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Dielectric Study of Allyl Chloride - Alcohol Mixtures Using Time Domain Reflectometry Technique

G. M. Dharne2, A. P. Maharolkar2, P.W. Khirade2*, S. S. Patil2 and S. C. Mehrotra1

1Department of Computer science and IT, Dr. B.A.M. University Aurangabad - 431 001 (India).

2Microwave Research Lab, Department of Physics

DOI : http://dx.doi.org/10.13005/msri/050218

Article Publishing History
Article Received on : 16 Sep 2008
Article Accepted on : 24 Oct 2008
Article Published :
Plagiarism Check: Yes
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ABSTRACT:

Dielectric study of Allyl chloride (AC) , Alcohol and their binary mixtures have been carried out over the frequency range from 10 MHz to 10 GHz at temperature 288 K using Time Domain Reflectometry (TDR) for 11 different concentrations. Dielectric constant, Relaxation time, Kirkwood correlation factor, Excess parameters were estimated and discussed to yield information on the molecular structure and dynamics of the mixture. The values of dielectric constant and relaxation time decreases with increase in concentration of alcohol in Allyl chloride. The Bruggeman plot shows a non-linearity of the curve for all the concentration; indicates the hetrointeraction which may be due to hydrogen bonding of the OH group of alcohol with Allyl chloride molecule. The excess inverse relaxation time values are negative for all the concentrations indicate that the solute-solvent interaction hinders the rotation of the dipoles of the system.

KEYWORDS: Time Domain ReflectometryDomain Reflectometry Domain Reflectometry; Dielectric relaxation

Copy the following to cite this article:

Dharne G. M, Maharolkar A. P, Khirade P. W, Patil S. S. and Mehrotra S. C. Dielectric Study of Allyl Chloride - Alcohol Mixtures Using Time Domain Reflectometry Technique. Mat.Sci.Res.India;5(2)


Copy the following to cite this URL:

Dharne G. M, Maharolkar A. P, Khirade P. W, Patil S. S. and Mehrotra S. C. Dielectric Study of Allyl Chloride - Alcohol Mixtures Using Time Domain Reflectometry Technique. Mat.Sci.Res.India;5(2). Available from: http://www.materialsciencejournal.org/?p=2056


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