Selective artificial ground freezing (S-AGF) applications usually extend to very deep levels
(more than 400 meters); numerical modeling of such large AGF applications encounters two …

This work models spatially uncorrelated (independent) load uncertainty and develops a
reduced-order Monte Carlo stochastic isogeometric method to quantify the effect of the load …

In this article, the two-way coupled thermoelastic behavior of axially graded composite plate
and doubly-curved (cylindrical, spherical, hyperbolic, and elliptical) panels is examined …

This paper presents an n-th high order perturbation-based stochastic isogeometric Kirchhoff–
Love shell method, formulation and implementation for modeling and quantifying geometric …

Structural stochastic analysis is vital to engineering. However, current material related
uncertainty methods are mostly limited to low dimension, and they mostly remain unable to …

This paper presents a novel methodology for fast simulation and analysis of transient heat
transfer problems. The proposed methodology is suitable for real-time applications owing to …

The objective of this paper is to quantify the precision of a novel approach for computational
heat transfer modeling based on spectral graph theory. Two benchmark heat transfer …

After space discretization employing traditional dynamic isogeometric analysis of structures
(composite type) with/without dissimilar materials, the issues that persist include either using …

Real-time analysis of bio-heat transfer is very beneficial in improving clinical outcomes of
hyperthermia and thermal ablative treatments but challenging to achieve due to large …

The solution to heat transfer problems in two-dimensional heterogeneous media is attended
based on the scaled boundary finite element method (SBFEM) coupled with equilibrated …