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TANG Wen-Lai, FAN Ning, LI Zong-An, XIANG Nan, YANG Ji-Quan. Facile Fabrication of Microchannel with Unconventional Cross-Section Using 3D Printed Sacrificial Mould[J]. Chinese Journal of Analytical Chemistry,
;2019, 47(6): 838-845.
doi:
10.19756/j.issn.0253-3820.191125
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In this work, a novel 3D printed mould-removal method was proposed to fabricate the microchannels with unconventional cross-sections. By modifying the orifice shape of extrusion nozzle with picosecond laser cutting technology, the ABS microchannel moulds with arbitrary cross-sections could be facilely printed by using an ordinary desktop FDM printer. After conducting the PDMS casting and ABS dissolving, the all-PDMS microfluidic chips could be easily produced without complex bonding process. To verify effectiveness of the proposed method, the microchannels with square, semielliptical and triangular sections were designed and successfully fabricated. It was also found that the size of the microchannel section could be flexibly adjusted by just controlling the ABS extrusion amount during the channel mould printing. At last, to explore the effects of channel section on the particle inertial focusing behaviours, the particle lateral migrations in the semielliptical and triangular microchannels were systematically investigated. The results showed that, with the increase of flow rate, the particles flowing in the microchannels moved gradually and laterally to the regions near the centers of each channel edge, and finally forming three stable equilibrium positions for both semielliptical and triangular microchannels.
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