Experimental Research on Laser Transmission Micro-Joining Based on the Mask

Cai Lian Fan; Hui Xia Liu; Zhen Guan Zhao; Yan Wei Wu; Xiao Wang

doi:10.4028/www.scientific.net/KEM.620.17

Paper Titles

Modeling and Optimization of Laser Direct Joining Process Parameters of Titanium Alloy and Carbon Fiber Reinforced Nylon Based on Response Surface Methodology
p.3

Modeling and Optimization of Mask Assisted Laser Transmission Micro Joining Process
p.10

Experimental Research on Laser Transmission Micro-Joining Based on the Mask
p.17

Molten Depth Modeling of Laser Transmission Welding Based on Temperature Distribution of Moving Point Heat Source
p.23

Numerical Investigation on Laser-Assisted Flow Forming Process
p.29

Impact Analysis of the Force Environment on the KDP Crystal Harmonic Loss Considering the Frame Surface Topography
p.35

Experimental Study of Laser Direct Joining of Metal and Carbon Fiber Reinforced Nylon
p.42

Study of Form Control Algorithm in Atmospheric Pressure Plasma Processing
p.49

HomeKey Engineering MaterialsKey Engineering Materials Vol. 620Experimental Research on Laser Transmission...

Experimental Research on Laser Transmission Micro-Joining Based on the Mask

Abstract:

With the demand of high-quality and aesthetical products in the domain of medical microbiology, it’s more and more important to join micro weld. Due to traditional joining methods’ difficulty in meeting the demands, laser transmission micro-joining is of great significance. The materials used to laser transmission micro-joining based on the mask are PET, and the experiments are conducted on diode laser. The weld geometry with different gap widths on the mask is demonstrated at the same process parameters. In addition, the causes of forming different morphologies are analyzed. The formation mechanism of weld is analyzed as well. Moreover, process parameters’ effects on joint strength and joint width are deeply explored when gap width on the mask is 0.3mm. The results show that100 um micro weld joint is realized. At the same time, the range of process parameters is determined.