This study investigates the failure behavior of woven carbon/epoxy solid laminates with orthogonal woven plies (0/90° plain weave) subjected to three-point bending, tension, and compression in addition to investigating the applicability of unidirectional failure theories for woven plies. The analysis is conducted experimentally using material load tests and numerically using the finite element

As a result of the high demand for clean and sustainable energy resources, increasing the rotor diameter and tower height is the trend of development to capture more energy from the wind. The long flexible blades are sensitive to any vibrations; therefore, the flutter analysis of wind turbine blades became highly required. A lot of research work has been dedicated to studying the flutter phenomena

The parametric design and optimization of the satellite composite laminated plates with conventional stacking sequence under static load. We create finite element code using MATLAB software to calculate the deformation of the composite satellite plate. The model has been created to study the effect of changing fiber orientation on the displacement of the composite satellite plate. The MATLAB code

A new design of interdigitated E-shaped metamaterial sensor has been proposed. The structure has been intensively studied using CST software and is optimized to achieve ultrahigh sensitivity at the Terahertz range. Two different structures of the E-shaped sensors have been proposed. Both structures are characterized by a high absorption level at their resonant peaks with an ultra-high sensitivity

Description OPPM is a two-year postgraduate academic program. The first year is a diploma that consists of eight courses with two modules and the second year is optional and leads to a master’s degree. This program is designed to be online for wider geographical accessibility and hosts e-labs to simulate real-life experiments. Vision Achieving regional and global excellence in the field of

Water resource management is critical for sustainable social development in Egypt amid growing consumption and limited resource options. Recent national water plans have emphasized the strategic rule of nonconventional water supply through desalination. On the other hand, conventional desalination methods have a severe environmental impact due to increases in the temperature and salinity of the

Cooling electronic chips and hardware is essential to their safe and reliable operation. Heat pipes are devices that transfer heat between a source and a sink through a phase change process. In this project, the performance of the state-of-the-art heat pipe designs is enhanced through artificially created body force fields that are controlled by vibration and/or centrifugal rotation. Objective

Energy harvesting from low-speed wind offers a significant opportunity for applications such as remote sensing equipment and charging the batteries of small robots, during the night or underwater. These miniature devices require optimization to operate efficiently. There is a rapid growth in interest in these devices to serve the fast-growing robotics market. The development and optimization of an

Nowadays, there is rapid development in the global environment nature as well as awareness of the adverse consequences of civilization on the earth. It has led to the increasing demand for adopting sustainable development in several sectors. Therefore, the transition into green buildings is no longer an option in the construction industry. This research aims to develop an eco-product composed of