Purpose The finite element method (FEM) is the preferred method to simulate phenomena in
anatomical structures. However, purely FEM‐based mechanical simulations require …

Artificial intelligence (AI) and machine learning (ML) are fascinating interdisciplinary
scientific domains where machines are provided with an approximation of human …

The long-span bridge, characterized by slenderness and flexibility, is particularly sensitive to
wind action. Extreme wind events, including typhoons and hurricanes, will threaten the …

Porous scaffolds have recently attracted attention in bone tissue engineering. The implanted
scaffolds are supposed to satisfy the mechanical and biological requirements. In this study …

This work presents an approach for smart manufacturing focusing on Industry 4.0 to predict
the load vs. displacement curve of targeted cotton fiber/Polypropylene (PP) composite …

Long bones are composite materials possessing nonhomogeneous and anisotropic
properties. They repair themselves (self-repairing) and adapt to changing mechanical …

Feedforward backpropagation artificial neural networks (ANNs) have been increasingly
employed in many engineering practices concerning materials modeling. Despite their …

A new analytical flexural solution based on double finite integral Fourier transform and
trigonometric series differentiation procedures was developed for thick multi-layered …

An analytical solution has been developed developed in this research for electro-
mechanical flexural response of smart laminated piezoelectric composite rectangular plates …

Mobility solutions offered by living creatures have inspired engineers to capture their
locomotion patterns and then develop novel animal-like robots that use legs for locomotion …