• Title/Summary/Keyword: Laser micro joining

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A study on the micro wire joining using single mode fiber laser (Single mode fiber laser를 이용한 micro wire joining에 관한 연구)

  • Park K.W.;Na S.J.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2006.05a
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    • pp.663-664
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    • 2006
  • In the electronic, medical, aerospace and automobile industries, many products and parts are manufactured by joining. Recently, as these get smaller, micro joining is becoming more and more important. In this study, micro wire-to-micro wire parallel joining was performed using single mode fiber laser. Maximum power of the fiber laser is 100 W. The CCD(Charge- Coupled Device, CCD) camera to observe the specimen was made up. The objective was applied to micro joining system to make a small spot size of laser beam. In order to control the target position, micro-multi-axis-stage was set up. This paper presents results for the single mode fiber laser joining of micro wires.

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A Study on Laser Welding for 3D Printed Metal Plate and Polymer (금속 3D 프린팅 소재와 폴리머 레이저접합에 관한 연구)

  • Ye, Kang-Hyun;Kim, Sung-Wook;Park, Geo-Dong;Choi, Hae-Woon
    • Journal of Welding and Joining
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    • v.34 no.4
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    • pp.23-27
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    • 2016
  • A 3D printed metal part and thermal plastic polymer part were joined by direct laser irradiation. The 3D metal part was fabricated by using DED(Direct Energy Deposition) with STS316 material. The experiment was carried out through no patterned metal surface, 3D metal printed surface and micro laser patterned surface. The most secure joining quality was obtained at the laser micro patterned surface specimen and the counterparts of polymers were PLA and PE based thermo plastics. The applied laser power was 350Watt and the distance of patterns was maintained at $150{\mu}m$. The laser line width was optimized at $450{\mu}m$ and the laser micro pattern depth was $180{\mu}m$ for the best joining quality. Based on the result analysis, the possibility of laser material joining for metal to polymer was proposed and multi-material joining will be possible in 3D laser direct material fabrication.

Laser Micro-Joining and Soldering (레이저 마이크로 접합 및 솔더링)

  • Hwang, Seung Jun;Kang, Hye Jun;Kim, Jeng O;Jung, Jae Pil
    • Journal of the Microelectronics and Packaging Society
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    • v.26 no.3
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    • pp.7-13
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    • 2019
  • In this paper, the principles, types and characteristics of the laser and laser soldering are introduced. Laser soldering methods for electronics, metals, semiconductors are also presented. Laser soldering is a non-contact process that transfers energy to solder joint by a precisely controlled beam. Demands for laser soldering are increasing due to bonding for complex circuits and local heating in micro joint. Laser absorption ratio depends on materials, and each material has different absorption or reflectivity of the laser beam, which requires fine adjustment of the laser beam. Laser types and operating conditions are also important factors for laser soldering performance. In this paper, the performance of Nd:YAG laser soldering is compared to the hot blast reflow. Meanwhile, a diode laser gives different wavelength and smaller parts with high performance, but it has various reliability issues such as heat loss, high power, and cooling technology. These issues need to be improved in the future, and further studies for laser micro-joining and soldering are required.

Laser bonding using liquid glass (유리액를 이용한 레이저 선택 접합)

  • Kim, Joo-Han;Lee, Jae-Hoon;Kim, Hyang-Tae
    • Laser Solutions
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    • v.11 no.3
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    • pp.1-4
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    • 2008
  • A selective laser micro bonding process using liquid glass (methylsilsesquioxane) was developed and the results are analysed. The liquid glass can be solidified with Nd:YAG laser irradiation and it can be applied for joining two glass substrates. A bonding thickness of a few micrometers can be achieved. The appropriate laser power density (or this process is around 40-60 $kW/cm^2$ and its bonding force is 1000-1200 $gf/mm^2$. This process can be applied for bonding micro devices such as micro bio-sensors or display products. Its advantages and limitations are presented and discussed.

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A Study on Laser Micro Joining of Small Diameter Gold Wires to Nickel Thin Films (미소 직경 골드 와이어와 니켈 박막의 레이저 마이크로 접합에 관한 연구)

  • Park, K.W.;Na, S.J.
    • Laser Solutions
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    • v.10 no.2
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    • pp.25-28
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    • 2007
  • Rapidity and flexibility are very important in the electronic components industry. The laser process provides the industry with more rapidity and flexibility. For this reason, the laser process is considered as an acceptable method in terms of rapidity and flexibility. In this study, a wide range of experiments have been carried out on the gold wire-to-nickel thin film joining using the continuous wave fiber laser. In particular, changes in the shape of joint depending on the changes of a target point have been observed.

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Recent Research Trend in Laser-Soldering Process

  • Kim, Hwan Tae;Kil, Sang Cheol;Hwang, Woon Suk
    • Corrosion Science and Technology
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    • v.8 no.5
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    • pp.184-187
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    • 2009
  • The trend of the microjoining technology by the laser-soldering process has been reviewed. Among the production technologies, joining technology plays an important role in the fabrication of electronic components. This has led to an increasing attention towards the use of modern microjoining technology such as micro-resistance spot joining, micro-soldering, micro-friction stir joining and laser-soldering, etc. This review covers the recent technical trends of laser-soldering collected from the COMPENDEX DB analysis of published papers, research subject and research institutes.

A study on ceramic and metal composite material joining for micro filter using thermal spray and laser welding (용사법과 레이저 용접을 이용한 복합소재 미세필터 연구)

  • Song, In-Gyu;Choi, Hae-Woon;Kim, Joo-Han;Yun, Bong-Han;Park, Jung-Eon
    • Proceedings of the KWS Conference
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    • 2010.05a
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    • pp.32-38
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    • 2010
  • Hybrid material(ceramic+metal) processes were developed for micro filter using ceramics coating at metal filter surface by thermal spray method, micro hole drilling at ceramic coated filter surface by femtosecond laser, and fiber laser direct welding of ceramic and metal (SUS304, SM45C) by capillary effect. Thermal spray process was used for ceramic powders and metal filters. The used ceramic powders were $Al_2O_3+40TiO_2$(Metco 131VF) powder of maximum particle size $5{\mu}m$ and ${Al_2O_3}99+$(Metco 54NS) power of maximum particle size 45m. Ceramic coated filters using thermal spray method had a great influence on powder material, particle size and coating thickness but had a fine performance as a micro filter. CW fiber laser was used to drill the top ceramic layer and melt the bottom metal layer for joining applications.

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Laser Transmission Welding of Flexible Substrates and Evaluation of the Mechanical Properties (플렉서블 기판의 레이저 투과 용접 및 기계적 특성 평가)

  • Ko, Myeong-Jun;Sohn, Minjeong;Kim, Min-Su;Na, Jeehoo;Ju, Byeong-Kwon;Park, Young-Bae;Lee, Tae-Ik
    • Journal of the Microelectronics and Packaging Society
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    • v.29 no.2
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    • pp.113-119
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    • 2022
  • In order to improve the mechanical reliability of next-generation electronic devices including flexible, wearable devices, a high level of mechanical reliability is required at various flexible joints. Organic adhesive materials such as epoxy for bonding existing polymer substrates inevitably have an increase in the thickness of the joint and involve problems of thermodynamic damage due to repeated deformation and high temperature hardening. Therefore, it is required to develop a low-temperature bonding process to minimize the thickness of the joint and prevent thermal damage for flexible bonding. This study developed flexible laser transmission welding (f-LTW) that allows bonding of flexible substrates with flexibility, robustness, and low thermal damage. Carbon nanotube (CNT) is thin-film coated on a flexible substrate to reduce the thickness of the joint, and a local melt bonding process on the surface of a polymer substrate by heating a CNT dispersion beam laser has been developed. The laser process conditions were constructed to minimize the thermal damage of the substrate and the mechanism of forming a CNT junction with the polymer substrate. In addition, lap shear adhesion test, peel test, and repeated bending experiment were conducted to evaluate the strength and flexibility of the flexible bonding joint.

Analysis of Transmission Infrared Laser Bonding for Polymer Micro Devices (폴리머 마이크로 장치에 대한 레이저 투과 마이크로 접합)

  • Kim, Joo-Han;Shin, Ki-Hoon
    • Journal of Welding and Joining
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    • v.23 no.5
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    • pp.55-60
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    • 2005
  • A precise bonding technique, transmission laser bonding using energy transfer, for polymer micro devices is presented. The irradiated IR laser beam passes through the transparent part and absorbed on the opaque part. The absorbed energy is converted into heat and bonding takes place. In order to optimize the bonding quality, the temperature profile on the interface must be obtained. Using optical measurements of the both plates, the absorbed energy can be calculated. At the wavelength of 1100nm $87.5\%$ of incident laser energy was used for bonding process from the calculation. A heat transfer model was applied for obtaining the transient temperature profile. It was found that with the power of 29.5 mW, the interface begins to melt and bond each other in 3 sec and it is in a good agreement with experiment results. The transmission IR laser bonding has a potential in the local precise bonding in MEMS or Lab-on-a-chip applications.