Neural networks (NNs) have received growing interest in engineering due to their ability to assimilate high-dimensional data and provide accurate approximations for complex systems. Nonetheless, ...

Pipelines are critical energy transport infrastructure, where defects like stress corrosion cracking threaten structural integrity. Conventional NDT methods (ultrasonic pulse-echo, magnetic flux ...

ABSTRACT: This review examines the role of simulation-based virtual laboratories in the teaching of electrical machines and electromagnetics, with particular attention to MATLAB and finite element ...

Manufacturing encompasses various physical phenomena, including processes for burr creation, plastic deformation, frictional contact, and thermo-mechanical coupling, among others. Undoubtedly, the ...

ABSTRACT: In this article, a finite volume element algorithm is presented and discussed for the numerical solutions of a time-fractional nonlinear fourth-order diffusion equation with time delay. By ...

The Finite Element Method is a numerical technique to solve partial differential equations and integral equations. It primarily divides a large continuous domain (having infinite degrees of freedom) ...

Abstract: The accurate acquisition of unknown multiphysics fields in specified regions is vital for industrial production. Traditional computational approaches often require dense mesh generation to ...

Simulation is costly—not just in computing expense but also in time. As a result, engineering teams that rely on the practice tend to save their simulation results, partly to avoid unnecessary ...

Studies of the human cardiovascular system have greatly benefited from the advances in computational fluid dynamics (CFD) since the end of the twentieth century 1,2,3. Among the numerical methods for ...

Finite Element Method (FEM), Finite Difference Method (FDM), and Finite Volume Method (FVM) are numerical techniques commonly used in fluid dynamics and hydraulic simulations. Here's a comparison of ...