Plasma Technologies for Textiles by Roshan Shishoo

By Roshan Shishoo

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The voltage induced in the loop is related to the current, Is, in the power line by Faraday’s law, VL = −Ls(dIs/dt), so that Is = −(VL/ωLs). The current and voltage values at the RF-driven electrode (Iel and Vel) can be calculated by considering the parasitics in the power line between the I–V sensor and the driving electrode. An equivalent circuit model is shown in Fig. 2. The capacitances C1 and C2 are determined by the construction of the feed-through and electrode. 1 Schematic of a current–voltage sensor, consisting of a coaxial capacitor and an inductive loop.

Barker (Institute of Physics Publishing) 2005. This is a very comprehensive, detailed review of high-pressure nonequilibrium plasmas covering both the underlying science and technology. 2 The diagnosis of plasmas used in the processing of textiles and other materials J. W. BRADLEY AND P. M. 1 Introduction Plasma diagnostic tools are an essential element towards the proper understanding and development of technological plasmas. Knowledge of the particle densities and energies in the bulk and at boundaries, the electrical potentials and the spatial and temporal evolution of these parameters allow technologists to operate plasmas in the most efficient way and allow the intrinsic plasma processes to be tailored to suit a particular application.

EU-programme GROWTH. 4. Development of high-performance fabrics based on industrial cold plasma technology. Project acronym: PLASMAFAB, EU-programme GROWTH. xxx 5. 6. 7. Introduction Plasma technologies for textile, food, health and environment. Project acronym: PLASMATECH, EU-programme GROWTH. Eco-efficient activation of hyper functional surfaces. Project acronym: ACTECO, EU-programme IP-SME. Document TA3 ‘Atmospheric and low pressure plasmas’. Project acronym: LEAPFROG CA, EU-programme GROWTH.

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