本项目一方面对传统POFV(Plating over filled via)工艺进行优化,减少钻孔及镀铜流程,另一方面研究了线路侧蚀、阻焊侧蚀及沉镍金过程参数等因素对0.03mm阻焊开窗位置渗镀的影响,解决了传统的小阻焊开窗POFV工艺板制作中易出现的外层面...本项目一方面对传统POFV(Plating over filled via)工艺进行优化,减少钻孔及镀铜流程,另一方面研究了线路侧蚀、阻焊侧蚀及沉镍金过程参数等因素对0.03mm阻焊开窗位置渗镀的影响,解决了传统的小阻焊开窗POFV工艺板制作中易出现的外层面铜铜厚极差大,外层蚀刻困难以及渗镀上阻焊等一系列问题。展开更多
Within offshore installations, making tubing connections conduct electricity is a developing interest. Being able to use tubing structures to carry the drive power needed downhole avoids installation of cables and lin...Within offshore installations, making tubing connections conduct electricity is a developing interest. Being able to use tubing structures to carry the drive power needed downhole avoids installation of cables and lines. The challenge is making the connection good enough with minimum possible power loss. At the same time, the connection has to secure the transfer of the rated power without any danger of overheating. An overheating can eventually result in a welded connection. Previous studies on contact design have mainly focused on low level contact force, while this study aims to find out the influence of surface roughness and connection strength, at macro level, on contact resistance of tubing connections so as to know the power transfer capability of the connection. First, the connection is simplified by "rolling out" the tubes to flat sheet metals and the voltage drop at rated current was measured at various loads. Then experiment was conducted on contact pairs with two different surface finish qualities and three different contact fits. The results show that smoother surfaces ease the flow of current while high interference fit increases the contact stability. The influence of surface topography becomes insignificantly low at high connection interference.展开更多
文摘本项目一方面对传统POFV(Plating over filled via)工艺进行优化,减少钻孔及镀铜流程,另一方面研究了线路侧蚀、阻焊侧蚀及沉镍金过程参数等因素对0.03mm阻焊开窗位置渗镀的影响,解决了传统的小阻焊开窗POFV工艺板制作中易出现的外层面铜铜厚极差大,外层蚀刻困难以及渗镀上阻焊等一系列问题。
文摘Within offshore installations, making tubing connections conduct electricity is a developing interest. Being able to use tubing structures to carry the drive power needed downhole avoids installation of cables and lines. The challenge is making the connection good enough with minimum possible power loss. At the same time, the connection has to secure the transfer of the rated power without any danger of overheating. An overheating can eventually result in a welded connection. Previous studies on contact design have mainly focused on low level contact force, while this study aims to find out the influence of surface roughness and connection strength, at macro level, on contact resistance of tubing connections so as to know the power transfer capability of the connection. First, the connection is simplified by "rolling out" the tubes to flat sheet metals and the voltage drop at rated current was measured at various loads. Then experiment was conducted on contact pairs with two different surface finish qualities and three different contact fits. The results show that smoother surfaces ease the flow of current while high interference fit increases the contact stability. The influence of surface topography becomes insignificantly low at high connection interference.
