Abstract

A large strain analysis is presented for internally pressurized multilayered tubes, in generalized plane strain. Material behavior is modeled by an elastoplastic deformation theory with an orthotropic yield function, introduced by Hill, and arbitrary hardening. Elastic compressibility is neglected. An exact solution is given, in terms of quadratures, along with a general condition for burst. Simple yet useful relations are derived for thin-walled cylinders with the neglect of elastic strains. For rigid/nonlinear-hardening response, we obtain an expression for the onset of burst in terms of overall effective moduli. A few numerical examples are given and the possibility of locating an optimal two-layer configuration is discussed. It appears that optimization with respect to weight is attainable provided that appropriate materials are selected.

Issue Section:
Research Papers
Topics:
Cylinders, Deformation, Hardening, Compressibility, Optimization, Plane strain, Weight (Mass)
1.
Chen
P. C. T.
,
1986
, “
The Bauschinger and Hardening Effects on Residual Stresses in an Autofrettaged Thick-Walled Cylinder
,”
ASME JOURNAL OF PRESSURE VESSEL TECHNOLOGY
, Vol.
108
, pp.
108
112
.
2.
Chu
C. C.
,
1979
, “
Bifurcation of Elastic-Plastic Circular Cylindrical Shells Under Internal Pressure
,”
ASME Journal of Applied Mechanics
, Vol.
46
, pp.
889
894
.
3.
Durban
D.
,
1979
, “
Large Strain Solution for Pressurized Elasto/Plastic Tubes
,”
ASME Journal of Applied Mechanics
, Vol.
46
, pp.
228
230
.
4.
Durban
D.
,
1988
a, “
A Finite Strain Axially Symmetric Solution for Elastic Tubes
,”
International Journal of Solids and Structures
, Vol.
24
, pp.
675
682
.
5.
Durban
D.
,
1988
b, “
Finite Straining of Pressurized Compressible Etasto-Plastic Tubes
,”
International Journal of Engineering Science
, Vol.
26
, pp.
939
950
.
6.
Durban
D.
, and
Kubi
M.
,
1990
, “
Large Strain Analysis for Plastic-Orthotropic Tubes
,”
International Journal of Solids and structures
, Vol.
26
, pp.
483
495
.
7.
Durban
D.
, and
Kubi
M.
,
1992
, “
A General Solution for the Pressurized Elastoplastic Tube
,”
ASME Journal of Applied Mechanics
, Vol.
59
, pp.
20
26
.
8.
Faupel
J. H.
,
1954
, “
Designing for Shrink Fits
,”
Machine Design
, Vol.
26
, pp.
114
124
.
9.
Galos
M.
,
1968
, “
On the Load Carrying Capacity of Multilayer Pressure Vessels
,”
Bull. de l’Acad. Polonaise des Sci.
, Vol.
16
, pp.
511
520
.
10.
Groves
A.
, and
Margetson
J.
,
1989
, “
Burst Pressure Prediction of Metallic/Fibre Reinforced Rocket Motor Cases Using an Elasto-Plastic Instability Analysis
,”
International Journal of Mechanical Science
, Vol.
31
, pp.
737
750
.
11.
Hill
R.
,
1976
, “
Plastic Analysis of Pressurized Cylinders Under Axial Load
,”
International Journal of Mechanical Science
, Vol.
18
, pp.
145
148
.
12.
Jasper
T. McL.
, and
Scudder
C. M.
,
1941
, “
Multi-Layer Construction of Thick-Walled Pressure Vessels
,”
Trans. of American Institute of Chemical Engineers
, Vol.
37
, p.
885
885
.
13.
Johnson
W.
,
De Malherbe
M. C.
, and
Venter
R.
,
1971
, “
On Geometrical Similarity in Compound Circular Cylinders and Spherical Shells Under Internal Pressure
,”
Annals of C.I.R.P.
, Vol.
19
, pp.
653
655
.
14.
Larsson
M.
,
Needleman
A.
,
Tvergaard
V.
, and
Storakes
B.
,
1982
, “
Instability and Failure of Internally Pressurized Ductile Metal Cylinders
,”
Journal of Mechanics of Physics and Solids
, Vol.
30
, pp.
121
154
.
15.
Manning
W. R. D.
,
1947
, “
The Design of Compound Cylinders for High Pressure Service
,”
Engineering
, Vol.
163
, pp.
349
352
.
16.
Reddy
B. D.
,
1982
, “
A Deformation Theory Analysis of the Bifurcation of Pressurized Thick-Walled Cylinders
,”
Quarterly Journal of Mechanics and Applied Mathematics
, Vol.
35
, pp.
183
196
.
17.
Tadmor, E. B., 1991, “Plastic Failure of Pressurized Multilayered Tubes,” (in Hebrew), M.Sc. research thesis, Technion, Haifa, Israel.
18.
Tomita
Y.
,
Shindo
A.
, and
Kitagawa
H.
,
1981
, “
Bifurcation and Post Bifurcation Behaviour of Internally Pressurized Elastic-Plastic Circular Tubes Under Plane Strain Conditions
,”
International Journal of Mechanical Science
, Vol.
23
, pp.
723
732
.
19.
Tvergaard
V.
,
1990
, “
Bifurcation in Elastic-Plastic Tubes Under Internal Pressure
,”
European Journal of Mechanics, A/Solids
, Vol.
9
, pp.
21
35
.
20.
Valenta
J.
,
1961
, “
The Elasto-Plastic State of Multilayer Vessels
,”
Rev. Me`canique Appliquee`
, Vol.
6
, pp.
357
372
.
21.
Zyczkowski
M.
,
1964
, “
Plastic Deformation and Strength of an Initially Expanded Multi-Layer Pressure Vessel
,”
Bull. de l’Acad. Polonaise des Sci.
, Vol.
12
, No.
194
, pp.
89
98
.
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