The objective of the research is to investigate the mechanical and light resistance of two most common water-based and solvent inks with electrical properties printed on a paper substrate with the use of flexographic laboratory devices. One of them is black carbon semi-conductive the other one silver and copper conductive ink. Different thicknesses of these inks are tested to light and rub resistance. The sheet conductance and sheet resistance of the ink layers exposed to destructive factors is presented.

The innovation in this research is to compare the changes in the properties of these inks due to the aforementioned destructive factors. It is also shown how the ink film thickness impacts its conductive properties. Black carbon nanoparticle ink after being subjected to abrasion exhibits about 67% better electrical properties and 11 times as good colorimetric properties as ink based on silver and copper mixture. The light destructive agent of 36 h and the rub off process have a negligible impact on the colour changes of black carbon ink 1 and a noticeable impact on silver and copper ink 2. The innovative conclusion is that the sheet resistance parameter of both the inks tested increases due to artificial light ageing and the abrasion process.

该研究的目的是研究使用柔性版实验室设备在纸质基材上印刷的两种最常见的具有电气性能的水性和溶剂型油墨的机械强度和耐光性。其中之一是黑碳半导体，另一种是银铜导体油墨。测试了这些油墨的不同厚度的耐光性和耐摩擦性。给出了暴露于破坏性因素的油墨层的薄层电导和薄层电阻。

本研究的创新之处在于比较由于上述破坏性因素而导致的这些油墨特性的变化。还显示了墨膜厚度如何影响其导电性能。经受磨损后的黑碳纳米粒子油墨显示出比基于银和铜混合物的油墨更好的电性能，比色性能好11倍。36 h的光破坏剂和摩擦过程对黑碳墨水1的颜色变化影响很小，而对银和铜墨水2的影响却很小。创新的结论是，两种测试墨水的薄层电阻参数由于人造光老化和磨损过程而增加。