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RISS 인기검색어
- 검색키워드
- 저자 : Mohamed Mazari (검색결과 5 건)
- 무료
- 기관 내 무료
- 유료
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Bending analysis of functionally graded thick plates with in-plane stiffness variation
Mazari, Ali,Attia, Amina,Sekkal, Mohamed,Kaci, Abdelhakim,Tounsi, Abdelouahed,Bousahla, Abdelmoumen Anis,Mahmoud, S.R. 국제구조공학회 2018 Structural Engineering and Mechanics, An Int'l Jou Vol.68 No.4
In the present paper, functionally graded (FG) materials are presented to investigate the bending analysis of simply supported plates. It is assumed that the material properties of the plate vary through their length according to the power-law form. The displacement field of the present model is selected based on quasi-3D hyperbolic shear deformation theory. By splitting the deflection into bending, shear and stretching parts, the number of unknowns and equations of motion of the present formulation is reduced and hence makes them simple to use. Governing equations are derived from the principle of virtual displacements. Numerical results for deflections and stresses of powerly graded plates under simply supported boundary conditions are presented. The accuracy of the present formulation is demonstrated by comparing the computed results with those available in the literature. As conclusion, this theory is as accurate as other shear deformation theories and so it becomes more attractive due to smaller number of unknowns. Some numerical results are provided to examine the effects of the material gradation, shear deformation on the static behavior of FG plates with variation of material stiffness through their length.
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Bending analysis of functionally graded thick plates with in-plane stiffness variation
Ali Mazari,Amina Attia,Mohamed Sekkal,Abdelhakim Kaci,Abdelouahed Tounsi,Abdelmoumen Anis Bousahla,S. R. Mahmoud 국제구조공학회 2018 Structural Engineering and Mechanics, An Int'l Jou Vol.68 No.4
In the present paper, functionally graded (FG) materials are presented to investigate the bending analysis of simply supported plates. It is assumed that the material properties of the plate vary through their length according to the power-law form. The displacement field of the present model is selected based on quasi-3D hyperbolic shear deformation theory. By splitting the deflection into bending, shear and stretching parts, the number of unknowns and equations of motion of the present formulation is reduced and hence makes them simple to use. Governing equations are derived from the principle of virtual displacements. Numerical results for deflections and stresses of powerly graded plates under simply supported boundary conditions are presented. The accuracy of the present formulation is demonstrated by comparing the computed results with those available in the literature. As conclusion, this theory is as accurate as other shear deformation theories and so it becomes more attractive due to smaller number of unknowns. Some numerical results are provided to examine the effects of the material gradation, shear deformation on the static behavior of FG plates with variation of material stiffness through their length.
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Plastic energy approach prediction of fatigue crack growth
Sofiane Maachou,Abdelkader Boulenouar,Mohamed Benguediab,Mohamed Mazari,Narayanaswami Ranganathan 국제구조공학회 2016 Structural Engineering and Mechanics, An Int'l Jou Vol.59 No.5
The energy-based approach to predict the fatigue crack growth behavior under constant and variable amplitude loading (VAL) of the aluminum alloy 2024 T351 has been investigated and detailed analyses discussed. Firstly, the plastic strain energy was determined per cycle for different block load tests. The relationship between the crack advance and hysteretic energy dissipated per block can be represented by a power law. Then, an analytical model to estimate the lifetime for each spectrum is proposed. The results obtained are compared with the experimentally measured results and the models proposed by Klingbeil\'s model and Tracey\'s model. The evolution of the hysteretic energy dissipated per block is shown similar with that observed under constant amplitude loading.
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Harvesting Electricity from CO2 Emission: Opportunities, Challenges and Future Prospects
Peter Adeniyi Alaba,Shaukat Ali Mazari,Hamisu Umar Farouk,Samuel Eshorame Sanni,Oluranti Agboola,Ching Shya Lee,Faisal Abnisa,Mohamed Kheireddine Aroua,Wan Mohd Ashri Wan Daud 한국정밀공학회 2021 International Journal of Precision Engineering and Vol.8 No.3
The ever-increasing CO2 emission has necessitated the search for suitable technologies for CO2 utilization at a low cost. Recently, a novel concept called reactive gas electrosorption (RGE) for energy harvesting from CO2 emission, which could boost the efficiency of a thermal power plant by 5% was proposed by Hamelers and coworkers. The concept involves mixing of air stream with a low CO2 concentration with a stream of high CO2 concentration in an alkaline aqueous electrolyte. However, this concept is faced with the challenges of designs specific for CO2-electrolyte, and inadequate performance of the electrode materials. Therefore, this study showcases electricity generation opportunities from CO2 via RGE and discussed challenges and prospect. The study reveals that the drawback relating to the electrode could be solved using heteroatom doped traditional carbon materials and composite carbon-based materials, which has been successfully used in capacitive cells designed for desalination. This modification helps to improve the hydrophilicity, thereby improving electrode wettability, and suppressing faradaic reaction and co-ion repulsion effect. This improvement could enhance the charge efficiency, sorption capacity durability of electrodes and reduce the energy loss in RGE. Moreover, intensification of the membrane capacitive deionization (MCDI) process to obtain variances like enhanced MCDI and Faradaic MCDI. Hybrid capacitive deionization (HCDI) is also a promising approach for improvement of the capacitive cell design in RGE. This intensification can improve the electrosorption capacity and minimize the negative effect of faradaic reaction. The use of alternative amine like Piperazine, which is less susceptible to degradation to boosting CO2 dissolution is also suggested.
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Imad Abdelhamid El Haci,Wissame Mazari,Fawzia Atik-Bekkara,Fayçal Hassani,Mohamed Gherib 경희대학교 융합한의과학연구소 2017 Oriental Pharmacy and Experimental Medicine Vol.17 No.2
This scientific work involves a phytochemical study of a medicinal plant endemic to the south of Algeria: Limoniatrum feei Girard (Batt.). The study of the antioxidant effects and the evaluation of the cytotoxicity were reported. Polar organic extracts: methanol, ethanol and acetone of L. feei presented considerable levels of phenols and flavonoids. These levels were ranged from 127.07 to 262.11 mg GAE/g and 84 to 157.88 mg CEQ/g, respectively. Considerable antioxidant activity of polar organic extracts of L. feei was revealed. In the DPPH scavenging method, methanolic extract expressed an IC50 of about 3.2 μg/mL which is comparable to that of the ascorbic acid (2.48 μg/mL). The same extract expressed strong antioxidant power against hydroxyl radical with an IC50 of about 36.33 μg/mL, which is higher than that of the ascorbic acid (61.83 μg/mL). In the test of the β-carotene bleaching, acetone extract expressed a remarkable antioxidant power comparable to the positive control (IC50: 5.85 μg/mL and 4.26 μg/mL, respectively). A low cytotoxic activity against human red blood cells was exerced by the methanol extract of L. feei, this could explaine the safety uses of this plant by indigenous populations.
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