The objective of this work is to study the plastic limit load of cylindrical vessels with different lateral angles θ under increasing internal loadings. Three full size test vessels with different structure dimensions were fabricated for testing. A three-dimensional, nonlinear, finite element numerical simulation was also performed. The approximate plastic limit load was obtained using a twice-elastic-slope criterion. The plastic deformation characteristics for the analysis model are discussed. The results show that distinct deformation characteristics occurred on the three experimental vessels. The intersection area shrank in the longitudinal section of the cylinder, while bulges appeared in the transverse section. The angle between the axis of lateral and the cylinder increased. The plastic limit loads determined by experiment and numerical simulation methods are in good agreement.

Issue Section:
Design and Analysis
Keywords:
elasticity, finite element analysis, nozzles, pipe flow, plasticity, lateral nozzle, plastic limit load, experimental study, numerical simulation
Topics:
Cylinders, Finite element analysis, Nozzles, Stress, Vessels, Computer simulation, Deformation
1.
Mershon
,
J. L.
, 1970, “
Interpretive Report on Oblique Nozzle Connections in Pressure Vessel Heads and Shells Under Internal Pressure Loading [R]
,”
Weld. Res. Counc. Bull.
0043-2326,
153
, pp.
1
31
.
2.
Daniel
,
I. M.
, 1970, “
Photoelastic Analysis of Stresses Around Oblique Holes [R]
,”
Exp. Mech.
0014-4851,
10
(
11
), pp.
467
473
.
Crossref
Search ADS
 
3.
Fidler
,
R.
, 1970, “
Photoelastic Analysis of Oblique Cylinder Intersections Subjected to Internal Pressure
,”
Weld. Res. Counc. Bull.
0043-2326,
153
, pp.
81
85
.
4.
PVRC Committee
, 1979, “
Comparison of Three Dimension Finite Element and Photo Elastic Result for Lateral Connection, WC-12B2
,”
Weld. Res. Counc. Bull.
0043-2326,
251
, pp.
1
18
.
5.
Palusamy
,
S. S.
, 1981, “
PVRC Long Range Plan for the Development of Stress Indices for 45Degree Branch Connections
,”
Int. J. Pressure Vessels Piping
0308-0161,
50
, pp.
1
19
.
6.
Raju
,
P. P.
, 1983, “
Parametric 3D Analysis of 45Degree Lateral Connections for the Development of Stress Indices
,”
Transactions of the International Conference on Structural Mechanics in Reactor Technology
,
Commission of European Communities
,
Brussels
, pp.
357
363
.
7.
Raju
,
P. P.
, 1989 “
Three Dimensional Finite Element Analysis of 45Degree Lateral Model 2 (d∕D=0.5, D∕T=10) Under Out-of-Plane Moment Loading on the Branch Pipe
,”
Weld. Res. Counc. Bull.
0043-2326,
344
, pp.
10
17
.
8.
Raju
,
P. P.
, 1989, “
Three Dimensional Finite Element Analysis of PVRC 45Degree Lateral Model 4 (d∕D=0.5, D∕T=40) Under Out-of-Plane Moment Loading on Branch Pipes
,”
Weld. Res. Counc. Bull.
0043-2326,
344
, pp.
1
9
.
9.
Liang
,
W. Z.
, and
Cheng
,
L. K.
, 1989, “
Quadrilateral Cylindrical Element for Elasto-Plastic Analysis of Nozzle-Vessel Intersection
,”
Int. J. Pressure Vessels Piping
0308-0161,
39
(
3
), pp.
209
223
.
10.
Sang
,
Z. F.
,
Lin
,
Y. J.
,
Xue
,
L. P.
, and
Widera
,
G. E. O.
, 2005, “
Limit and Burst Pressures for a Cylindrical Vessel With a 30Degree—Lateral (d∕D Greater Than or Equal 0.5)
,”
ASME J. Pressure Vessel Technol.
0094-9930,
127
(
1
), pp.
61
69
.
Crossref
Search ADS
 
11.
Xue
,
L. P.
,
Widera
,
G. E. O.
, and
Sang
,
Z. F.
, 2002, “
Influence of Pad Reinforcement on the Limit and Burst Pressures of Large Diameter Cylindrical Shell Intersections
,”
Int. J. Pressure Vessels Piping
0308-0161,
447
, pp.
125
133
.
12.
ASME Boiler and Pressure Vessel Code, 2004, Secs. III and VIII-2.
Copyright © 2008
 by American Society of Mechanical Engineers
You do not currently have access to this content.