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ASTM Selected Technical Papers
Cracks and Fracture
By
JL Swedlow,
JL Swedlow
1
Carnegie-Mellon University
, Pittsburgh, Pa. 15213
; symposium co-chairman
.
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ML Williams
ML Williams
2
University of Pittsburgh
, Pittsburgh, Pa. 15261
: symposium co-chairman
.
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ISBN-10:
0-8031-0318-2
ISBN:
978-0-8031-0318-4
No. of Pages:
593
Publisher:
ASTM International
Publication date:
1976
eBook Chapter
Side-Cracked Plates Subject to Combined Direct and Bending Forces
By
JE Srawley
,
JE Srawley
1
Head, Fracture Mechanics Section, and materials engineer
, respectively. National Aeronautics and Space Administration, Lewis Research Center
, Cleveland, Ohio 44135
.
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B Gross
B Gross
1
Head, Fracture Mechanics Section, and materials engineer
, respectively. National Aeronautics and Space Administration, Lewis Research Center
, Cleveland, Ohio 44135
.
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Page Count:
21
-
Published:1976
Citation
Srawley, J, & Gross, B. "Side-Cracked Plates Subject to Combined Direct and Bending Forces." Cracks and Fracture. Ed. Swedlow, J, & Williams, M. 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959 : ASTM International, 1976.
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The opening mode stress intensity factor and the associated crack mouth displacement are comprehensively treated using planar boundary collocation results supplemented by end-point values from the literature. Data are expressed in terms of dimensionless coefficients of convenient form which are functions of two dimensionless parameters, the relative crack length, and a load combination parameter which uniquely characterizes all possible combinations of tension or compression with bending or counterbending. Accurate interpolation expressions are provided which cover the entire range of both parameters. Application is limited to specimens with ratios of effective half-height to width not less than unity.
References
1.
Gross
, B.
and Srawley
, J. E.
, “Stress Intensity Factors for Single-Edge Notch Specimens in Bending or Combined Bending and Tension
,” NASA TN D-2603, National Aeronautics and Space Administration
, Washington, D.C.
, 01
1965
.2.
Tada
, H.
, Paris
, P. C.
, and Irwin
, G. R.
, “The Stress Analysis of Cracks Handbook
,” Del Research Corporation
, Hellertown, Pa.
, 1973
.3.
Gross
, B.
and Mendelson
, A.
, International Journal of Fracture
, Vol. 8
, No. 3
, 09
1972
, pp. 267-276.4.
Bentham
, J. T.
and Koiter
, W. T.
in Mechanics of Fracture:I—Methods of Analysis and Solution of Crack Problems
, Sih
G. C.
, Ed., Noordhoff International Publishers
, Leyden, The Netherlands
, 1973
, pp. 159-162.5.
The Surface Crack: Physical Problems and Computational Solutions
, Swedlow
J. L.
, Ed., American Society of Mechanical Engineers
, New York
, 1972
.6.
Gross
, B.
“Some Plane Problem Elastostatic Solutions for Plates Having a V-Notch
,” NASA TM X-69370, National Aeronautics and Space Administration
, Washington, D. C.
, 01
1970
.7.
Koiter
, W. T.
, “Stress Intensity Factors for Sheet Strips Under Tensile Loads
,” Mechanical Engineering Laboratory Report
314, Delft University of Technology
, The Netherlands, 1965
.8.
Gross
, B.
, Roberts
, E.
Jr., and Srawley
, J. E.
, International Journal of Fracture
, Vol. 4
, No. 3
, 09
1968
, pp. 267-276;Errata, Vol.
6
, No. 1
, 03
1970
, p. 87.
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