minimal thermal stress, highly controllable, flexible and adaptable, etc. These advantages attainable with laser welding make it suitable for use in medical devices, electronics, automotive components, textiles, packaging industry. This article provides a review of the principle, basic requirements, weldability, laser resources, welding methods, advantages, applications and recent advances of the welding process.
作者 张胜玉
出处 《国外塑料》 2007年第3期56-62,共7页
关键词 塑料 激光焊 非接触焊接技术 plastics laser welding non-contact welding technology
分类号 TG44 [金属学及工艺—焊接]
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  • 1蒙哥马利.实验设计与分析[M].傅珏生,张健,王振羽等译.北京:人民邮电出版社,2009.347-398.
  • 2Aslanlar S, Ogur A, Ozsarac U, et al: Welding time effect on mechanical properties of automotive sheets in electrical resistance spot welding[J]. Materials & Design, 2008, 29(7): 1427-1431.
  • 3Bilici M K, Yukler A I, Kurtulmus M. The optimization of welding parameters for friction stir spot welding of high density polyethylenesheets[J]. Materials &-Design, 2011, 32(7): 4074-4079.
  • 4Villegas I F. Strength development versus process data in ultrasonic welding of thermoplastic composites with flat energy directors and its application to the definition of optimum processing parameters[J]. Composites Part A: Applied Science and Manufacturing, 2014, 65:27- 37.
  • 5Villegas I F. Strength development versus process data in ultrasonic welding of thermoplastic composites with flat energy directors and its application to the definition of optimum processing parameters [J]. Composites Part A: Applied Science and Manufacturing, 2014, 65:27 -37.
  • 6Tamrin K F, Nukman Y, Sheikh N A. Laser spot welding of thermoplastic and ceramic: An experimental investigation [J]. Materials and Manufacturing Processes, 2015, 30(9): 1138-1145.
  • 7Visco A M, Brancato V, Cutroneo M, et al: Nd & YAG laser irradiation of single lap joints made by polyethylene and polyethylene doped by carbon nanomaterials[J]. Journal of Physics: Conference Series, 2014, 508: 012027.
  • 8Farazila Y, Miyashita Y, Hua W, et al: YAG laser spot welding of PET and metallic materials[J]. Journal of Laser Micro/Nanoengineering, 2011, 6(1): 69-74.
  • 9Haberstroh E, Hoffmann W M, Poprawe R, et al: 3 Laser transmission joining in microtechnology[J]. Microsystem Technologies, 2006, 12(7): 632-639.
  • 10Rastogi N K, Rashmi K R. Optimisation of enzymatic liquefaction of mango pulp by response surface methodology[J]. European Food Research and Technology, 1999, 209(1): 57-62.

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国外塑料
2007年 第3期

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