Calleja, J.: Determination of Setting and Hardening Time of High-alumina Cements by Electrical Resistance Techniques, J Am Concrete Inst25:249-256, 1953.
2.
Wilson, A.D. and Kent, B.E.: Dental Silicate Cements: V. Electrical Conductivity, J Dent Res47:463-470, 1968.
3.
Wilson, A.D. ; Kent, B.E.; and Lewis, B.G.: Zinc Phosphate Cements: Chemical Study of in vitro Durability, J Dent Res49: 1049-1054, 1970.
4.
Braden, M. and Clarke, R.L.: Dielectric Properties of Zinc Oxide-eugenol Type Cements, J Dent Res53:1263-1267, 1974 .
5.
Braden, M. and Clarke, R.L.: Dielectric Properties of Polycarboxylate Cements, J Dent Res53:7-9, 1975.
6.
Crisp, S. and Wilson, A.D.: Reactions in Glass Ionomer Cements; III. The Precipitation Reaction , J Dent Res53:1420-1424, 1974 .
7.
Phillips, L.J. ; Phillips, R.W.; and Schnell, R.J.: Measurement of the Electric Conductivity of Dental Cement. IV. Extracted Human Teeth; in vivo Tests; Summary, J Dent Res34:839-848, 1955.
8.
Mumford, J.: Resistivity of Human Enamel and Dentin, Arch Oral Biol12:925-927, 1967.
9.
Bjorn, H.: Electrical Excitation of Teeth, Svensk Tandlak Tidskr Suppl 39, 1946.
10.
Curby, W.A. : A Study of the Specific' Dielectrics for Enamel and Dentine, J Dent Res46: Suppl 906-907, 1964.
11.
Friedman, J. and Grayson, A.: Electrical Properties of Tooth Structure , Conf. on Engineering in Medicine and Biology , Washington, DC , 1970, pp. 15-19.
