Description |
1 online resource (395 pages) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Note |
Print version record. |
Contents |
Front Cover; Modeling, Solving and Application for Topology Optimization of Continuum Structures; Copyright Page; Dedication; Contents; Preface; Acknowledgment; 1 Exordium; 1.1 Research History on Structural Optimization Design; 1.1.1 Classification and Hierarchy for Structural Optimization Design; 1.1.2 Development of Structural Optimization; 1.2 Research Progress in Topology Optimization of Continuum Structures; 1.2.1 Numerical Methods Solving Problems of Topology Optimization of Continuum Structures; 1.2.2 Solution Algorithms for Topology Optimization of Continuum Structures. |
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1.3 Concepts and Algorithms on Mathematical Programming1.3.1 Three Essential Factors of Structural Optimization Design; 1.3.2 Models for Mathematical Programming; 1.3.3 Linear Programming; 1.3.4 Quadratic Programming; 1.3.5 Kuhn-Tucker Conditions and Duality Theory; 1.3.6 K-S Function Method; 1.3.7 Theory of Generalized Geometric Programming; 1.3.8 Higher Order Expansion Under Function Transformations and Monomial Higher Order Condensation Formula; 2 Foundation of the ICM (independent, continuous and mapping) method; 2.1 Difficulties in Conventional Topology Optimization and Solution. |
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2.2 Step Function and Hurdle Function-Bridge of Constructing Relationship Between Discrete Topology Variables and Element P ... 2.3 Fundamental Breakthrough-Polish Function Approaching to Step Function and Filter Function Approaching to Hurdle Function; 2.3.1 Polish Function; 2.3.2 Filter Function; 2.3.3 Filter Function Makes Solution of Topology Optimization Operable; 2.3.4 Relationship of Four Functions; 2.4 ICM Method and Its Application; 2.4.1 Whole Process of Identification Quantity of Element and Its Mapping Identification; 2.4.2 Several Typical Polish Functions and Filter Functions. |
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2.4.3 Identification Speed of Different Functions and Determination of Their Parameters2.4.3.1 Criteria method; 2.4.3.2 Trial and error method; 2.4.3.3 Constructing method; 2.4.4 Transformation From the Parameter of the Power Function to the Parameter of the Logarithmic Function for the Filter F ... ; 2.4.5 Establishment of the Structural Topology Optimization Model Based on the ICM Method; 2.4.6 Inversion of Mapping; 2.5 Exploration of Performance of Polish Function and Filter Function; 2.5.1 Classification of Polish Functions and Filter Functions; 2.5.2 Type Judgment Theorem. |
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2.5.3 Theorem of Corresponding Relations of Polish Functions and Filter Functions2.6 Exploration of Filter Function With High Precision; 2.6.1 Application Criterion of Filter Function With High Precision; 2.6.2 Method on Constructing Fast Filter Function by Left Polish Function With High Precision; 2.6.3 Selection of Parameter for Exponent Type of Fast Filter Function; 2.7 Breakthrough on Basic Conceptions in ICM Method; 3 Stress-constrained topology optimization for continuum structures; 3.1 ICM Method With Zero-Order Approximation Stresses and Solution of Model. |
Note |
3.1.1 Topology Optimization Model With Zero-Order Approximation Stress Constraints for Continuum Structures. |
Bibliography |
Includes bibliographical references and index. |
Subject |
Structural analysis (Engineering) -- Mathematical models.
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Mathematical optimization.
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Continuum mechanics.
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Théorie des constructions -- Modèles mathématiques.
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Optimisation mathématique.
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Mécanique des milieux continus.
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TECHNOLOGY & ENGINEERING -- Civil -- General.
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Continuum mechanics
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Mathematical optimization
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Structural analysis (Engineering) -- Mathematical models
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Added Author |
Peng, Xirong.
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Other Form: |
Print version: Sui, Yunkang. Modeling, Solving and Application for Topology Optimization of Continuum Structures: ICM Method Based on Step Function. Saint Louis : Elsevier Science, ©2017 9780128126554 |
ISBN |
9780128126561 |
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0128126566 |
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9780128126554 |
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0128126558 |
Standard No. |
AU@ 000061156341 |
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AU@ 000061341358 |
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CHNEW 001014513 |
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GBVCP 897847164 |
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AU@ 000063805769 |
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