Optimization of Hot Embossing Condition Using Taguchi Method and Evaluation of Microchannels for Flexible On-Chip Proton-Exchange Membrane Fuel Cell
Yubo Huang, Han Gao, Zhiheng Wu, Hongyang Xiao, Cao Xia, Yuanlin Xia, Zhuqing Wang

TL;DR
This paper introduces a new method to optimize hot embossing for making microchannels in fuel cells, using the Taguchi method to improve efficiency and performance.
Contribution
The paper proposes a novel evaluation method for microchannels and applies the Taguchi method to optimize hot embossing conditions for PEMFCs.
Findings
The Taguchi method identified optimal hot embossing conditions with an effective filling rate above 95%.
Temperature was found to be the most significant factor affecting the hot embossing process.
The proposed method enables the fabrication of precise microchannels suitable for flexible PEMFCs.
Abstract
Hot embossing is a manufacturing technique used to create microchannels on polymer substrates. In recent years, microchannel fabrication technology based on hot embossing has attracted considerable attention due to its convenience and low cost. A new evaluation method of microchannels, as well as an approach to obtaining optimal hot embossing conditions based on the Taguchi method, is proposed in this paper to fabricate precise microchannels for a flexible proton-exchange membrane fuel cell (PEMFC). Our self-made hot embossing system can be used to fabricate assorted types of micro-channel structures on polymer substrates according to various applications, whose bottom width, top width, height and cross-sectional area vary in the aims of different situations. In order to obtain a high effective filling ratio, a new evaluation method is presented based on the four parameters of channel…
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Taxonomy
TopicsFuel Cells and Related Materials · Microfluidic and Capillary Electrophoresis Applications · Organic Electronics and Photovoltaics
