Composite structures, comprising two or more distinct materials, are increasingly pivotal in modern engineering due to their superior strength‐to‐weight ratios and enhanced durability compared with ...

The Vector Form Intrinsic Finite Element (VFIFE) method represents an advanced computational approach that redefines conventional finite element analysis through an intrinsic, vector‐based formulation ...

Increasing use of engineering thermoplastics in the applications such as load bearing automotive components necessitates accurate characterization and material modeling for predicting part performance ...

What is Finite Element Analysis? The finite element analysis is an extensively used method for computationally solving partial differential equations in technology and mathematics. The classic domains ...

Isogeometric analysis (IGA) represents a relatively new method of problem-solving in engineering practice. A huge advantage of this method over the finite element method (FEM), is the reduction of the ...

A method is presented for the transient analysis of structures including nonlinearities in material behavior and geometry. A system of rigid convected (or corotational) coordinates that rotate and ...

This book is an updated, accessible approach to nonlinear structural analysis, focusing on the physical interpretation of nonlinear behaviors in framed structures. Unlike its predecessor, which was ...

Abstract: To address the failure of strain-displacement de-coupling in the existing inverse finite element method (iFEM) framework for dynamically evolving curved structures, this study proposes a ...

This paper presents the vibration analysis of stiffened plates, using both conventional and super finite element methods. Mindlin plate and Timoshenko beam theories are utilized so as to formulate the ...