Hamdy A Ashour | Misr University for Science and Technology (original) (raw)
Papers by Hamdy A Ashour
The International Conference on Applied Mechanics and Mechanical Engineering (Print), May 1, 1986
A metaod of analysis is presented for circular cylinderical panels under external loads and stead... more A metaod of analysis is presented for circular cylinderical panels under external loads and steady creep deformations. The analysis are valid for small and moderately large displacements. Initial imperfections are included. The case of simply supported cylinderical panels under external axial compressive load is investigated in detail. The buckling and post buckling behavior of cylinderical panels is described first, the analysis is based on Von Karman Donnell general equations for cylinderical shells. Using the Norton's secondary creep law, the deformation rate and creep buckling were described in order to predict the critical creep time of cylinderical panels under steady creep conditions.
Sci Technol, 2020
Materials developed for space application to sustain both of Mechanical loads and space environme... more Materials developed for space application to sustain both of Mechanical loads and space environmental threats. The Electron Beam (EB) was selected to represent one of the most hazardous space environment parameters subjected to the Spacecraft (SC) components; the charged particle flux which predicted according to the space mission and its orbit parameters. The candidate materials for this study based on the carbon fiber/epoxy which was enhanced by adding Reduced Graphene Oxide (RGO) and investigate its resistance to EB. RGO addition was varies in three different compounds with different preparation methods; (RGO-24N, RGO-33C and RGO-G270). The RGO additives were dispersed in the epoxy matrix. Each sample was subjected to Integrated Current Transformer (ICT) electron beam at a constant dose of 100 kGy. The mechanical properties of Nano composites were tested by a Universal Testing System (UTS) and were correlated to the variation of their constituent molecular structure obtained by Fourier Transform Infrared (FTIR) spectroscopy, Dynamic Mechanical Analysis (DMA) and Electric Resistivity (ER). The results revealed an enhancement in the mechanical properties of epoxy mthe atrix after the addition of RGO except for (RGO-33C) and preservation of the Mechanical properties even after irradiation.
IOP Conference Series: Materials Science and Engineering, 2021
Environmental space threats are becoming more critical as they affect the optical, thermal, and e... more Environmental space threats are becoming more critical as they affect the optical, thermal, and electrical properties of the reinforced fiber polymeric-based materials in spacecraft. Three different Nano-particles Alumina (Al2,O3), Multiwall Carbon Nanotubes (MWCNT), and Reduced Graphene Oxide (RGO) were added to the epoxy matrix and then reinforced by bidirectional carbon fiber plain to form carbon fiber/epoxy by hand lay-up using autoclave curing technique to make three different reinforced materials. In this paper, the electrical, optical, and thermal properties of the carbon fiber/Epoxy Nanocomposite were studied. Fourier transform infrared (FTIR) was performed to evaluate the structural changes in the newly synthesized materials. The optical, thermal, and electrical properties were tested by UV-visible Spectroscopy, Photo-acoustic spectroscopy (PA), and Keithley 2635A respectively. The results showed an enhancement in the electrical, optical, and thermal properties of the epoxy...
IOP Conference Series: Materials Science and Engineering, 2021
Environmental space threats are becoming more critical as they affect the optical, thermal, and e... more Environmental space threats are becoming more critical as they affect the optical, thermal, and electrical properties of the reinforced fiber polymeric-based materials in spacecraft. Three different Nano-particles Alumina (Al2,O3), Multiwall Carbon Nanotubes (MWCNT), and Reduced Graphene Oxide (RGO) were added to the epoxy matrix and then reinforced by bidirectional carbon fiber plain to form carbon fiber/epoxy by hand lay-up using autoclave curing technique to make three different reinforced materials. In this paper, the electrical, optical, and thermal properties of the carbon fiber/Epoxy Nanocomposite were studied. Fourier transform infrared (FTIR) was performed to evaluate the structural changes in the newly synthesized materials. The optical, thermal, and electrical properties were tested by UV-visible Spectroscopy, Photo-acoustic spectroscopy (PA), and Keithley 2635A respectively. The results showed an enhancement in the electrical, optical, and thermal properties of the epoxy...
Experimental Techniques, 1994
Journal of Agricultural Studies, 2017
An open field experiment was carried out during 2015 and 2016 seasons at the experimental nursery... more An open field experiment was carried out during 2015 and 2016 seasons at the experimental nursery of the Ornamental Horticulture Department, Faculty of Agriculture, Cairo University, Egypt. The purpose of present research was to investigate the effect of foliar application of nano silicon with different concentrations and gypsum soil application on growth, flowering and chemical constituents of Jatropha integerrima plants irrigated with different levels of saline water. The concentrations of saline water were (1000, 2000 and 4000 ppm), in addition to tap water (270 ppm) as a control, simultaneously plants were received monthly foliar application of nano silicon 1 and 2 mM or soil application of gypsum at 20 g/plant, either applied individually or in combination.The results showed that, elevating salt concentration in irrigation water decreased vegetative growth characteristics, flowering traits, leaves anatomy and chemical constituents. In contrast, increasing salinity of irrigation...
Canadian Geotechnical Journal, 1988
This paper proposes a general compressive strength criterion for anisotropic rock materials under... more This paper proposes a general compressive strength criterion for anisotropic rock materials under multiaxial states of stress. The proposed criterion is a generalization of the Von Mises' criterion for yielding of ductile metals, which has also been used previously as a strength criterion for brittle fracture in the spirit of both being limits of linear elastic behavior. The presently proposed criterion takes into consideration the effects of the confining pressure, the various stress components, and the material anisotropy on rock material failure in a multiaxial stress state. To verify the applicability of the proposed criterion, it has been used to construct the failure envelopes for several types of rock materials. Consequently, the constructed failure envelopes and the corresponding experimental results have been compared. In all cases, a close agreement with the experimental results has been achieved. This result demonstrates the versatility and applicability of the propos...
This work presents an assessment of the potential and economical feasibility of adopting wind ene... more This work presents an assessment of the potential and economical feasibility of adopting wind energy as a renewable source of energy in Qatar. An analysis is presented for the long term measured wind speed (1976-1989) at Doha International Airport. The average annual wind speed was found to be about 4.4 m/s, which indicates the suitability of utilizing only small wind turbine generators, efficiently. Such small generators can be implemented for water pumping and to produce sufficient electricity to meet vital, limited needs of remote locations, such as isolated farms, which do not have access to the national electricity grid. An economical assessment is presented which takes into consideration the interest recovery factor, the life time of the wind energy conversion system (WECS), the investment rate and operation and maintenance costs. The results indicate that the cost of electricity generation from the wind in Qatar compares favorably to that from fossil fuel resources.
This work presents an analysis for the creep buckling problem of geometrically imperfect rectangu... more This work presents an analysis for the creep buckling problem of geometrically imperfect rectangular flat plates under biaxial compression with simple support boundary conditions. The analysis is based on a non-dimensional form of Donnell-type equations for a slightly imperfect flat plate. The elastic constitutive equations for a thin plate are employed. The basic elastic equilibrium equations in the middle surface displacement components are derived through the employment of the principle of virtual displacements. For creep deformations, Odqvist's constitutive equations for steady creep are employed. Based on the present analysis, a computer program has been developed for the creep buckling of flat plates. The plate ends are assumed to be simply supported. The applied loading is assumed to be biaxial compression. Numerical results are presented for imperfect isotropic plates under both unaxial and biaxial compression. For unaxially compressed plates, the present results are gen...
Annual Technical Meeting, 1984
Canadian Geotechnical Journal, 1988
Renewable Energy, 2003
This work presents an assessment of the potential and economical feasibility of adopting off-shor... more This work presents an assessment of the potential and economical feasibility of adopting off-shore/on-shore wind energy as a renewable source of energy in Qatar. An analysis is presented for the long term measured on-shore wind speed (19762000) at Doha International ...
Experimental Techniques, 1993
Based on the present industry standard for microcomputers (the IBM-compatible family of microcomp... more Based on the present industry standard for microcomputers (the IBM-compatible family of microcomputers), a large number of products are available for general-purpose, accurate high-or low-speed data-acquisition tasks. There are two basic types of such products. The first type is basically a PC-controlled test and measurement system which includes several measuring instruments. The computational and display capabilities of the system are removed from the instruments and centralized in the microcomputer. A software package controls the microcomputer. Such systems are relatively expensive. The second type consists of a number of electronic add-on cards. When these cards are installed inside the microcomputer, they make a cost-effective general-purpose data acquisition system with very high capabilities. General-purpose software packages are commercially available to support such systems and control the data acquisition process. Such a system is functionally equivalent to many expensive dedicated systems. The availability of such general-purpose software together with the microcomputer large memory and storage capacity, makes these systems very powerful and flexible. Many manufacturers offer PC-based data-acquisition products.
Computers & Structures, 1994
This work presents an analysis of the creep buckling problem of geometrically imperfect circular ... more This work presents an analysis of the creep buckling problem of geometrically imperfect circular cylindrical panels under multiaxial loading with simple support boundary conditions. The analysis is based on a nondimensional form of Donnell-type equations for a slightly imperfect cylindrical panel. The elastic constitutive equations for a thin panel are employed. The basic elastic equilibrium equations in the middle surface displacement components are derived through the employment of the principle of virtual displacements. For creep deformations, Qdqvist's constitutive equations for steady creep are employed. In the present analysis, creep buckling is characterized by either reaching a maximum deflection limit or experiencing a bifurcational buckling state. Based on the present analysis, a computer program has been developed for the creep buckling analysis of cylindrical panels. The panel ends are assumed to be simply supported. The applied loading is assumed to be axial compression and lateral pressure. Numerical results are presented for imperfect isotropic panels under both uniaxial and multiaxial loading. For the case of uniaxially compressed plates, the present results are generally in good agreement with previous experimental and analytical results. These results suggest that each of the level of the axial compressive load, the level of the lateral pressure, the amplitude and direction of the initial imperfection, and the panel curvature greatly affect the creep buckling times of cylindrical panels. The results presented indicate that avoiding negative (toward the centre of curvature) initial imperfections would help to suppress the creep buckling process for cylindrical panels under multiaxial loading conditions. It would also help to eliminate the possibility of a bifurcational buckling state to exist. This can be achieved by intentionally introducing a small positive initial imperfection in the form of a simple out of roundness.
Computers & Structures, 1980
ABSTRACT
The International Conference on Applied Mechanics and Mechanical Engineering (Print), May 1, 1986
A metaod of analysis is presented for circular cylinderical panels under external loads and stead... more A metaod of analysis is presented for circular cylinderical panels under external loads and steady creep deformations. The analysis are valid for small and moderately large displacements. Initial imperfections are included. The case of simply supported cylinderical panels under external axial compressive load is investigated in detail. The buckling and post buckling behavior of cylinderical panels is described first, the analysis is based on Von Karman Donnell general equations for cylinderical shells. Using the Norton's secondary creep law, the deformation rate and creep buckling were described in order to predict the critical creep time of cylinderical panels under steady creep conditions.
Sci Technol, 2020
Materials developed for space application to sustain both of Mechanical loads and space environme... more Materials developed for space application to sustain both of Mechanical loads and space environmental threats. The Electron Beam (EB) was selected to represent one of the most hazardous space environment parameters subjected to the Spacecraft (SC) components; the charged particle flux which predicted according to the space mission and its orbit parameters. The candidate materials for this study based on the carbon fiber/epoxy which was enhanced by adding Reduced Graphene Oxide (RGO) and investigate its resistance to EB. RGO addition was varies in three different compounds with different preparation methods; (RGO-24N, RGO-33C and RGO-G270). The RGO additives were dispersed in the epoxy matrix. Each sample was subjected to Integrated Current Transformer (ICT) electron beam at a constant dose of 100 kGy. The mechanical properties of Nano composites were tested by a Universal Testing System (UTS) and were correlated to the variation of their constituent molecular structure obtained by Fourier Transform Infrared (FTIR) spectroscopy, Dynamic Mechanical Analysis (DMA) and Electric Resistivity (ER). The results revealed an enhancement in the mechanical properties of epoxy mthe atrix after the addition of RGO except for (RGO-33C) and preservation of the Mechanical properties even after irradiation.
IOP Conference Series: Materials Science and Engineering, 2021
Environmental space threats are becoming more critical as they affect the optical, thermal, and e... more Environmental space threats are becoming more critical as they affect the optical, thermal, and electrical properties of the reinforced fiber polymeric-based materials in spacecraft. Three different Nano-particles Alumina (Al2,O3), Multiwall Carbon Nanotubes (MWCNT), and Reduced Graphene Oxide (RGO) were added to the epoxy matrix and then reinforced by bidirectional carbon fiber plain to form carbon fiber/epoxy by hand lay-up using autoclave curing technique to make three different reinforced materials. In this paper, the electrical, optical, and thermal properties of the carbon fiber/Epoxy Nanocomposite were studied. Fourier transform infrared (FTIR) was performed to evaluate the structural changes in the newly synthesized materials. The optical, thermal, and electrical properties were tested by UV-visible Spectroscopy, Photo-acoustic spectroscopy (PA), and Keithley 2635A respectively. The results showed an enhancement in the electrical, optical, and thermal properties of the epoxy...
IOP Conference Series: Materials Science and Engineering, 2021
Environmental space threats are becoming more critical as they affect the optical, thermal, and e... more Environmental space threats are becoming more critical as they affect the optical, thermal, and electrical properties of the reinforced fiber polymeric-based materials in spacecraft. Three different Nano-particles Alumina (Al2,O3), Multiwall Carbon Nanotubes (MWCNT), and Reduced Graphene Oxide (RGO) were added to the epoxy matrix and then reinforced by bidirectional carbon fiber plain to form carbon fiber/epoxy by hand lay-up using autoclave curing technique to make three different reinforced materials. In this paper, the electrical, optical, and thermal properties of the carbon fiber/Epoxy Nanocomposite were studied. Fourier transform infrared (FTIR) was performed to evaluate the structural changes in the newly synthesized materials. The optical, thermal, and electrical properties were tested by UV-visible Spectroscopy, Photo-acoustic spectroscopy (PA), and Keithley 2635A respectively. The results showed an enhancement in the electrical, optical, and thermal properties of the epoxy...
Experimental Techniques, 1994
Journal of Agricultural Studies, 2017
An open field experiment was carried out during 2015 and 2016 seasons at the experimental nursery... more An open field experiment was carried out during 2015 and 2016 seasons at the experimental nursery of the Ornamental Horticulture Department, Faculty of Agriculture, Cairo University, Egypt. The purpose of present research was to investigate the effect of foliar application of nano silicon with different concentrations and gypsum soil application on growth, flowering and chemical constituents of Jatropha integerrima plants irrigated with different levels of saline water. The concentrations of saline water were (1000, 2000 and 4000 ppm), in addition to tap water (270 ppm) as a control, simultaneously plants were received monthly foliar application of nano silicon 1 and 2 mM or soil application of gypsum at 20 g/plant, either applied individually or in combination.The results showed that, elevating salt concentration in irrigation water decreased vegetative growth characteristics, flowering traits, leaves anatomy and chemical constituents. In contrast, increasing salinity of irrigation...
Canadian Geotechnical Journal, 1988
This paper proposes a general compressive strength criterion for anisotropic rock materials under... more This paper proposes a general compressive strength criterion for anisotropic rock materials under multiaxial states of stress. The proposed criterion is a generalization of the Von Mises' criterion for yielding of ductile metals, which has also been used previously as a strength criterion for brittle fracture in the spirit of both being limits of linear elastic behavior. The presently proposed criterion takes into consideration the effects of the confining pressure, the various stress components, and the material anisotropy on rock material failure in a multiaxial stress state. To verify the applicability of the proposed criterion, it has been used to construct the failure envelopes for several types of rock materials. Consequently, the constructed failure envelopes and the corresponding experimental results have been compared. In all cases, a close agreement with the experimental results has been achieved. This result demonstrates the versatility and applicability of the propos...
This work presents an assessment of the potential and economical feasibility of adopting wind ene... more This work presents an assessment of the potential and economical feasibility of adopting wind energy as a renewable source of energy in Qatar. An analysis is presented for the long term measured wind speed (1976-1989) at Doha International Airport. The average annual wind speed was found to be about 4.4 m/s, which indicates the suitability of utilizing only small wind turbine generators, efficiently. Such small generators can be implemented for water pumping and to produce sufficient electricity to meet vital, limited needs of remote locations, such as isolated farms, which do not have access to the national electricity grid. An economical assessment is presented which takes into consideration the interest recovery factor, the life time of the wind energy conversion system (WECS), the investment rate and operation and maintenance costs. The results indicate that the cost of electricity generation from the wind in Qatar compares favorably to that from fossil fuel resources.
This work presents an analysis for the creep buckling problem of geometrically imperfect rectangu... more This work presents an analysis for the creep buckling problem of geometrically imperfect rectangular flat plates under biaxial compression with simple support boundary conditions. The analysis is based on a non-dimensional form of Donnell-type equations for a slightly imperfect flat plate. The elastic constitutive equations for a thin plate are employed. The basic elastic equilibrium equations in the middle surface displacement components are derived through the employment of the principle of virtual displacements. For creep deformations, Odqvist's constitutive equations for steady creep are employed. Based on the present analysis, a computer program has been developed for the creep buckling of flat plates. The plate ends are assumed to be simply supported. The applied loading is assumed to be biaxial compression. Numerical results are presented for imperfect isotropic plates under both unaxial and biaxial compression. For unaxially compressed plates, the present results are gen...
Annual Technical Meeting, 1984
Canadian Geotechnical Journal, 1988
Renewable Energy, 2003
This work presents an assessment of the potential and economical feasibility of adopting off-shor... more This work presents an assessment of the potential and economical feasibility of adopting off-shore/on-shore wind energy as a renewable source of energy in Qatar. An analysis is presented for the long term measured on-shore wind speed (19762000) at Doha International ...
Experimental Techniques, 1993
Based on the present industry standard for microcomputers (the IBM-compatible family of microcomp... more Based on the present industry standard for microcomputers (the IBM-compatible family of microcomputers), a large number of products are available for general-purpose, accurate high-or low-speed data-acquisition tasks. There are two basic types of such products. The first type is basically a PC-controlled test and measurement system which includes several measuring instruments. The computational and display capabilities of the system are removed from the instruments and centralized in the microcomputer. A software package controls the microcomputer. Such systems are relatively expensive. The second type consists of a number of electronic add-on cards. When these cards are installed inside the microcomputer, they make a cost-effective general-purpose data acquisition system with very high capabilities. General-purpose software packages are commercially available to support such systems and control the data acquisition process. Such a system is functionally equivalent to many expensive dedicated systems. The availability of such general-purpose software together with the microcomputer large memory and storage capacity, makes these systems very powerful and flexible. Many manufacturers offer PC-based data-acquisition products.
Computers & Structures, 1994
This work presents an analysis of the creep buckling problem of geometrically imperfect circular ... more This work presents an analysis of the creep buckling problem of geometrically imperfect circular cylindrical panels under multiaxial loading with simple support boundary conditions. The analysis is based on a nondimensional form of Donnell-type equations for a slightly imperfect cylindrical panel. The elastic constitutive equations for a thin panel are employed. The basic elastic equilibrium equations in the middle surface displacement components are derived through the employment of the principle of virtual displacements. For creep deformations, Qdqvist's constitutive equations for steady creep are employed. In the present analysis, creep buckling is characterized by either reaching a maximum deflection limit or experiencing a bifurcational buckling state. Based on the present analysis, a computer program has been developed for the creep buckling analysis of cylindrical panels. The panel ends are assumed to be simply supported. The applied loading is assumed to be axial compression and lateral pressure. Numerical results are presented for imperfect isotropic panels under both uniaxial and multiaxial loading. For the case of uniaxially compressed plates, the present results are generally in good agreement with previous experimental and analytical results. These results suggest that each of the level of the axial compressive load, the level of the lateral pressure, the amplitude and direction of the initial imperfection, and the panel curvature greatly affect the creep buckling times of cylindrical panels. The results presented indicate that avoiding negative (toward the centre of curvature) initial imperfections would help to suppress the creep buckling process for cylindrical panels under multiaxial loading conditions. It would also help to eliminate the possibility of a bifurcational buckling state to exist. This can be achieved by intentionally introducing a small positive initial imperfection in the form of a simple out of roundness.
Computers & Structures, 1980
ABSTRACT