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ASTM Selected Technical Papers
Testing for Prediction of Material Performance in Structures and Components
By
RS Shane
RS Shane
1
Staff Scientist
?
National Materials Advisory Board, National Research Council National Academy of Sciences/National Academy of Engineering
?
Washington, D.C. 20418 symposium general chairman
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ISBN-10:
0-8031-0117-1
ISBN:
978-0-8031-0117-3
No. of Pages:
319
Publisher:
ASTM International
Publication date:
1972

The formulation of empirical strength criteria is considered and some general principles that should be satisfied by all strength criteria are discussed. The available strength criteria for isotropic materials, with unequal strengths in tension and compression, are discussed in the light of the general principles. Some recent criteria for anisotropic materials are also presented. Contributions from the Russian literature are extensively referenced.

1.
Ashkenazi
,
E. K.
,
Anisotropic Machine Construction Materials
, (in Russian),
Mashinostroenie
,
Leningrad
,
1969
.
2.
Gol'denblat
,
I. I.
and
Kopnov
,
V. A.
,
Criteria of Strength and Plasticity of Construction Materials
, (in Russian),
Mashinostroenie
,
Moscow
,
1968
.
3.
Bazhanov
,
V. L.
,
Gol'denblat
,
I. I.
,
Kopnov
,
V. A.
,
Pospelov
,
A. D.
, and
Sinyukov
,
A. M.
,
Resistance of Glass Reinforced Plastics
, (in Russian),
Mashinostroenie
,
Moscow
,
1968
.
4.
Pisarenko
,
G. S.
and
Lebedev
,
A. A.
,
Resistance of Materials to Deformation and Failure in a Complex Stress State
, (in Russian),
Naukova Duma
,
Kiev
,
1969
.
5.
Chamis
,
C. C.
, “
Failure Criteria for Filamentary Composites
,” NASA TN D-5367,
08
1969
.
6.
Nadai
,
A.
,
Theory of Flow and Fracture of Solids
, Vol.
1
, 2nd ed.,
McGraw-Hill
,
New York
,
1950
, Chapter 15.
7.
Filonenko-Borodich
,
M. M.
,
Mechanical Theories of Strength
, (in Russian),
Moscow University Press
,
Moscow
,
1961
.
8.
Burzynski
,
W. V.
,
Schweizarische Bauzeitung
, SCBAB, Vol.
94
, No.
21
,
11
1929
.
9.
Nadai
,
A.
,
Transactions
 0097-6822, American Society of Mechanical Engineers, TASMA, Vol.
55
,
1933
, pp. 111–129.
10.
Schleicher
,
F.
,
Zeitschrift für Angewandte Mathematik und Mechanik
, ZAMMA, Vol.
6
, No.
3
,
1926
, pp. 199–216.
11.
Mirolyubov
,
I. N.
, “
Question of Generalization of Strength Theory of Octahedral Shearing Stresses for Brittle Materials
,” (in Russian),
Leningrad Textile S. M. Kirov Institute
, Trudy, No.
25
,
1953
.
12.
Yagn
,
Y. N.
,
Vestnik Inzhenerov i Tekhnikov
, VINTA, No.
6
,
1931
.
13.
Balandin
,
P. P.
,
Vestnik Inzhenerov i Tekhnikov
, (in Russian), VINTA, No.
1
,
1937
.
14.
Drucker
,
D.
, and
Prager
,
W.
,
Quarterly of Applied Mathematics
 0033-569X, QAMAA, Vol.
10
,
1959
, pp. 157–165.
15.
Matsuura
,
M.
in
Proceedings of the 9th Japan National Congress on Applied Mechanics
,
Tokyo
,
1960
.
16.
Hu
,
L. W.
and
Pae
,
K. D.
,
Journal of the Franklin Institute
 0016-0032, JFINA, Vol.
275
,
1963
, pp. 491–502.
17.
Kan
,
K. N.
and
Pervushin
,
Y. S.
,
Mekhanika Polimerov
 0025-8865, (in Russian), MKPLA, Vol.
2
, No.
4
,
1966
, pp. 543–549.
18.
Geniev
,
G. A.
and
Kissyuk
,
V. N.
,
Beton i Zhelezobeton
, (in Russian), BTZBA, No.
2
,
1965
.
19.
Yagn
,
Y. I.
and
Vinogradov
,
I. N.
, “
Effect of Stress Deviator Form on Resistance of Metals to Plastic Deformation
,” (in Russian),
Doklady Akedemii Nauk S.S.S.R.
 0002-3264, Vol.
96
, No.
3
,
1954
, pp. 515–517.
20.
Pisarenko
,
G. S.
and
Lebedev
,
A. A.
,
Prikladnaya Mekhanika
 0032-8243, (in Russian), PKMKA, Vol.
4
, No.
3
,
1968
, pp. 45–50.
21.
Lebedev
,
A. A.
,
Problemy Prochnosti
, (in Russian), PPCNB, Vol.
2
, No.
2
,
1970
, pp. 21–23.
22.
Kalinichenko
,
G. L.
,
Mikhailovskii
,
E. M.
, and
Sedekov
,
L. M.
,
Problemy Prochnosti
, (in Russian), PPCNB, Vol.
2
, No.
6
, (
1970
), pp. 74–76.
23.
Paul
,
B.
in
Fracture
,
Liebowitz
H.
, Ed.,
Academic Press
,
New York
,
1968
, Vol. 2, Chapter 4.
24.
Riley
,
V. R.
,
Journal of Composite Materials
 0021-9983, JCOMB, Vol.
3
,
1969
, pp. 82–93.
25.
Ashkenazi
,
E. K.
, “
Strength of Anisotropic Wooden and Synthetic Materials
,” (in Russian),
Izdatel'stvo Lesnaia Promyshlennost'
, ILPTA,
1966
.
26.
Norris
,
C. B.
,
Transactions
 0097-6822, American Society of Mechanical Engineers, TASMA, Vol.
61
,
1939
, pp. 259–261.
27.
Hill
,
R.
,
The Mathematical Theory of Plasticity
,
Oxford University Press
,
1950
.
28.
Azzi
,
V. D.
and
Tsai
,
S. W.
,
Experimental Mechanics
, EXMCA, Vol.
5
,
1965
, pp. 283–288.
29.
Sendeckyj
,
G. P.
in
Composite Materials: Testing and Design (Second Conference), ASTM STP 497
,
American Society for Testing and Materials
,
1972
.
30.
Prosen
,
S. P.
, in
Composite Materials: Testing and Design, ASTM STP 460
,
American Society for Testing and Materials
,
1969
, pp. 5–12.
31.
Halpin
,
J. C.
,
Pagano
,
N. J.
,
Whitney
,
J. M.
, and
Wu
,
E. M.
, in
Composite Materials: Testing and Design, ASTM STP 460
,
American Society for Testing and Materials
,
1969
, pp. 37–47.
32.
Sattar
,
S. A.
and
Kellogg
,
D. H.
, in
Composite Materials: Testing and Design, ASTM STP 460
,
American Society for Testing and Materials
,
1969
, pp. 62–71.
33.
Pagano
,
N. J.
and
Whitney
,
J. M.
,
Journal of Composite Materials
 0021-9983, JCOMB, Vol.
4
,
1970
, pp. 360–378.
34.
Richards
,
G. L.
,
Airhart
,
T. P.
and
Ashton
,
J. E.
,
Journal of Composite Materials
 0021-9983, JCOMB, Vol.
3
,
1969
, pp. 585–589.
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