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Layth S. Al-Rukaibawi
Layth S. Al-Rukaibawi
PhD in Structural Engineering at Budapest University of Technology and Economics
在 edu.bme.hu 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
A numerical anatomy-based modelling of bamboo microstructure
LS Al-Rukaibawi, SL Omairey, G Károlyi
Construction and Building Materials 308, 125036, 2021
212021
Numerical simulation of the effect of bamboo composite building envelope on summer overheating problem
LS Al-Rukaibawi, Z Szalay, G Károlyi
Case Studies in Thermal Engineering 28, 101516, 2021
122021
Evaluation of masonry walls subjected to blast loading based on material modelling approach
SS Weli, IS Abbood, LS Al-Rukaibawi, FL Hamid
Materials Today: Proceedings 49, 3687-3695, 2022
92022
Mechanical properties of laminated bamboo lumber N-finity according to ISO 23478-2022
LS Al-Rukaibawi, M Kachichian, G Károlyi
Journal of Wood Science 70 (1), 1, 2024
12024
Nonlinear analysis of a bamboo plywood-steel composite I-section beam under bending
LS Al-Rukaibawi, G Károlyi
Materials Today: Proceedings, 2023
12023
Through-thickness distribution of bamboo tensile strength parallel to fibres
LS Al-Rukaibawi, G Károlyi
SN Applied Sciences 5 (7), 174, 2023
2023
Theoretical study on the efficiency of utilization of nanoclay-CFRP composite materials in the root area of wind turbine blades
MJ Lukic
Metallurgical and Materials Engineering 24 (4), 2018
2018
UTILISATION OF HYBRID NANOCLAY-CFRP COMPOSITE MATERIALS IN THE ROOT AREAS OF WIND TURBINE BLADES USING ABAQUS FINITE ELEMENT ANALYSIS
ALR Layth
Newcastle University, 2015
2015
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