M.S.H. Al-Furjan (China Zhejiang University), M. Rabani Bidgoli (Iran Islamic Azad University), Reza Kolahchi (China Zhejiang University)
Application of Numerical Methods in Engineering Problems using MATLAB®
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M.S.H. Al-Furjan (China Zhejiang University), M. Rabani Bidgoli (Iran Islamic Azad University), Reza Kolahchi (China Zhejiang University)
Application of Numerical Methods in Engineering Problems using MATLAB®
- Gebundenes Buch
Application of Numerical Methods in Engineering Problems using MATLABÂ presents an analysis of structures using numerical methods and mathematical modeling. This structural analysis also includes beam, plate, and pipe elements, and also examines deflection and frequency, or buckling loads.
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Application of Numerical Methods in Engineering Problems using MATLABÂ presents an analysis of structures using numerical methods and mathematical modeling. This structural analysis also includes beam, plate, and pipe elements, and also examines deflection and frequency, or buckling loads.
Produktdetails
- Produktdetails
- Emerging Materials and Technologies
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 278
- Erscheinungstermin: 31. Januar 2024
- Englisch
- Abmessung: 241mm x 162mm x 25mm
- Gewicht: 580g
- ISBN-13: 9781032393919
- ISBN-10: 1032393912
- Artikelnr.: 67256840
- Emerging Materials and Technologies
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 278
- Erscheinungstermin: 31. Januar 2024
- Englisch
- Abmessung: 241mm x 162mm x 25mm
- Gewicht: 580g
- ISBN-13: 9781032393919
- ISBN-10: 1032393912
- Artikelnr.: 67256840
M.S.H. Al-Furjan is an associate professor of Mechanical Engineering. He earned his PhD degree from Zhejiang University. He has rich research and teaching experience from different universities and institutes in China, Malaysia, and Iraq. His research involves structural mechanics, smart materials and structures, and numerical methods. He has been listed in the World Top 2% Scientists ranked by Stanford University. M. Rabani Bidgoli received his PhD degree from the University of Semnan, Semnan City, Iran. He is the technical reviewer of many top-level journals. His research includes the numerical modeling of concrete structures, numerical methods, and the theory of elasticity and new materials. He is currently an assistant professor and the head of Islamic Azad University, Jasb Branch. R. Kolahchi received his PhD degree from the University of Kashan, Kashan City, Iran. He is among the World Top 2% Scientists based on the database developed by Stanford University. His h-index is 40, and he is the technical reviewer of many top-level journals. His research includes nanomechanics, continuum mechanics, mechanical analyses structures, smart materials, and numerical methods. A. Farrokhian received his PhD degree from Isfahan University of Technology, Iran. He has many publications in well-known journals and his research includes composites, plate and shell theories, and numerical methods. M.R. Bayati is researcher in Khomein Branch, Islamic Azad University, Iran. His research includes buckling, optimization, new material, and composite structures.
1. Basic Theories. 2. Solution Methods. 3. Buckling of Nanoparticles
Reinforced Beams Exposed to Fire. 4. Dynamic Response of Nanofiber
Reinforced Beams Subjected to Seismic Ground Excitation. 5. Buckling
Analysis of Plates Reinforced by Graphene Platelet. 6. Vibration Analysis
of Agglomerated Nanoparticles Reinforced Plates. 7. Vibration Analysis of
Plates with NFRP Layer. 8. Vibration Analysis of Plates Reinforced with
Nanoparticles and Piezoelectric Layer. 9. Forced Vibration Analysis of
Plates Reinforced by Nanoparticles. 10. Seismic Analysis of Plates
Reinforced by Nanoparticles. 11. Stress Analysis of Shells Reinforced with
Nanoparticles. 12. Earthquake Response of Nanocomposite Shells Conveying
and Immersing in Fluid. 13. Vibration and Instability Analysis of Shells
Reinforced by Nanoparticles. 14. Dynamic Response of Nanocomposite Shells
Covered with Piezoelectric Layer.
Reinforced Beams Exposed to Fire. 4. Dynamic Response of Nanofiber
Reinforced Beams Subjected to Seismic Ground Excitation. 5. Buckling
Analysis of Plates Reinforced by Graphene Platelet. 6. Vibration Analysis
of Agglomerated Nanoparticles Reinforced Plates. 7. Vibration Analysis of
Plates with NFRP Layer. 8. Vibration Analysis of Plates Reinforced with
Nanoparticles and Piezoelectric Layer. 9. Forced Vibration Analysis of
Plates Reinforced by Nanoparticles. 10. Seismic Analysis of Plates
Reinforced by Nanoparticles. 11. Stress Analysis of Shells Reinforced with
Nanoparticles. 12. Earthquake Response of Nanocomposite Shells Conveying
and Immersing in Fluid. 13. Vibration and Instability Analysis of Shells
Reinforced by Nanoparticles. 14. Dynamic Response of Nanocomposite Shells
Covered with Piezoelectric Layer.
1. Basic Theories. 2. Solution Methods. 3. Buckling of Nanoparticles
Reinforced Beams Exposed to Fire. 4. Dynamic Response of Nanofiber
Reinforced Beams Subjected to Seismic Ground Excitation. 5. Buckling
Analysis of Plates Reinforced by Graphene Platelet. 6. Vibration Analysis
of Agglomerated Nanoparticles Reinforced Plates. 7. Vibration Analysis of
Plates with NFRP Layer. 8. Vibration Analysis of Plates Reinforced with
Nanoparticles and Piezoelectric Layer. 9. Forced Vibration Analysis of
Plates Reinforced by Nanoparticles. 10. Seismic Analysis of Plates
Reinforced by Nanoparticles. 11. Stress Analysis of Shells Reinforced with
Nanoparticles. 12. Earthquake Response of Nanocomposite Shells Conveying
and Immersing in Fluid. 13. Vibration and Instability Analysis of Shells
Reinforced by Nanoparticles. 14. Dynamic Response of Nanocomposite Shells
Covered with Piezoelectric Layer.
Reinforced Beams Exposed to Fire. 4. Dynamic Response of Nanofiber
Reinforced Beams Subjected to Seismic Ground Excitation. 5. Buckling
Analysis of Plates Reinforced by Graphene Platelet. 6. Vibration Analysis
of Agglomerated Nanoparticles Reinforced Plates. 7. Vibration Analysis of
Plates with NFRP Layer. 8. Vibration Analysis of Plates Reinforced with
Nanoparticles and Piezoelectric Layer. 9. Forced Vibration Analysis of
Plates Reinforced by Nanoparticles. 10. Seismic Analysis of Plates
Reinforced by Nanoparticles. 11. Stress Analysis of Shells Reinforced with
Nanoparticles. 12. Earthquake Response of Nanocomposite Shells Conveying
and Immersing in Fluid. 13. Vibration and Instability Analysis of Shells
Reinforced by Nanoparticles. 14. Dynamic Response of Nanocomposite Shells
Covered with Piezoelectric Layer.