Investigation on replication of microfluidic channels by hot embossing |
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Authors: | Ferah Çoğun Ender Yıldırım M. A. Sahir Arikan |
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Affiliation: | 1. Mechanical Engineering Department, ?ankaya University, Ankara, Turkey;2. Mechanical Engineering Department, Middle East Technical University, Ankara, Turkeyferahco@cankaya.edu.tr;4. Mechanical Engineering Department, Middle East Technical University, Ankara, Turkey |
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Abstract: | In this study, effects of embossing temperature, time, and force on production of a microfluidic device were investigated. Polymethyl methacrylate (PMMA) substrates were hot embossed by using a micromilled aluminum mold. The process parameters were altered to observe the variation of replication rate in width and depth as well as symmetry of the replicated microfluidic channels. Analysis of variance (ANOVA) on the experimental results indicated that embossing temperature was the most important process parameter, whereas embossing time and force have less impact. One distinguishing aspect of this study is that, the channels were observed to be skewed to either side of the channel depending on the location of the protrusions on the mold. The mechanism of the skewness was investigated by finite element analysis and discussed in detail. Results showed that the skewness depends on the flow characteristics of the material and could be reduced by increasing the embossing temperature. The best replication rates were obtained at parameter settings of 115°C, 10?kN, and 8?min for the molds with minimum 56?µm wide features of 120?µm depth. We also showed that the fabricated channels could be successfully sealed by solvent-assisted thermo-compressive bonding at 85°C under 5.5?kN force. |
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Keywords: | Bonding channel embossing hot microfluidics plastic PMMA replication |
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