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ASTM Selected Technical Papers
Fracture Mechanics: 26th Volume
By
W Reuter
W Reuter
1
EG&G Idaho Ink
,
Idaho Falls, ID
;
symposium chairman and editor
.
Search for other works by this author on:
JH Underwood
JH Underwood
2
U.S. Army Armament RD Center
?
Watervliet, NY
;
symposium co-chairman and editor
.
Search for other works by this author on:
JC Newman, Jr Jr
JC Newman, Jr Jr
3
NASA Langley Research Center
?
Hampton, VA
;
symposium co-chairman and editor
.
Search for other works by this author on:
ISBN-10:
0-8031-1996-8
ISBN:
978-0-8031-1996-3
No. of Pages:
854
Publisher:
ASTM International
Publication date:
1995

An approximate calculation method for stress-intensity factors at the deepest point of finite-length subclad cracks accounting for plastic deformation of the cladding was reported elsewhere. An extension of this method for the part of the crack front near to interface and for infinitely long cracks is described in the first part of this paper. The second part of the paper deals with some applications of this calculation method.

1.
Hodulak
,
L.
and
Siegele
,
D.
, “
Calculation of Stress Intensity Factors for Cracks Under Thermal Shock Transients
”, to be published in Fracture Mechanics: 25th Volume, ASTM STP 1220,
ASTM
,
Philadelphia
,
1994
.
2.
Nagel
,
G.
,
Blauel
,
J.G.
, and
Schmitt
,
W.
, “
A Multibarrier Safety Concept for the Reactor Pressure Vessel of the Stade Power Plant
”, to be published in
Nuclear Engineering and Design
 0029-5493.
3.
ADINA
,
A Finite Element Program for Automatic Incremental Nonlinear Analysis
, Report ARD 87-2,
ADINA R&D, Inc.
, Watertown, MA,
1987
.
4.
ADINA-T
,
A Finite Element Program for Automatic Incremental Nonlinear Analysis of Temperatures
, Report ARD 87-2,
ADINA R&D, Inc.
, Watertown, MA,
1987
.
5.
Siegele
D.
, “
3D-crack propagation using ADINA.
”,
Computers & Structures
Vol.
32
, No.
3/4
, pp 639–645,
1989
.
6.
Labbens
,
R.
,
Pellisier-Tanon
,
A.
and
Heliot
,
J.
, “
Practical Method for Calculating Stress-Intensity Factors Through Weight Functions
”, ASTM STP 590, pp. 368–384,
1976
.
7.
Newman
,
J.C.
and
Raju
,
I.S.
, “
Stress-Intensity Factor Equations for Cracks in Three-Dimensional Finite Bodies
”, ASTM STP 791,
1983
, pp. I-238–I-265.
8.
Isida
,
M.
,
Yoshida
,
T.
, and
Noguchi
,
H.
, “
A rectangular crack in an infinite solid, a semi-infinite solid and a finite-thickness plate subjected to tension
”,
International Journal of Fracture
52
, pp. 79–90,
1991
.
9.
Moinereau
,
D.
,
Debruyne
,
G.
,
Bethmont
,
M.
, and
Rousselier
,
G.
, “
Cleavage Fracture of Specimens Containing an Underclad Crack
”, ASME Pressure Vessels and Piping Conference,
New Orleans
, June 21–25, 1992.
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