Adesola Ademiloye
Adesola Ademiloye
Zienkiewicz Centre for Computational Engineering, Swansea University
Verified email at swansea.ac.uk - Homepage
Title
Cited by
Cited by
Year
Meshfree and particle methods in biomechanics: Prospects and challenges
LW Zhang, AS Ademiloye, KM Liew
Archives of Computational Methods in Engineering 26 (5), 1547-1576, 2019
172019
Numerical computation of the elastic and mechanical properties of red blood cell membrane using the higher-order Cauchy–Born rule
AS Ademiloye, LW Zhang, KM Liew
Applied Mathematics and Computation 268, 334-353, 2015
142015
A multiscale framework for large deformation modeling of RBC membranes
AS Ademiloye, LW Zhang, KM Liew
Computer Methods in Applied Mechanics and Engineering 329, 144-167, 2018
132018
Predicting the elastic properties and deformability of red blood cell membrane using an atomistic-continuum approach
AS Ademiloye, LW Zhang, KM Liew
Proceedings of the International MultiConference of Engineers and Computer …, 2016
122016
A multiscale Cauchy-Born meshfree model for deformability of red blood cells parasitized by Plasmodium falciparum
LW Zhang, AS Ademiloye, KM Liew
Journal of the Mechanics and Physics of Solids 101, 268–284, 2017
112017
Atomistic–continuum model for probing the biomechanical properties of human erythrocyte membrane under extreme conditions
AS Ademiloye, LW Zhang, KM Liew
Computer Methods in Applied Mechanics and Engineering 325, 22-36, 2017
102017
Numerical modeling of biomechanical responses of healthy red blood cell membrane under various loading conditions using a 3D quasicontinuum approach
AS Ademiloye, KM Liew, LW Zhang
2016 International Conference on Biomedical Engineering (BME-HUST), 119-124, 2016
72016
Multiscale meshfree analysis of the effects of thermal treatments on deformability of red blood cell membrane
AS Ademiloye, LW Zhang, KM Liew
2016 IEEE 16th International Conference on Bioinformatics and Bioengineering …, 2016
72016
Element-free multiscale modeling of large deformation behavior of red blood cell membrane with malaria infection
AS Ademiloye, LW Zhang, KM Liew
Proceedings of the 5th International Conference on Computational and …, 2017
42017
A three-dimensional quasicontinuum approach for predicting biomechanical properties of malaria-infected red blood cell membrane
AS Ademiloye, LW Zhang, KM Liew
Applied Mathematical Modelling 49, 35-47, 2017
32017
Numerical studies on the elastomechanical characteristics of human erythrocyte membrane
AS Ademiloye, LW Zhang, KM Liew
The 20th Annual Conference of HKSTAM 2016 The 12th Shanghai–Hong Kong Forum …, 2016
32016
Modeling glass cooling mechanism with down-flowing water film via the smoothed particle hydrodynamics
DA Abdoh, AS Ademiloye, KM Liew
Computer Methods in Applied Mechanics and Engineering 362, 112839, 2020
22020
A meshfree analysis of the thermal behaviors of hot surface glass pane subjects to down-flowing water film via smoothed particle hydrodynamics
DA Abdoh, AS Ademiloye, KM Liew
Engineering Analysis with Boundary Elements 120, 195-210, 2020
12020
Artificial Intelligence in Materials Modeling and Design
JS Huang, JX Liew, AS Ademiloye, KM Liew
Archives of Computational Methods in Engineering, 1-15, 2020
2020
A bibliometric analysis of recycled concrete research (1978–2019)
OS Oshodi, BO Awuzie, J Akotia, AS Ademiloye, A Ngowi
Built Environment Project and Asset Management, 2020
2020
Molecular dynamics simulations of single-layer and rotated double-layer graphene sheets under a high velocity impact by fullerene
Y Qiu, Y Zhang, AS Ademiloye, Z Wu
Computational Materials Science 182, 109798, 2020
2020
How biomechanical properties of red blood cells change with temperature
AS Ademiloye
Proceedings of the 6th International Conference on Computational and …, 2019
2019
Does temperature change worsen or mitigate the effect of malaria infection on erythrocyte deformability?
AS Ademiloye, LW Zhang, KM Liew
Proceedings of the 8th WACBE World Congress on Bioengineering (WACBE2017), 11038, 2017
2017
Development of a Multiscale Cauchy-Born Framework for Modeling the Biomechanical Properties of Healthy and Malaria-infected Red Blood Cell Membrane
AS Ademiloye
City University of Hong Kong, 2017
2017
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Articles 1–19