Optimized Fabrication of Flexible Paper‐Based PCBs with Pencil and Copper Electroplating

Vinit Srivastava, Shivam Dubey, Rahul Vaish, Bharat Singh Rajpurohit
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Abstract

This research unveils a transformative methodology for fabricating flexible printed circuit boards (PCBs), focusing on the unique attributes of filter paper substrates. A meticulous parametric exploration scrutinizes critical aspects such as buckling resistance, charging current, plating time, and electrode configurations for copper electroplating. Key findings highlight the exceptional stability of copper electroplating on filter paper, exhibiting robust resistance against environmental variations and bending angles spanning +180° to −180°. Utilizing higher pencil grade material and maintaining a minimum 4 cm distance with a voltage range of 3 to 1.44 V ensures uniform, controlled plating without burning, optimizing the electrode area below 1 cm2 for enhanced practicality. The research underscores the longevity and durability of copper‐plated filter paper, with negligible resistance changes even after 1000 folds. Over a year, the shelf‐life assessment emphasizes the excellent stability of electroplated filter paper. Practical applications, including fully functional circuits and a bio‐degradable piano, underscore the versatility and real‐world feasibility of the proposed electroplating technique.

Abstract Image

用铅笔和铜电镀优化柔性纸基印刷电路板的制作工艺
这项研究揭示了制造柔性印刷电路板(PCB)的变革性方法,重点是滤纸基材的独特属性。通过细致的参数分析,对电镀铜的降伏电阻、充电电流、电镀时间和电极配置等关键环节进行了仔细研究。主要研究结果表明,在滤纸上电镀铜具有卓越的稳定性,对环境变化和+180°至-180°的弯曲角度具有强大的抵抗力。使用更高级的铅笔材料并保持最小 4 厘米的距离,电压范围为 3 至 1.44 V,可确保均匀、可控的电镀而不会烧焦,同时优化电极面积,使其低于 1 平方厘米,从而提高了实用性。这项研究强调了镀铜滤纸的寿命和耐用性,即使经过 1000 次折叠,其电阻变化也微乎其微。一年多的保质期评估强调了电镀滤纸的出色稳定性。包括全功能电路和生物可降解钢琴在内的实际应用凸显了所提出的电镀技术的多功能性和现实可行性。
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