Design of Steel Plated Structures with Finite Elements
1. Edition March 2023
162 Pages, Softcover
137 Pictures (89 Colored Figures)
17 tables
Handbook/Reference Book
Short Description
The book deals with the practical design of welded plated steel structures with the finite element method and especially the proof of plate buckling resistance.
Due to the relatively large slenderness of plated structures, the proof of adequate
buckling resistance is crucial for dimensioning. Plate buckling is a stability problem
of a compression-loaded plate and is generally characterized by failure of the
structure prior to achieving plastic component resistance. The stability verification
of welded plated structures assisted by finite element analysis (FEM) is becoming
increasingly prevalent in applied engineering. The rules and examples given in
this book might illustrate the correct application of the numerical models and give
background information on the FEM-based design of welded plated structures.
Aside from technical background information on calculation methods and
software requirements, modelling, solution settings, evaluation, and verification as
a key part of this manual, benchmark examples and worked examples are given.
They not only allow the user to better understand the procedure and the
background but can also serve as test examples to prove the validity of their own
numerical calculations. We are sure that this manual will contribute to improved
knowledge of the application of FEM for the design of plated structures, and
thereby enhance the acceptance of FEM design in practice.
2 AREA OF APPLICATION
Typical rectangular plates
Arbitrary geometries and boundary conditions
3 CALCULATION METHODS AND SOFTWARE REQUIREMENTS
Overview of calculation methods
Linear analysis
Linear buckling analysis
Material nonlinear analysis
Geometric nonlinear analysis including imperfections (GNIA)
Geometric and material nonlinear analysis including imperfections (GMNIA)
Software requirements
4 MODELLING (PREPROCESSING)
Material properties
Mesh discretisation
Boundary conditions
Imperfections
5 SOLUTION SETTINGS
General
Importance of large deformations
Prestress effect
Solver selection
Setting the convergence criterion
Time increment settings
Overcome convergency problems
Solution printout
6 EVALUATION AND VERIFICATION (POSTPROCESSING) AND INTERPRETATION OF RESULTS
Evaluation
Verification
Interpretation
7 BENCHMARK EXAMPLES
Longitudinally stiffened panel under normal force
Longitudinally stiffened panel subjected to shear force
Web in bending with weak stiffeners
Transversally stiffened steel plate girder subjected to patch loading
8 WORKED EXAMPLES
Bottom plate with trapezoidal stiffeners
Web subjected to shear and bending
Patch loading verification of a box girder bridge
SUMMARY AND CONCLUSIONS
REFERENCES
