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The Resource Numerical simulation of mechatronic sensors and actuators, Manfred Kaltenbacher, (electronic book)

Numerical simulation of mechatronic sensors and actuators, Manfred Kaltenbacher, (electronic book)

Label
Numerical simulation of mechatronic sensors and actuators
Title
Numerical simulation of mechatronic sensors and actuators
Statement of responsibility
Manfred Kaltenbacher
Creator
Subject
Language
eng
Member of
Cataloging source
COO
http://library.link/vocab/creatorDate
1968-
http://library.link/vocab/creatorName
Kaltenbacher, Manfred
Dewey number
621
Illustrations
illustrations
Index
index present
LC call number
TK7875
LC item number
.K35 2007
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
http://library.link/vocab/subjectName
  • Microelectromechanical systems
  • Mechatronics
Label
Numerical simulation of mechatronic sensors and actuators, Manfred Kaltenbacher, (electronic book)
Instantiates
Publication
Bibliography note
Includes bibliographical references (p. [411]-422) and index
Contents
Cover -- Contents -- 1 Introduction -- 2 The Finite Element (FE) Method -- 2.1 Finite Element Formulation -- 2.2 Finite Element Method for a 1D Problem -- 2.3 Nodal (Lagrangian) Finite Elements -- 2.3.1 Basic Properties -- 2.3.2 Quadrilateral Element in IR<sup>2</sup> -- 2.3.3 Triangular Element in IR<sup>2</sup> -- 2.3.4 Tetrahedron Element in IR<sup>3</sup> -- 2.3.5 Hexahedron Element in IR<sup>3</sup> -- 2.3.6 Global/Local Derivatives -- 2.3.7 Numerical Integration -- 2.4 Finite Element Procedure -- 2.5 Time Discretization -- 2.5.1 Parabolic Differential Equation -- 2.5.2 Hyperbolic Differential Equation -- 2.6 Integration over Surfaces -- 2.7 Edge (Nédélec) Finite Elements -- 2.8 Discretization Error -- 3 Mechanical Field -- 3.1 Navier's Equation -- 3.2 Deformation and Displacement Gradient -- 3.3 Mechanical Strain -- 3.4 Constitutive Equations -- 3.4.1 Plane Strain State -- 3.4.2 Plane Stress State -- 3.4.3 Axisymmetric Stress-Strain Relations -- 3.5 Waves in Solid Bodies -- 3.6 Material Properties -- 3.7 Numerical Computation -- 3.7.1 Linear Elasticity -- 3.7.2 Damping Model -- 3.7.3 Geometric Non-linear Case -- 3.7.4 Numerical Example -- 3.8 Locking and Effcient Solution Approaches -- 3.8.1 Incompatible Modes Method -- 3.8.2 Enhanced Assumed Strain Method -- 3.8.3 Balanced Reduced and Selective Integration -- 4 Electromagnetic Field -- 4.1 Maxwell's Equations -- 4.2 Quasistatic Electromagnetic Fields -- 4.2.1 Magnetic Vector Potential -- 4.2.2 Skin Effect -- 4.3 Electrostatic Field -- 4.4 Material Properties -- 4.4.1 Magnetic Permeability -- 4.4.2 Electrical Conductivity -- 4.4.3 Dielectric Permittivity -- 4.5 Electromagnetic Interface Conditions -- 4.5.1 Continuity Relations for Magnetic Field -- 4.5.2 Continuity Relations for Electric Field -- 4.5.3 Continuity Relations for Electric Current Density -- 4.6 Numerical Computation: Electrostatics -- 4.7 Numerical Computation: Electromagnetics -- 4.7.1 Formulation -- 4.7.2 Discretization with Edge Elements -- 4.7.3 Discretization with Nodal Finite Elements -- 4.7.4 Newton's Method for the Non-linear Case -- 4.7.5 Approximation of B-H Curve -- 4.7.6 Modelling of Current-loaded Coil -- 4.7.7 Computation of Global Quantities -- 4.7.8 Induced Electric Voltage -- 4.8 Numerical Examples -- 4.8.1 Ferromagnetic Cube -- 4.8.2 Thin Iron Plate -- 5 Acoustic Field -- 5.1 Wave Theory of Sound -- 5.1.1 Conservation of Mass (Continuity Equation) -- 5.1.2 Conservation of Momentum (Euler Equation) -- 5.1.3 Pressure-Density Relation (State Equation) -- 5.1.4 Linear Acoustic Wave Equation -- 5.1.5 Acoustic Quantities -- 5.1.6 Plane and Spherical Waves -- 5.2 Quantitative Measure of Sound -- 5.3 Non-linear Acoustic Wave Equation -- 5.4 Numerical Computation
Control code
SPR181375355
Dimensions
unknown
Edition
2nd ed.
Extent
1 online resource (xviii, 428 p.)
Form of item
online
Isbn
9783540713609
Other physical details
ill.
Specific material designation
remote
Label
Numerical simulation of mechatronic sensors and actuators, Manfred Kaltenbacher, (electronic book)
Publication
Bibliography note
Includes bibliographical references (p. [411]-422) and index
Contents
Cover -- Contents -- 1 Introduction -- 2 The Finite Element (FE) Method -- 2.1 Finite Element Formulation -- 2.2 Finite Element Method for a 1D Problem -- 2.3 Nodal (Lagrangian) Finite Elements -- 2.3.1 Basic Properties -- 2.3.2 Quadrilateral Element in IR<sup>2</sup> -- 2.3.3 Triangular Element in IR<sup>2</sup> -- 2.3.4 Tetrahedron Element in IR<sup>3</sup> -- 2.3.5 Hexahedron Element in IR<sup>3</sup> -- 2.3.6 Global/Local Derivatives -- 2.3.7 Numerical Integration -- 2.4 Finite Element Procedure -- 2.5 Time Discretization -- 2.5.1 Parabolic Differential Equation -- 2.5.2 Hyperbolic Differential Equation -- 2.6 Integration over Surfaces -- 2.7 Edge (Nédélec) Finite Elements -- 2.8 Discretization Error -- 3 Mechanical Field -- 3.1 Navier's Equation -- 3.2 Deformation and Displacement Gradient -- 3.3 Mechanical Strain -- 3.4 Constitutive Equations -- 3.4.1 Plane Strain State -- 3.4.2 Plane Stress State -- 3.4.3 Axisymmetric Stress-Strain Relations -- 3.5 Waves in Solid Bodies -- 3.6 Material Properties -- 3.7 Numerical Computation -- 3.7.1 Linear Elasticity -- 3.7.2 Damping Model -- 3.7.3 Geometric Non-linear Case -- 3.7.4 Numerical Example -- 3.8 Locking and Effcient Solution Approaches -- 3.8.1 Incompatible Modes Method -- 3.8.2 Enhanced Assumed Strain Method -- 3.8.3 Balanced Reduced and Selective Integration -- 4 Electromagnetic Field -- 4.1 Maxwell's Equations -- 4.2 Quasistatic Electromagnetic Fields -- 4.2.1 Magnetic Vector Potential -- 4.2.2 Skin Effect -- 4.3 Electrostatic Field -- 4.4 Material Properties -- 4.4.1 Magnetic Permeability -- 4.4.2 Electrical Conductivity -- 4.4.3 Dielectric Permittivity -- 4.5 Electromagnetic Interface Conditions -- 4.5.1 Continuity Relations for Magnetic Field -- 4.5.2 Continuity Relations for Electric Field -- 4.5.3 Continuity Relations for Electric Current Density -- 4.6 Numerical Computation: Electrostatics -- 4.7 Numerical Computation: Electromagnetics -- 4.7.1 Formulation -- 4.7.2 Discretization with Edge Elements -- 4.7.3 Discretization with Nodal Finite Elements -- 4.7.4 Newton's Method for the Non-linear Case -- 4.7.5 Approximation of B-H Curve -- 4.7.6 Modelling of Current-loaded Coil -- 4.7.7 Computation of Global Quantities -- 4.7.8 Induced Electric Voltage -- 4.8 Numerical Examples -- 4.8.1 Ferromagnetic Cube -- 4.8.2 Thin Iron Plate -- 5 Acoustic Field -- 5.1 Wave Theory of Sound -- 5.1.1 Conservation of Mass (Continuity Equation) -- 5.1.2 Conservation of Momentum (Euler Equation) -- 5.1.3 Pressure-Density Relation (State Equation) -- 5.1.4 Linear Acoustic Wave Equation -- 5.1.5 Acoustic Quantities -- 5.1.6 Plane and Spherical Waves -- 5.2 Quantitative Measure of Sound -- 5.3 Non-linear Acoustic Wave Equation -- 5.4 Numerical Computation
Control code
SPR181375355
Dimensions
unknown
Edition
2nd ed.
Extent
1 online resource (xviii, 428 p.)
Form of item
online
Isbn
9783540713609
Other physical details
ill.
Specific material designation
remote

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