The impact of carbon content and mesh on the characteristics of screen printed conductive structures
作者: E.H. Jewell , S.M. Hamblyn , T.C. Claypole , D.T. Gethin
DOI: 10.1108/03056121311298918
关键词: Substrate (printing) 、 Composite material 、 Conductivity 、 Rheology 、 Factorial experiment 、 Screen printing 、 Electrical conductor 、 Materials science 、 Carbon 、 Viscosity
摘要: Purpose – The purpose of this paper is to carry out a comprehensive experimental investigation into the role screen and conductive carbon material formulation on line conductivity printing capability in process, provide design knowledge further understanding for printed carbon.Design/methodology/approach A full factorial experiment was carried where six materials were through ten screens polyester substrate under set standard conditions.Findings Material characterization showed that viscosity corresponding viscous elastic modulli increased with solids content properties at low shear are significant. unable produce minimum printable features possible materials. Increasing contents reduced final cured resistance, width, film thickness, th...
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