Bertolotti, R.L.; Napolitano, L.J.; and Harley, R.F. (1983): Porcelain Softening Temperature as a Function of Porcelain/Metal Thickness Ratio, J Dent Res62:266, Abst. No. 877 (AADR).
2.
Dehoff, P.H. and Anusavice, K.J. (1985): Analysis of Alloy-Porcelain Compatibility Using a Multi-component Material Strip Equation, J Dent Res64:1337-1344.
3.
Rekhson, S.M. and Mazurin, O.V. (1977): Stress Relaxation in Glass and Glass-to-Metal Seals. Glass Technol18:7-14.
4.
Scherer, G.W. (1983): Viscoelastic Analysis of the Split Ring Seal, J Am Ceram Soc66:135-139.
5.
Scherer, G.W. (1986): Relaxation in Glass and Composites, New York: John Wiley & Sons.
6.
Scherer, G.W. and Rekhson, S.M. (1982): Viscoelastic-Elastic Composites: II, Sandwich Seal, J Am Ceram Soc65:399-406.
7.
Schurecht, H.G. and Pole, G.R. (1930): Method of Measuring Strains Between Glazes and Ceramic Bodies, J Am Ceram Soc13:369-375.
8.
Tesk, J.A.; Whitlock, R.P.; Widera, G.E.O.; Holmes, A.; and Parry, E.E. (1981): Consideration of Some Factors Influencing Compatibility of Dental Porcelains and Alloys, Part II: Porcelain/Alloy Stress. In: Proc., 4th Int. Precious Metals Conf, Toronto, 1980, pp. 283-291.
9.
Timoshenko, S. (1925): Analysis of Bi-Metal Thermostats, J Opt Soc Am11 :233-255.
10.
Tuccillo, J.J. and Nielsen, J.P. (1972): Shear Stress Measurements at a Dental Porcelain-Gold Bond Interface, J Dent Res51:626-633.
11.
Twiggs, S.W.; Hashinger, D.T.; and Fairhurst, C.W. (1987): The Effect of Thickness Ratio on the Porcelain Softening Temperature in a Composite Beam, J Dent Res66:270, Abst. No. 1304.
