American Journal of Scientific Research

ISSN 2301-2005 Issue 73 (2012), pp. 5-8

© EuroJournals Publishing, Inc. 2012

http://www.eurojournals.com/ajsr.htm

Abstract

The purpose of this present work, study the electrical properties of PVA-CaO

composites were studied. The effect of calcium oxide concentration and temperature on the

D.C electrical conductivity have been investigated. Results showed that the D.C electrical

conductivity is increased with increasing the calcium oxide concentrations and temperature.

Also the activation energy change with increasing of calcium oxide concentration.

Keywords: Electrical Properties, poly-vinyl alcohol, Composites.

In recent years, polymeric based composite materials are being used in many applications, such as

automotive, sporting goods, marine, electrical, industrial, construction, household appliances, etc.

Polymeric composites have high strength and stiffness, light weight, and high corrosion resistance. In

the past decade, extensive research work has been carried out on the natural fiber reinforced composite

materials in many applications. Natural fibers are available in abundance in nature and can be used to

reinforce polymers to obtain light and strong materials. Natural fibers from plants are beginning to find

their way into commercial applications such as automotive industries, household applications, etc. [1].

Polymer-based composites are system with numerous high technological applications. These

applications need a high level of composite production and manufacturing, including the chemical

process, material, and structural design to suit specific purposes[2]. The advantages of PVA such of

high mechanical strength and water-soluble have played as main role for this selection as compared to

other polymer matrices [3] The present work deals with the effect of calcium oxide additive on the D.C

electrical properties of poly-vinyl alcohol composite.

Study of Electrical Properties of ( PVA-CaO) Composites 6

The materials which are used in this paper, are poly vinyl alcohol as matrix and calcium oxide as a

filler. The weight percentages of calcium oxide are (0, 1,2 and 3)wt.%. films of pure PVA and PVA

doped with calcium oxide were prepared using casting technique thickness ranged between (256-

645)?m. The resistivity was measured over range of temperature from (30 to 80)oC using Keithly

electrometer type (616C) .The volume electrical conductivity sn

defined by :

(1)

Where :

A = guard electrode effective area.

R = volume resistance (Ohm) .

L = average thickness of sample (cm) .

In this model the electrodes have circular area A= D2/4 where D= 0.5 cm2 .

The activation energy was calculated using equation :

 = o exp(-Ea/kBT) (2)

= electrical conductivity at T temperature

0 = electrical conductivity at absolute zero of temperature

The variation of D.C electrical conductivity as a function of the calcium oxide concentration at a

temperature of 30oC is shown in figure(1), the conductivity increases with increasing calcium oxide

additive concentration. The increase of conductivity with increasing of concentration of calcium oxide

due to increases the charge carriers which increased with increasing filler content[4,5].

The variation of D.C electrical conductivity for (PVA- CaO) composites of different calcium

oxide concentration as function of temperature is shown in figure(2). The figure shows that for all

samples of different calcium oxide concentration, the conductivity is increasing with increasing

temperature. This behavior can be related to the increasing of the ionic charge carriers as well as

increasing of polymer segmental motion as a result of temperature increasing.

7 Ahmed Hashim, Bahaa H. Rabee, Majeed Ali Habeeb, Nahida Abd-alkadhim and Athraa Saad

Figure(3) shows the relationship between the ln(conductivity) and inverted absolute

temperature of the PVA- CaO composites, using equation(2) was calculate activation energy it can be

seen that there are high values of activation energy these high values are attributed to the existence of

free ions in the polymer. By adding low concentrations of calcium oxide, the values of the activation

energy are decreasing for PVA- CaO composites as a result of the impact of space charge [2].

The