The development of computer methods for the solution of
scientific and engineering problems governed by the laws of mechanics was one
of the great scientific and engineering achievements of the second half of the
20th century, with a profound impact on science and technology. This is
accomplished through advanced mathematical modeling and numerical solutions
reflecting a combination of concepts, methods and principles that are often
interdisciplinary in nature and span several areas of mechanics, mathematics,
computer science and other scientific disciplines as well.
Computer Methods in Applied Mechanics and Engineering was
founded over three decades ago, providing a platform for the publication of
papers in this important field of science and engineering. The range of
appropriate contributions is very wide. It covers any type of computational
method for the simulation of complex physical problems leading to the analysis
and design of engineering products and systems. This includes theoretical
development and rational applications of mathematical models, variational
formulations, and numerical algorithms related to finite element, boundary
element, finite difference, finite volume, and meshless discretization methods
in the following fields of computational science and engineering:
• Solid and structural mechanics
• Fluid mechanics
• Mechanics of materials
• Heat transfer
• Dynamics
• Geomechanics
• Acoustics
• Biomechanics
• Nanomechanics
• Molecular dynamics
• Quantum mechanics
• Electromagnetics
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