Physics-informed neural networks for analysis of 2D thin-walled structures
Thin-walled structural problems have been a longstanding computational challenge. The
research bottleneck in applying the standard numerical methods for such problems arises …
research bottleneck in applying the standard numerical methods for such problems arises …
Contemporary meshfree methods for three dimensional heat conduction problems
This work aims to be a fairly comprehensive study on the respective performance of several
meshfree schemes selected for 3D heat conduction problems. A wide array of such methods …
meshfree schemes selected for 3D heat conduction problems. A wide array of such methods …
Boundary moving least square method for 2D elasticity problems
Z Huang, D Lei, D Huang, J Lin, Z Han - Engineering Analysis with …, 2019 - Elsevier
This paper applies the boundary moving least square (BMLS) method for numerical
implementation of two-dimensional (2D) elasticity problems. Compared with traditional mesh …
implementation of two-dimensional (2D) elasticity problems. Compared with traditional mesh …
A review to explore different meshless methods in various Structural problems
In this work, authors are actively showcasing the finding of recent papers using meshless
method in different structure problems which are either 1-D, 2-D, 3-D problems or problems …
method in different structure problems which are either 1-D, 2-D, 3-D problems or problems …
Numerical simulation of the effects of coating on thermal elastohydrodynamic lubrication in cam/tappet contact
C Yu, X Meng, Y Xie - Proceedings of the Institution of …, 2017 - journals.sagepub.com
Investigating the effects of coating on cam/tappet thermal elastohydrodynamic lubrication
through numerical simulation has great significance in the design of coated cam/tappet …
through numerical simulation has great significance in the design of coated cam/tappet …
A time-domain local radial basis function collocation method for the band structure analysis of 2D anti-plane phononic crystals
In this paper, a time-domain local radial basis function collocation method (LRBFCM)
combined with the Houbolt method is developed for the anti-plane elastic wave propagation …
combined with the Houbolt method is developed for the anti-plane elastic wave propagation …
Adaptive physics-informed neural networks for dynamic thermo-mechanical coupling problems in large-size-ratio functionally graded materials
In this paper, we present the adaptive physics-informed neural networks (PINNs) for
resolving three dimensional (3D) dynamic thermo-mechanical coupling problems in large …
resolving three dimensional (3D) dynamic thermo-mechanical coupling problems in large …
[HTML][HTML] The singular boundary method for two-dimensional static thermoelasticity analysis
Based on the singular boundary method (SBM) coupled with the radial basis functions
(RBF), a meshless algorithm is proposed to solve two-dimensional static thermoelasticity …
(RBF), a meshless algorithm is proposed to solve two-dimensional static thermoelasticity …
A coupled FE-BIE model for the static analysis of Timoshenko beams bonded to an orthotropic elastic half-plane
Interface displacements, surface tractions and stresses of a flexible beam bonded to an
elastic orthotropic half-plane are analysed by means of a Finite Element-Boundary Integral …
elastic orthotropic half-plane are analysed by means of a Finite Element-Boundary Integral …
Debonding of FRP and thin films from an elastic half-plane using a coupled FE-BIE model
Abstract A Finite Element-Boundary Integral Equation (FE-BIE) coupling method is proposed
to investigate a flexible bar weakly attached to an elastic orthotropic half-plane. Firstly, the …
to investigate a flexible bar weakly attached to an elastic orthotropic half-plane. Firstly, the …