Articoli correlati a Stability and Optimization of Flexible Space Structures
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The aim of this book is to present up-to-date methodologies in the analysis and optimization of the elastic stability of lightweight statically determinate, and in- determinate, space structures made of flexible members which are highly stiff when loaded centrally at the nodes. These are flat and curved space pin- connected open or enveloped lattices and reticulated shells which, due to their high loadbearing capacity to weight ratios, are gaining in importance in aerospace and other fields. They are utilized, for example, in space stations, as support structures for large radio-telescopes and for other equipment on earth and in outer space, as roof structures for the coverage and enclosure of large areas on earth and as underwater shell-type structures enveloped by a cover-shell capable of withstanding high hydrostatic pressures. • Space structures of this type are generally subjected to considerable internal axial loads in the flexible members and they fail through the loss of global statical stability, usually precipitated by the intrinsic small imperfections at finite near-critical elastic deformations - and not primarily by the the break-down of the material of which they are made, as is the case in conventional systems. Thus, the criterion in the design of such structures calls for eliminating or isolating the onset of the elastic dynamic collapse thereby increasing their safe stability limit. • Standard finite element methods, as they are employed by most users today, are totally inadequate for such analyses since they do not account for the choice of the branching paths in the loading process of the structure nor for the existence of the relevant collapse modes. • These aspects are novel and they are presented here for the first time in comprehensive book form.
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Contenuti
1 The Post-Buckling Analysis of Pin-Connected Slender Prismatic Members.- 1.1 The Post-Buckling Behavior of Single Pin-Ended Elastic Members—General Law of Pin-Jointed Members.- 1.2 Elastic Buckling of Pin-Jointed Plane Isostatic Trusses Composed of Flexible Bars.- 1.3 Thermal Buckling of Axially Constrained Compressive Pin-Jointed Slender Members.- 1.4 Thermal Post-Buckling of Flexible Elastic Members in Statically Indeterminate Pin-Jointed Lattices—An Illustration of the Basic Theory.- 2 The Post-Buckling Equilibrium of Isostatic Hinge-Connected Space Structures Composed of Slender Members.- 2.1 General Force-Displacement Equilibrium Paths for Perfect Members.- 2.2 Geometrical Compatibility Conditions in Space.- 2.3 Initial Kinematic Relations.- 2.4 Kinematic Relations in Post-Buckling.- 2.5 Initial Equilibrium States.- 2.6 Unsupported Structures—Initial Kinematic and Equilibrium Conditions.- 2.7 Equilibrium in Post-Buckling.- 2.8 Alternative Derivation of the Post-Buckling Equilibrium Equations.- 2.9 Alternative Derivation of the Post-Buckling Equilibrium Equations—Matrix Formulation of the General Law.- 2.10 Alternative Derivation of the Post-Buckling Equilibrium Equations—Matrix Formulation of the Equilibrium Equations on the Distorted Geometry.- 2.11 The Post-Buckling Equilibrium States.- 2.12 Reduction of the General Equilibrium Equations and Their Solution.- 2.13 Some Applications of the Theory to Simple Space Structures Made of Flexible Elastic Members.- CASE A.- CASE B.- CASE C.- CASE D.- 2.14 Influence of Initial Imperfections on the Post-Buckling Equilibrium Paths of Pin-Connected Lattices Composed of Flexible Members.- Perfect Systems as a Special Case.- Imperfect or Perturbed Systems.- 2.15 Stability Analysis of Equilibrium States.- 2.16 Some Applications of the Stability Theory to Practical Space Lattices and Structures.- CASE E1.- CASE E2.- CASE F1.- CASE F2.- 3 Static and Dynamic Buckling of Complex Hyperstatic Pin-Connected Elastic Systems.- 3.1 Introduction—Post-Buckling of Hyperstatic Lattices.- 3.2 Initial Equilibrium Equations—Kinematic Admissibility Conditions at the Ultimate Critical State.- 3.3 Simplified Kinematic Admissibility Conditions for the Buckled Hyperstatic Lattice.- 3.4 Matrix Formulation of the General Law for Prismatic Pin-Jointed Members in a Hyperstatic Lattice.- 3.5 Matrix Formulation of the General Post-Buckling Equilibrium Equations for Hyperstatic Pin-Jointed Lattices.- 3.6 Reduction of the General Equilibrium Equations of the Hyperstatic Lattice and Their Solution.- Example: Model Reticulated Shell.- 3.7 Direct Evaluation of the Most Degrading Buckling Mode in Equilibrium Using the Total Potential Energy Hypersurfaces.- 3.8 Comparison of the Numerical Results Characterizing the Post-Buckling Equilibrium of Three Model Reticulated Shells for Underwater Applications.- (i) The Unoptimized Model Shell (Model No. 1).- (ii) The First Optimized Model Shell (Model No. 2).- (iii) The Second Optimized Model Shell (Model No. 3).- 3.9 The Most Degrading Post-Buckling Modes for the Three Model Reticulated Shells Intended for Underwater Applications.- 3.10 Minimization Methods in the Direct Evaluation of the Most Degrading Buckling Modes.- 3.11 Numerical Evaluation of the Most Degrading Dynamic and Static Buckling Modes and the Structural Stability Optimization Strategies in Hyperstatic Pin-Jointed Elastic Systems.- Model No. 1.- Model No. 2.- Model No. 3.- Some Optimization Strategies in Hyperstatic Pin-Jointed or Quasi Pin-jointed Elastic Systems.- 3.12 Structural and Material Features of Practical Optimizable Elastic Systems Pin-Jointed by Special Connectors—The BRISHELL Systems.- The Figure Source Index.
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Condizione: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. The aim of this book is to present up-to-date methodologies in the analysis and optimization of the elastic stability of lightweight statically determinate, and in- determinate, space structures made of flexible members which are highly stiff when loaded ce. Codice articolo 4319689
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Taschenbuch. Condizione: Neu. Druck auf Anfrage Neuware - Printed after ordering - The aim of this book is to present up-to-date methodologies in the analysis and optimization of the elastic stability of lightweight statically determinate, and in- determinate, space structures made of flexible members which are highly stiff when loaded centrally at the nodes. These are flat and curved space pin- connected open or enveloped lattices and reticulated shells which, due to their high loadbearing capacity to weight ratios, are gaining in importance in aerospace and other fields. They are utilized, for example, in space stations, as support structures for large radio-telescopes and for other equipment on earth and in outer space, as roof structures for the coverage and enclosure of large areas on earth and as underwater shell-type structures enveloped by a cover-shell capable of withstanding high hydrostatic pressures. - Space structures of this type are generally subjected to considerable internal axial loads in the flexible members and they fail through the loss of global statical stability, usually precipitated by the intrinsic small imperfections at finite near-critical elastic deformations - and not primarily by the the break-down of the material of which they are made, as is the case in conventional systems. Thus, the criterion in the design of such structures calls for eliminating or isolating the onset of the elastic dynamic collapse thereby increasing their safe stability limit. - Standard finite element methods, as they are employed by most users today, are totally inadequate for such analyses since they do not account for the choice of the branching paths in the loading process of the structure nor for the existence of the relevant collapse modes. - These aspects are novel and they are presented here for the first time in comprehensive book form. Codice articolo 9783034898867
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Springer Basel, Birkhäuser Basel Sep 2011, 2011
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Taschenbuch. Condizione: Neu. This item is printed on demand - Print on Demand Titel. Neuware -The aim of this book is to present up-to-date methodologies in the analysis and optimization of the elastic stability of lightweight statically determinate, and in- determinate, space structures made of flexible members which are highly stiff when loaded centrally at the nodes. These are flat and curved space pin- connected open or enveloped lattices and reticulated shells which, due to their high loadbearing capacity to weight ratios, are gaining in importance in aerospace and other fields. They are utilized, for example, in space stations, as support structures for large radio-telescopes and for other equipment on earth and in outer space, as roof structures for the coverage and enclosure of large areas on earth and as underwater shell-type structures enveloped by a cover-shell capable of withstanding high hydrostatic pressures. ¿ Space structures of this type are generally subjected to considerable internal axial loads in the flexible members and they fail through the loss of global statical stability, usually precipitated by the intrinsic small imperfections at finite near-critical elastic deformations - and not primarily by the the break-down of the material of which they are made, as is the case in conventional systems. Thus, the criterion in the design of such structures calls for eliminating or isolating the onset of the elastic dynamic collapse thereby increasing their safe stability limit. ¿ Standard finite element methods, as they are employed by most users today, are totally inadequate for such analyses since they do not account for the choice of the branching paths in the loading process of the structure nor for the existence of the relevant collapse modes. ¿ These aspects are novel and they are presented here for the first time in comprehensive book form.Springer Basel AG in Springer Science + Business Media, Heidelberger Platz 3, 14197 Berlin 316 pp. Englisch. Codice articolo 9783034898867
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