印刷铜用于PCB修复的方法

Dylan Richmond, E. Enakerakpo, M. Alhendi, Peter McClure, M. Poliks
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引用次数: 2

摘要

印刷电路板组装(PCBA)中出现的损坏和缺陷常常导致昂贵元件的处理。在层压板和电路被移除的情况下,制造过程中的传统维修无法使设备恢复使用。本研究探讨了使用气溶胶喷射打印(AJP)和传统工程流体点胶(EFD)作为修复受损pcba的方法。pcb上的表面贴装组件故障可能是由于不良的焊点或组件问题造成的。为了挽救这样的PCBA,该组件必须从板上物理移除,并附加一个新的。在移除PCBA组件的过程中,可能会发生衬垫坑,其中衬垫和层压板随着组件一起损坏/移除。这留下了一个陨石坑的地方,垫,渲染板无法修复,因此,无法使用。微量损坏是pcb的另一个常见故障。任何一种损坏的修复都需要重新连接复杂的电路。传统的修复方法是在未损坏的区域之间焊接一根电线,重新布线。在精细导电痕迹的情况下,随着异质封装创新的不断进步,在设备变得越来越小的情况下,传统方法将无法解决这种损坏。气溶胶喷射打印是一种直接写入的增材制造工艺,通常用于柔性混合电子产品,可以通过修复有凹坑的焊盘和损坏的痕迹来节省昂贵的pcb。AJP在修复损坏模块方面取得了成功,但该工艺尚未优化,无法用于FR4的一般修复。用AJP和EFD修复FR4层压板上损坏的电路,并用铜纳米颗粒墨水填充焊坑。铜墨水结构均匀烧结,以实现可焊接表面,并与PCB上暴露的层压板和剩余铜具有良好的附着力。讨论了减少空洞、开裂和氧化的工艺条件和方法。由于凹坑的尺寸有限,打印和固化也面临着额外的挑战,需要定制干燥和烧结时间表,以确保良好的附着力和最大限度地减少空隙。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Methods of Printing Copper for PCB Repair
Damage and defects that occur in printed circuit board assembly (PCBA) often lead to the disposal of expensive components. In cases where laminate and circuitry have been removed, traditional repairs in the manufacturing process have not been able to return devices into service. This study examines the use of aerosol jet printing (AJP) and traditional engineering fluid dispensing (EFD) as methods to service repairs of damaged PCBAs.Surface mount component failures on PCBAs may occur as a result of a bad solder joint or problems with the component. In order to salvage such a PCBA, the component must be physically removed from the board and a new be attached. During the removal of PCBA components, pad cratering may occur, where the pad and laminate are damaged/removed along with the component. This leaves behind a crater in place of the pad, rendering the board unrepairable and thus, unusable. Trace damage is another common failure in PCBs. A repair to either sort of damage often requires reconnections of intricate circuitry to be made. Trace repair has traditionally been serviced by soldering a wire between the undamaged regions, rerouting the connection. In the case of fine conductive traces, as seen in devices which are becoming smaller as heterogeneous packaging innovations continue to progress, traditional methods will not be able to service this sort of damage.Aerosol jet printing, a direct-write additive manufacturing process commonly used in flexible hybrid electronics, could save expensive PCBs by repairing cratered pads and damaged traces. The use of AJP has been successful in repairing damaged modules, however the process has not been optimized for general repairs on FR4. The use of AJP and EFD to repair damaged circuitry on FR4 laminate and to fill pad craters with copper nanoparticle ink is demonstrated. Copper ink structures are uniformly sintered to achieve a solderable surface and good adhesion to the exposed laminate and remaining copper on the PCB. Processing conditions and methods to minimize voiding, cracking, and oxidation are discussed. The confined dimensions of the craters bring additional challenges to printing and curing as large structures are desired, but require tailored drying and sintering schedules to ensure good adhesion and minimize voids.
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