Finite element method
By: Dhanaraj, R.
Contributor(s): Nair, K. Prabhakaran.
Publisher: New Delhi Oxford University Press 2015Edition: 1st.Description: xviii, 612p. | Binding - Paperback | 24.3*15.7 cm.ISBN: 9780198073901; 0198073909.Subject(s): Mechanical EngineeringDDC classification: 620.00151825 Summary: Finite Element Method is designed as a textbook for the undergraduate mechanical and civil engineering students illustrating solutions to a wide variety of engineering problems involving structural mechanics and fundamental heat transfer. The book begins with an introductory chapter on the finite element methods, and provides a solid foundation to the subject, in subsequent chapters, by addressing 1D, 2D, truss, beam and frame, and isoparametric elements, and discussing applications to scalar problems and dynamic and stability analysis. It then discusses applications of finite element methods to structural mechanics and 1D and 2D heat flow. It also explores the recent trends in the subject such as meshless methods, material non-linearity, and contact problems.Item type | Current location | Collection | Call number | Status | Date due | Barcode | Item holds |
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Text Books | School of Engineering & Technology Reading Hall | Circulation | 620.00151825 DHA (Browse shelf) | Available | DE0081 |
Finite Element Method is designed as a textbook for the undergraduate mechanical and civil engineering students illustrating solutions to a wide variety of engineering problems involving structural mechanics and fundamental heat transfer. The book begins with an introductory chapter on the finite element methods, and provides a solid foundation to the subject, in subsequent chapters, by addressing 1D, 2D, truss, beam and frame, and isoparametric elements, and discussing applications to scalar problems and dynamic and stability analysis. It then discusses applications of finite element methods to structural mechanics and 1D and 2D heat flow. It also explores the recent trends in the subject such as meshless methods, material non-linearity, and contact problems.
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