A three-dimensional contact element based on the penalty function method has been developed for contact frictional problems with sticking, sliding, and separation modes infinite element analysis. A major advantage of this contact element is that its stiffness matrix is symmetric, even for frictional contact problems which have extensive sliding. As with other conventional finite elements, such as beam and continuum elements, this new contact element can be added to an existing finite element program without having to modify the main finite element analysis program. One is therefore able to easily implement the element into existing nonlinear finite element analysis codes for static, dynamic, and inelastic analyses. This element, which contains one contact node and four target nodes, can be used to analyze node-to-surface contact problems including those where the contact node slides along one or several target surfaces.

Issue Section:
Technical Papers
Topics:
Stiffness, Finite element analysis, Contact mechanics, Inelastic analysis, Separation (Technology)
1.
Chaudhary
 
AB
Bathe
 
KJ
1986
A Solution Method for Static and Dynamic Analysis of the Three-Dimensional Contact Problems with Friction
Computers & Structures
, vol. 
66
 
2
(pg. 
855
-
873
)
2.
Hallquist
 
JO
Goudreau
 
GL
Benson
 
DJ
1985
Sliding Interfaces with Contact-impact in Large-scale Lagrangian Computations
Comp. Method Appl. Mech. Eng
, vol. 
66
 
2
(pg. 
107
-
137
)
3.
Ju
 
SH
1993
Creep-fatigue Analysis of Solder Joints
Ph.D. thesis
University of Wisconsin-Madison
4.
Ju
 
SH
Stone
 
JJ
Rowlands
 
RE
1995
A New Symmetric Contact Element Stiffness Matrix for Frictional Contact Problems
Computers & Structures
, vol. 
66
 
2
(pg. 
289
-
301
)
5.
Kanto
 
Y
Yogawa
 
G
1990
A Dynamic Contact Buckling Analysis by the Penalty Finite Element Method
International Journal for Numerical Methods in Engineering
, vol. 
66
 
2
(pg. 
755
-
774
)
6.
Kulak
 
RF
1989
Adaptive Contact Element for Three-dimensional Explicit Transient Analysis
Comp. Method Appl. Mech. Eng
, vol. 
66
 
2
(pg. 
125
-
151
)
7.
Laursen
 
TA
Simo
 
JC
1993
A Continuum-based Finite Element Formulation for the Implicit Solution of Multibody Large Deformation Frictional Contact Problems
International Journal for Numerical Methods in Engineering
, vol. 
66
 
2
(pg. 
3451
-
3485
)
8.
Malone
 
JG
Johnson
 
NL
1994
A Parallel Finite Element Contact/Impact Algorithm for Non-linear Explicit Transient Analysis: Part I—the Search Algorithm and Contact Mechanics
International Journal for Numerical Methods in Engineering
, vol. 
66
 
2
(pg. 
559
-
590
)
9.
Mottershead
 
JE
Pascoe
 
SK
English
 
RG
1992
A General Finite Element Approach for Contact Stress Analysis
International Journal for Numerical Methods in Engineering
, vol. 
66
 
2
(pg. 
765
-
779
)
10.
Paradopoulos
 
P
Taylor
 
RL
1993
A Simple Algorithm for Three-Dimensional Finite Element Analysis of Contact Problems
Computers & Structures
, vol. 
66
 
2
(pg. 
1107
-
1118
)
11.
Parishch
 
H
1989
A Consistent Tangent Stiffness Matrix for Three-dimensional Nonlinear Contact Analysis
International Journal for Numerical Methods in Engineering
, vol. 
66
 
2
(pg. 
1803
-
1812
)
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