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References to work of M.L. Williams

  1. “An Initial Approach to the Overall Structural Problems of Swept Wings Under Static Loads,” co-authors E.E. Sechler and Y.C. Fung, Journal of Aeronautical Sciences, 17; 10, 639–646 October (1950).

    Google Scholar 

  2. “Surface Stress Singularities Resulting from Various Boundary Conditions in Angular Corners of Plates Under Bending”, Proceedings of First National Congress of Applied Mechanics, June (1951).

  3. “Stress Singularities Resulting from Various Boundary Conditions in Angular Corners of Plates in Extension,” Journal of Applied Mechanics, 19:4, 526–528 December (1952). See also “Discussion,” Journal of Applied Mechanics, 20:4, 590 December (1953).

  4. “On the Stress Distribution at the Base of a Stationary Crack,” Journal of Applied Mechanics, 25: 1, 109–114 March (1957).

  5. “Discussion of: ‘Analysis of Stresses and Strains near the End of a Crack Traversing a Plate’ (JAM, September 1957, by G.R. Irwin),” Journal of Applied Mechanics 25:2, 299–302 June (1958).

  6. “Large Deflection Analysis for a Plate Strip Subjected to Normal Pressure and Heating,” Journal of Applied Mechanics, 22:4, 458–464 December (1955).

  7. “Further Large Deflection Analysis for a Plate Strip Subjected to Normal Pressure and Heating,” Journal of Applied Mechanics, 25:2, 251–258 June (1958).

  8. “The Stresses Around a Fault or Crack in Dissimilar Media,” Bulletin of Seismological Society of America, 49:2, 199–204 April (1959).

  9. “Crack Point Stress Singularities at a Bi-Material Interface,” co-author A.R. Zak, Journal of Applied Mechanics, Series E, 30:1, 142–143 March (1963).

    Google Scholar 

  10. “Some Exploratory Photoelastic Studies in Stress Wave Propagation”, co-authors M.E. Jessey and R.R. Parmerter, Proceedings of Society of Experimental Stress Analysis, 17:2, 121–134 October (1960).

    Google Scholar 

  11. “A Photoelastic Technique for Ground Shock Investigation,” co-author R.J. Arenz, Proceedings of Fifth AFBM-STL Symposium, Ballistic Missile and Space Technology, IV, 137–152, Academic Press, New York, August (1960).

    Google Scholar 

  12. “Development and Application of a High-Speed Camera for Metallographic and Crack Propagation Studies,” co-authors W.M. Beebe, M.E. Jessey, H.W. Liu and S.R. Valluri, ARL 64–49 Aerospace Research Laboratories, USAF, Wright-Patterson AFB, Ohio, April (1964).

    Google Scholar 

  13. “Some Preliminary Photoelastic Design Data for Stress in Rocket Grains”, co-author D.D. Ordahl, Jet Propulsion, 27:6, 657–662 June (1957).

    Google Scholar 

  14. “Some Thermal Stress Design Data for Rocket Grains,” ARS Journal, 29:4, 260–267 April (1959).

  15. “Fundamental Studies Relating to Systems Analysis of Solid Propellants,” co-authors P.J. Blatz and R.A. Schapery, Final report, GALCIT 101 Thiokol Chemical Corp., AD-256-905 (GALCIT SM 61-5) February (1961).

  16. “The Structural Analysis of Viscoelastic Materials,” AIAA Journal 2:5, 785–808, May (1964).

  17. “Mechanical Behavior of Viscoelastic Materials,” co-author T. Kunio, Journal of Japan Society for Mechanical Engineering, 68:552, Showa 40 (1965).

    Google Scholar 

  18. “An Analysis of Adhesive Debonding in Case-Bonded Solid Propellant Rocket Motors,” co-author T. Kunio, Proceedings of the Eighth International Symposium on Science and Technology of Space, Tokyo, Japan, p. 217–222, August (1969).

  19. “The Relation Between Engineering Stress Analysis and Molecular Parameters in Polymeric Materials,” co-author F.N. Kelley, Proceedings of Fifth International Congress of Rheology, 3: 185–202, Tokyo, Japan (1970).

    Google Scholar 

  20. “The Engineering of Polymers for Mechanical Behavior,” co-author F.J. Kelley, Rubber Chemistry and Technology, 42:4, 1175–1185, September (1969).

    Google Scholar 

  21. “Polymer Engineering and its Relevance to National Materials Development,” Edited by F.R. Eirich and M.L. Williams, A National Science Foundation Workshop, Washington, D.C., University of Utah (UTECH DO73-013), December (1972).

  22. Mechanics — Structure Interactions with Implications for Material Fracture, M.L. Williams (ed.), National Science Foundation Workshop May 1979, University of Pittsburgh, 1980.

  23. “Stress Singularities, Adhesion, and Fracture,” Proceedings of Fifth U.S. National Congress of Applied Mechanics, pp. 451–464, June (1966).

  24. “The Continuum Interpretation for Fracture and Adhesion,” Journal of Applied Polymer Science, 13: 29–40 (1969).

  25. “The Time Dependence of Surface Energy in Cohesive Fracture,” co-authors, S.J. Bennett and G.P. Anderson, Journal of Applied Polymer Science, 14: 735–745 (1970).

    Google Scholar 

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Foreword. Int J Fract 39, ix–xiv (1989). https://doi.org/10.1007/BF00047434

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  • DOI: https://doi.org/10.1007/BF00047434

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