Sage Journals: Discover world-class research

Abstract

This paper deals with the photoelastic analysis of stress waves in a thick ring subjected to transient high-frequency loading. The device used to apply the loading is a piezo-electric transducer which initially produces four cycles of a 31·25 kHz toneburst. The loading pulse can be reproduced with high precision. The ring is illuminated with a flash of approximately 0·5 μs duration which can be delayed in a continuously adjustable manner. Isochromatics and isoclinics can be directly observed as static patterns. Photoelastic data are supplemented by measurements obtained with a capacitance gauge used as a dynamic lateral extensometer. Satisfactory agreement is found between tangential stresses near the free boundary of the ring determined from photoelastic data and those determined from capacitance-gauge measurements. As examples of complete determination of stress distributions, the separated principal stresses are obtained along an axis of symmetry and a vectorial representation of the principal stresses is given. A wave interpretation of the data is developed and comparisons are made with available solutions of related problems.

Get full access to this article

View all access options for this article.

References

Durelli

A. J.

Riley

W. F.

Introduction to photo-mechanics 1965 (Prentice-Hall, Englewood Cliffs, N.J.).

Goldsmith

‘Dynamic photoelasticity’, Bureau of Naval Weapons, Report 8037, NO7S-TP-3025, 1962.

Clark

J. A.

Durelli

A. J.

Parks

V. J.

‘Photoelastic study of high frequency stress waves propagating in bars and plates’, J. appl. Mech., Trans. Am. Soc. mech. Engrs 1968 90, 747.

Rowlands

R. E.

‘A sequentially modulated ruby laser system for transmitted and scattered light dynamic photoelasticity’, University of Illinois T. & A.M. Report No. 304, October 1967.

Durelli

A. J.

Dally

J. W.

Riley

W. F.

‘Developments in the application of the grid method to dynamic problems’, J. appl. Mech., Trans. Am. Soc. mech. Engrs 1959 81, 629.

Riley

W. F.

Durelli

A. J.

‘Application of moire methods to the determination of transient stress and strain distribution’, J. appl. Mech., Trans. Am. Soc. mech. Engrs 1962 84, 23.

Flynn

P. D.

Frocht

M. M.

‘On the photoelastic separation of principal stresses under dynamic conditions by oblique incidence’, Office of Ordnance Research, U.S. Army Technical Report No. 1283, July 1960.

Harlfinger

Beitrag zur Ausbreitung von Spannungswellen in Scheiben (Spannungsoptische Untersuchung) 1967 Thesis submitted to the Technischen Hochschule Stuttgart for the degree of Ph.D.

Clark

J. A.

Photoelastic study of waves, 1968 Thesis submitted to the Catholic University of America for the degree of Ph.D.

10.

Kuske

‘Photoelastic research on dynamic stresses’, Expl Mech. 1966 6, 105.

11.

Sampson

R. C.

‘A three-dimensional method for analysis of differential contraction stresses’, Expl Mech. 1963 3, 222.

12.

Clark

A. B.J.

Sanford

R. J.

‘A comparison of static and dynamic properties of photoelastic materials’, Expl Mech. 1963 3, 148.

13.

Viktorov

I. A.

Rayleigh and Lamb waves 1967 (Plenum Press).

Experimental analysis of high-frequency stress waves in a ring

Abstract

Abstract

Get full access to this article

References