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AFGROW | DTD Handbook

Handbook for Damage Tolerant Design

  • DTDHandbook
    • About
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    • Contributors
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    • Sections
      • 1. Introduction
      • 2. Fundamentals of Damage Tolerance
        • 0. Fundamentals of Damage Tolerance
        • 1. Introduction to Damage Concepts and Behavior
        • 2. Fracture Mechanics Fundamentals
        • 3. Residual Strength Methodology
        • 4. Life Prediction Methodology
        • 5. Deterministic Versus Proabilistic Approaches
        • 6. Computer Codes
        • 7. Achieving Confidence in Life Prediction Methodology
        • 8. References
      • 3. Damage Size Characterizations
      • 4. Residual Strength
      • 5. Analysis Of Damage Growth
      • 6. Examples of Damage Tolerant Analyses
      • 7. Damage Tolerance Testing
      • 8. Force Management and Sustainment Engineering
      • 9. Structural Repairs
      • 10. Guidelines for Damage Tolerance Design and Fracture Control Planning
      • 11. Summary of Stress Intensity Factor Information
    • Examples

Section 2.8. References

J. A. Begley and J. D. Landes (1972). “The J-Integral As a Fracture Criterion”. Fracture Toughness, ASTM STP 514, pp. 1-20.

Boeing Co. (1962, June). “Fracture Resistance Data Summary,” D2-20947.

C.Q. Bowles (1970). “Strain Distribution and Deformation at the Crack Tip in Low Cycle Fatigue”. AMMRC-CR-70-23, Army Material and Mechanical Research Center, Waterown, MA.

R.J. Bucci, P.C. Paris, J.D. Landes, and J.R. Rice (1972). “J-Integral Estimation Procedures”. Fracture Toughness, ASTM STP 514, pp. 40-69.

F.M. Burdekin and D.E.W. Stone (1966). “The Crack-Opening-Displacement Approach to Fracture Mechanics in Yielding”. Journal of Strain Analysis, pp. 145-153.

D.R. Donaldson and W.E. Anderson (1961, September). “Crack Propagation Behavior of Some Airframe”, p. 375.

D.S. Dugdale (1960). “Yielding of Steel Sheets Containing Slits”. Journal of Mechanics and Physics of Solids (Vol. 8), pp. 100-104.

F.J. Giessler, S.J. Duell, and R.F. Cook. (1981, February). Handbook of Guidelines for the Development of Design Usage and Environmental Sequences for United States Air Force Aircraft. AFWAL-TR-80-3156.

A.A. Griffith (1921). “The Phenomena of Rupture and Flow in Solids”. Phil. Trans. Roy. Soc. London, A221, pp. 163-197.

G.T. Hahn and A.R. Rosenfield (1965). “Local Yielding and Extension of a Crack Under Plane Stress”. Acta Metallurgical (Vol. 13, No. 3), p. 293.

D.J. Hayes (1970). “Some Applications of Elastic-Plastic Analysis to Fracture Mechanics”. Ph.D. Thesis, Imperial College.

J.W. Hutchinson (1968). “Plastic Stress and Strain Fields at the Crack Tip”. Journal of Mechanics and Physics of Solids, pp. 13-31; pp. 337-347.

A.A. Ilyushin (1946). “The Theory of Small Elastic-Plastic Deformations”. Prikadnaia Matematika. P.M.M. (Vol. 13), p. 347.

G.R. Irwin (1948). “Fracture Dynamics”. Fracturing of Metals. ASM, pp. 147-166.

G.R. Irwin and J.A. Kies (1954). “Critical Energy Rate Analysis of Fracture Strength”. Welding Journal (Research Supplement, Vol. 33), p. 193s.

G.R. Irwin (1957). “Analysis of Stresses and Strains Near the End of a Crack Traversing a Plate”. Trans. ASME, Journal of Applied Mechanics (Vol. 24), p. 361.

G.R. Irwin, J.A. Kies, and H.L. Smith (1958). “Fracture Strengths Relative to Onset and Arrest of Crack Propagation”. Proceedings ASTM (Vol. 58), p. 640.

G.R. Irwin (1960). “Fracture Mechanics”. Structural Mechanics. J. N. Goodier and N. J. Hoff (Eds.). Pergamon Press, pp. 557-594.

V. Kumar, M.D. German, and C.F. Shih (1980). “Estimation Technique for the Prediction of Elastic-Plastic Fracture of Structural Components of Nuclear Systems”. Combined Second and Third Semiannual Report, Feb. 1979 to Jan. 1980 for EPRI, General Electric Company, SRD-80-094.

V. Kumar, M.D. German, and C.F. Shih (1981, July). “An Engineering Approach for Elastic-Plastic Fracture Analysis”. EPRI-NP-1931, Electric Power Research Institute.

J.D. Landes, J.A. Begley, and G.A. Clarke (Eds.) (1979). Elastic-Plastic Fracture. ASTM STP 668.

R.J. Lozano, G.S. Parker, and R.J. Werdes, (1974, June). “F-4 Fatigue and Damage Tolerance Assessment Program – Vol. 1”. MCAIR MDC A2883, McDonnell Douglas, St. Louis, Missouri.

E. Orowan (1949). “Fracture and Strength of Solids”. Rep. Prog. Physics (Vol. 12),
pp. 185-232.

P.C. Paris (1960, March). “A Short Course in Fracture Mechanics”. The Boeing Airplane Company.

P.C. Paris, M.P. Gomez, and W.E. Anderson (1961, January). “A Rational Analytic Theory of Fatigue”. The Trend in Engineering. University of Washington (Vol. 13,
No. 1), p. 9.

P.C. Paris (1964). “The Fracture Mechanics Approach to Fatigue”. Fatigue and Interdisciplinary Approach. Proceedings, Tenth Sagamore Conference, Syracuse, N.Y.: Syracuse University Press, p. 107.

P.C. Paris (Ed.) (1980), Fracture Mechanics: Twelfth Conference. ASTM STP 700.

R.E. Pinchert (1976, September). “Damage Tolerant Assessment of F-4 Aircraft”. Presented at the American Institute of Aeronautic and Astronautics Aircraft Systems and Technology Meeting, Dallas, Texas.

J.R. Rice (1968a). “Mathematical Analysis in the Mechanics of Fracture”. H. Liebowitz (Ed.). Fracture (Vol. II). New York: Academic Press, pp. 191-308.

J.R. Rice (1968b). “A Path Independent Integral and the Approximate Analyses of Strain Concentration by Notches and Cracks”. Journal of Applied Mechanics. ASME, 35,
pp. 379-386.

J.R. Rice and G. F. Rosengren (1968). “Plane Strain Deformation Near a Crack Tip in Power-Law Hardening Material”. Journal of Mechanics and Physics of Solids, pp. 1-12.

J.R. Rice and D. M. Tracey (1973). “Computational Fracture Mechanics”. Numerical and Computer Methods in Structural Mechanics. S.J. Fenves, et al. (Eds.). Academic Press, N.Y., pp. 585-623.

J.N. Roberson and A.S. Tetelman (1973). “The Critical Crack-Tip Opening Displacement and Microscopic and Macroscopic Fracture Criteria for Metals”. UCLA RE 7360. University of California, Los Angeles, CA.

R. Roberts (Ed.) (1981), Fracture Mechanics: Thirthteenth Conference. ASTM STP 743.

C.F. Shih (1976). “J-Integral Estimates for Strain Hardening Materials in Antiplane Shear Using Fully Plastic Solutions”. Mechanics of Crack Growth. ASTM STP 590, pp. 3-22.

C.F. Shih and J.S. Hutchinson (1976). “Fully Plastic Solutions and Large Scale Yielding Estimates for Plane Stress Crack Programs”. Journal of Engineering and Materials and Technology (Vol. 98), pp. 289-295.

C.F. Shih (1979, April). “Relationship Between the J-Integral and the Crack Opening Displacement for Stationary and Extending Cracks”. General Electric Co. TIS Report
No. 79CRDO75.

C.F. Shih and V. Kumar (1979, June). “Estimation Techniques for the Prediction of Elastic-Plastic Fracture of Structural Components of Nuclear Systems”. First Semiannual Report, July 1978-January 1979 for EPRI Contract RP 1237-1, General Electric Co., Schenectady, N.Y.

I.N. Sneddon and M.Lowengrub, (1969). Crack Problems in the Classical Theory of Elasticity. New York: John Wiley and Sons, Inc.

R. Verette and D.P. Wilhem (1973, May). “Development & Evaluation of Methods of Plane Stress Fracture Analysis”. Review and Evaluation of Structural Residual Strength Prediction Techniques. AFFDL-TR-73-42.

T. Weerasooriya and J.P. Gallagher (1981, July). “Determining Crack Tip Field Parameters for Elastic-Plastic Materials via an Estimation Scheme”. AFWAL-TR-81-4044. Air Force Wright Aeronautical Laboratories.

A.A. Wells (1961, September). “Unstable Crack Propagation in Metals-Cleavage and Fast Fracture”. Proceedings of the Cranfield Crack Propagation Symposium, 1,
pp. 210-230.

M.L. Williams (1957). “Stress Distribution at the Base of a Stationary Crack”. Trans. ASME, Journal of Applied Mechanics (Vol. 24), p. 109.