Soft structures are capable of undergoing reversible large strains and deformations when
facing different types of loadings. Due to the limitations of linear elastic models, researchers …

The last few decades have been dominated by the need for digital control of various
processes in biology and medicine. Advances in artificial intelligence (AI) over the last few …

We introduce a finite-element-model-updating-based open-source framework to identify
mechanical parameters of heterogeneous hyperelastic materials from in silico generated full …

We present a web-based framework based on the R shiny package with functional back-end
server in machine learning methods. A 4-tiers architecture is programmed to achieve users' …

In recent years, there has been a growing trend in the application of hyperelastic pipes
across several engineering fields, especially in bioengineering and biomedical engineering …

Mathematical constitutive models are crucially important for the real viscoelastic solid
materials in academic investigation and engineering application. The viscoelastic solid …

We present a novel open source peridynamics software for modeling two-and three-
dimensional dynamic fracture in homogeneous and heterogeneous solids. The software and …

Data-based approaches are promising alternatives to the traditional analytical constitutive
models for solid mechanics. Herein, we propose a Gaussian process (GP) based …

Human skin is a soft tissue behaving as an anisotropic material. The anisotropy emerges
from the alignment of collagen fibers in the dermis, which causes the skin to exhibit greater …

This paper introduces an innovative approach for elastic property characterization of soft
tissues, having directional-dependent material behavior, via their vibration response …