Acta Polytechnica (Jan 2000)

Carbon Circuits in Polymers

  • V. Bouda,
  • J. Hampl,
  • J. Kábrt,
  • J. Lipták,
  • F. Novák,
  • V. Pícha,
  • J. Rajman,
  • J. Sedláček

Journal volume & issue
Vol. 40, no. 3

Abstract

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Selectively processed areas in polymer layers or foils can form fine carbon circuits of a substantially enhanced conductivity. The state of the CB-particles (and the local plastic’s conductivity) can be changed by the short-range-displacements of the CB-particles that control the internal contacts of the circuit. Several examples of the potentiality of such processing routes are presented. A melt of the CB-plastic in the uni-directional electrical field increases its conductivity rapidly by several orders of magnitude [1]. Cooling down the composite melt into the solid state results in an abrupt decrease of conductivity. The intensity of the conductivity decrease depends on the conditions of the cooling regime [2]. The percolation-like transition can be induced by special processing route of a composite melt that has a lower CB concentration than the theoretical percolation threshold [3].