Bonding is a bottleneck for mass-production of polymer microfluidic devices. A novel ultrasonic bonding method for rapid and deformation-free bonding of polymethyl methacrylate (PMMA) microfluidic chips is presented in this paper. Convex structures, usually named energy director in ultrasonic welding, were designed and fabricated around micro-channels and reservoirs on the substrates. Under low amplitude ultrasonic vibration, localized heating was generated only on the interface between energy director and cover plate, with peak temperature lower than T g (glass transition temperature) of PMMA. With the increasing of temperature, solution of PMMA in isopropanol (IPA) increases and bonding was realized between the contacting surfaces of energy director and cover plate while no solution occurs on the surfaces of other part as their lower temperature. PMMA microfluidic chips with micro-channels of 80 μm × 80 μm were successfully bonded with high strength and low dimension loss using this method.
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机译:粘接是大规模生产聚合物微流体装置的瓶颈。本文提出了一种新的超声键合方法,用于快速,无变形地粘合聚甲基丙烯酸甲酯(PMMA)微流控芯片。凸结构通常在超声焊接中被称为能量导向器,是围绕基底上的微通道和储层设计和制造的。在低振幅超声振动下,仅在能量导向器和盖板之间的界面上产生局部加热,峰值温度低于PMMA的T g (玻璃化转变温度)。随着温度的升高,PMMA在异丙醇(IPA)中的溶液增加,并且在能量导向器和盖板的接触表面之间实现了键合,而在较低温度下其他部分的表面则没有溶液出现。使用该方法成功地以高强度和低尺寸损失成功粘合了具有80μm×80μm微通道的PMMA微流体芯片。
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