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Biomechanics : concepts and computation / Cees Oomens, Marcel Brekelmans, Frank Baaijens

Oomens, Cees.
Contributor(s): Brekelmans, Marcel | Baaijens, Frank.
Material type: materialTypeLabelBook; Format: print Series: Cambridge texts in biomedical engineering.Publisher: Cambridge : Cambridge University, 2010Description: XIV, 332 p. : il., gráf. ; 25 cm.ISBN: 978-0-521-17296-7.Subject(s): Biomecánica
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Item type Home library Call number Status Loan Date due Barcode Item holds
Monografías 03. BIBLIOTECA INGENIERÍA PUERTO REAL
612.7/OOM/bio (Browse shelf) Available   Shelving location | Bibliomaps® PREST. LIBROS 374308588X
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Índice

Bibliografía: p. [329]-330

This is the first textbook to integrates both general and specific topics, theoretical background and biomedical engineering applications, as well as analytical and numerical approaches. This quantitative approach integrates the classical concepts of mechanics and computational modelling techniques, in a logical progression through a wide range of fundamental biomechanics principles. Online MATLAB-based software along with examples and problems using biomedical applications will motivate undergraduate biomedical engineering students to practise and test their skills. The book covers topics such as kinematics, equilibrium, stresses and strains, and also focuses on large deformations and rotations and non-linear constitutive equations, including visco-elastic behaviour and the behaviour of long slender fibre-like structures. This is the definitive textbook for students.

Índice: Preface; 1. Vector calculus; 2. The concepts of force and moment; 3. Static equilibrium; 4. The mechanical behaviour of fibres; 5. Fibres: time dependent behaviour; 6. Analysis of a one-dimensional continuous medium; 7. Biological materials and continuum mechanics; 8. Stress in three-dimensional continuous media; 9. Motion: the time as an extra dimension; 10. Deformation and rotation, deformation rate and spin; 11. Local balance of mass, momentum and energy; 12. Constitutive modelling of solids and fluids; 13. Solution strategies for solid and fluid mechanics problems; 14. Numerical solution of one-dimensi... Etc.

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