Arama Sonuçları - (structural OR structure) integrity,

Structure, deformation, and integrity of materials / Yazar: With, Gijsbertus de

Advances in Structural Integrity Proceedings of SICE 2016 /

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The Structural Integrity of Carbon Fiber Composites Fifty Years of Progress and Achievement of the Science, Development, and Applications /

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Structure-preserving Integrators in Nonlinear Structural Dynamics and Flexible Multibody Dynamics

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Structural Stability and Vibration An Integrated Introduction by Analytical and Numerical Methods / Yazar: Wiggers, Sine Leergaard, Pedersen, Pauli

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Structure and Function of GPCRs

İçindekiler: “…Structures of Non-rhodopsin GPCRs Elucidated Through X-Ray Crystallography -- NMR Spectroscopy for the Characterization of GPCR Energy Landscapes -- Structure and Activation Mechanism of GPCRs -- Structure-Based Discovery of GPCR Ligands from Crystal Structures and Homology Models -- Integration on Ligand and Structure Based Approaches in GPCRs -- Biased Agonist Pharmacochaperones: Small Molecules in the Toolbox for Selectively Modulating GPCR Activity -- Endosomal PTH Receptor Signaling Through cAMP and Its Consequence for Human Medicine -- Structure and Function Studies of GPCRs by Site-Specific Incorporation of Unnatural Amino Acids -- Fluorescent-Based Strategies to Investigate G Protein-Coupled Receptors: Evolution of the Techniques to a Better Understanding -- Modulation of Metabotropic Glutamate Receptors by Orthosteric, Allosteric, and Light-Operated Ligands. .…”
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Fundamentals of Structural Engineering Yazar: Connor, Jerome J., Faraji, Susan

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Resilient Structures and Infrastructure

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An Introduction to Structural Mechanics for Architects Yazar: Cueto, Elías, González, David

“…Structural Integrity,…”
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Péter R. Surján A Festschrift from Theoretical Chemistry Accounts /

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Offshore Platform Integration and Floatover Technology Yazar: Liu, Gengshen, Li, Huajun

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Computational fluid-structure interaction : methods and applications / Yazar: Bazilevs, Yuri

İçindekiler: “…Computational Fluid-Structure Interaction; Contents; Series Preface; Preface; Acknowledgements; Chapter 1 Governing Equations of Fluid and Structural Mechanics; 1.1 Governing Equations of Fluid Mechanics; 1.1.1 Strong Form of the Navier -- Stokes Equations of Incompressible Flows; 1.1.2 Model Differential Equations; 1.1.3 Nondimensional Equations and Numbers; 1.1.4 Some Specific Boundary Conditions; 1.1.5 Weak Form of the Navier -- Stokes Equations; 1.2 Governing Equations of Structural Mechanics; 1.2.1 Kinematics.…”
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An Isogeometric Approach to Beam Structures Bridging the Classical to Modern Technique / Yazar: Gan, Buntara S.

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Vibration Control of Active Structures An Introduction / Yazar: Preumont, André

İçindekiler: “….-   1.3 Smart materials and structures.-   1.4 Control strategies.-   1.4.1 Feedback.-   1.4.2 Feedforward.-   1.5 The various steps of the design.-   1.6 Plant description, error and control budget.-   1.7 Readership and Organization of the book.-   1.8 References.-   1.9 Problems.-   2 Some concepts in structural dynamics.-  2.1 Introduction.-   2.2 Equation of motion of a discrete system.-   2.3 Vibration modes.-   2.4 Modal decomposition.-   2.4.1 Structure without rigid body modes.-   2.4.2 Dynamic °exibility matrix.-   2.4.3 Structure with rigid body modes.-   2.4.4 Example.-  2.5 Collocated control system.-   2.5.1 Transmission zeros and constrained system.-  2.6 Continuous structures.-   2.7 Guyan reduction.-   2.8 Craig-Bampton reduction.-   2.9 References.-   2.10 Problems.-   3 Electromagnetic and piezoelectric transducers.-   3.1 Introduction.-   3.2 Voice coil transducer.-   3.2.1 Proof-mass actuator.-   3.2.2 Geophone.-   3.3 General electromechanical transducer.-   3.3.1 Constitutive equations.-   3.3.2 Self-sensing.-   3.4 Reaction wheels and gyrostabilizers.-   3.5 Smart materials.-   3.6 Piezoelectric transducer.-   3.6.1 Constitutive relations of a discrete transducer.-   3.6.2 Interpretation of k2.-   3.6.3 Admittance of the piezoelectric transducer.-   3.7 References.-   3.8 Problems.-   4 Piezoelectric beam, plate and truss.-   4.1 Piezoelectric material.-   4.1.1 Constitutive relations.-   4.1.2 Coenergy density function.-   4.2 Hamilton's principle.-   4.3 Piezoelectric beam actuator.-   4.3.1 Hamilton's principle.-   4.3.2 Piezoelectric loads.-   4.4 Laminar sensor.-   4.4.1 Current and charge amplifiers.-   4.4.2 Distributed sensor output.-   4.4.3 Charge amplifier dynamics.-   4.5 Spatial modalfilters.-   4.5.1 Modal actuator.-   4.5.2 Modal sensor.-   4.6 Active beam with collocated actuator-sensor.-   4.6.1 Frequency response function.-   4.6.2 Pole-zero pattern.-   4.6.3 Modal truncation.-   4.7 Admittance of a beam with a piezoelectric patch.-   4.8 Piezoelectric laminate.-   4.8.1 Two dimensional constitutive equations.-   4.8.2 Kirchhoff  theory.-   4.8.3 Stiffness matrix of a multi-layer elastic laminate.-   4.8.4 Multi-layer laminate with a piezoelectric layer.-   4.8.5 Equivalent piezoelectric loads.-   4.8.6 Sensor output.-   4.8.7 Beam model vs. plate model.-   4.8.8 Additional remarks.-   4.9 Active truss.-   4.9.1 Open-loop transfer function.-   4.9.2 Admittance function.-   4.10 Finite element formulation.-   4.11 References.-   4.12 Problems.-   5 Passive damping with piezoelectric transducers.-   5.1 Introduction.-   5.2 Resistive shunting.-   5.3 Inductive shunting.-   5.4 Switched shunt.-   5.4.1 Equivalent damping ratio.-   5.5 References.-   5.6 Problems.-   6 Collocated versus non-collocated control.-   6.1 Introduction.-  6.2 Pole-zero flipping.-   6.3 The two-mass problem.-   6.3.1 Collocated control.-   6.3.2 Non-collocated control.-   6.4 Notch filter.-   6.5 Effect of pole-zero flipping on the Bode plots.-   6.6 Nearly collocated control system.-   6.7 Non-collocated control systems.-   6.8 The role of damping.-   6.9 References --   6.10 Problems ..-   7 Active damping with collocated system.-   7.1 Introduction.-   7.2 Lead control.-   7.3 Direct velocity feedback (DVF).-   7.4 Positive Position Feedback (PPF).-   7.5 Integral Force Feedback(IFF).-   7.6 Duality between the Lead and the IFF controllers.-   7.6.1 Root-locus of a single mode.-   7.6.2 Open-loop poles and zeros.-   7.7 Actuator and sensor dynamics.-   7.8 Decentralized control with collocated pairs.-   7.8.1 Cross talk.-   7.8.2 Force actuator and displacement sensor.-   7.8.3 Displacement actuator and force sensor.-   7.9 References.-   7.10 Problems.-   8 Vibration isolation.-   8.1 Introduction.-   8.2 Relaxation isolator.-  8.2.1 Electromagnetic realization.-   8.3 Active isolation.-  8.3.1 Sky-hook damper.-   8.3.2 Integral Force Feedback.-   8.4 Flexible body.-   8.4.1 Free-free beam with isolator.-   8.5 Payload isolation in spacecraft.-   8.5.1 Interaction isolator/attitude control.-   8.5.2 Gough-Stewart platform.-   8.6 Six-axis isolator.-   8.6.1 Relaxation isolator.-   8.6.2 Integral Force Feedback.-   8.6.3 Spherical joints, modal spread.-   8.7 Active vs. passive.-   8.8 Car suspension.-   8.9 References.-   8.10 Problems.-   9 State space approach.-   9.1 Introduction.-   9.2 State space description.-   9.2.1 Single degree of freedom oscillator.-   9.2.2 Flexible structure.-   9.2.3 Inverted pendulum.-   9.3 System transfer function.-   9.3.1 Poles and zeros.-   9.4 Pole placement by state feedback.-   9.4.1 Example: oscillator.-   9.5 Linear Quadratic Regulator.-   9.5.1 Symmetric root locus.-   9.5.2 Inverted pendulum.-   9.6 Observer design.-   9.7 Kalman Filter.-   9.7.1 Inverted pendulum.-   9.8 Reduced order observer.-   9.8.1 Oscillator.-   9.8.2 Inverted pendulum.-   9.9 Separation principle.-   9.10 Transfer function of the compensator.-   9.10.1 The two-mass problem.-   9.11 References.-   9.12 Problems.-   10 Analysis and synthesis in the frequency domain.-   10.1 Gain and phase margins.-  10.2 Nyquist criterion.-   10.2.1 Cauchy's principle.-   10.2.2 Nyquist stability criterion.-  10.3 Nichols chart.-   10.4 Feedback specification for SISO systems.-   10.4.1 Sensitivity.-   10.4.2 Tracking error.-   10.4.3 Performance specification.-   10.4.4 Unstructured uncertainty.-   10.4.5 Robust performance and robust stability.-  10.5 Bode gain-phase relationships.-  10.6 The Bode Ideal Cutoff.-  10.7 Non-minimum phase systems.-   10.8 Usual compensators.-   10.8.1 System type.-   10.8.2 Lead compensator.-   10.8.3 PI compensator.-   10.8.4 Lag compensator.-   10.8.5 PID compensator.-   10.9 Multivariable systems.-   10.9.1 Performance specification.-   10.9.2 Small gaintheorem.-   10.9.3 Stability robustness tests.-   10.9.4 Residual dynamics.-   10.10References.-   10.11Problems.-   11 Optimal control.-   11.1 Introduction.-   11.2 Quadratic integral.-   11.3 Deterministic LQR.-   11.4 Stochastic response to a white noise.-   11.4.1 Remark.-   11.5 Stochastic LQR.-   11.6 Asymptotic behavior of the closed-loop.-   11.7 Prescribed degree of stability --   11.8 Gain and phase margins of the LQR.-   11.9 Full state observer.-   11.9.1 Covariance of the reconstruction error.-   11.10Kalman-Bucy Filter (KBF).-   11.11Linear Quadratic Gaussian (LQG).-  11.12Duality.-   11.13Spillover.-   11.13.1Spillover reduction.-   11.14Loop Transfer Recovery (LTR).-   11.15Integral control with state feedback.-   11.16Frequency shaping.-   11.16.1Frequency-shaped cost functionals.-   11.16.2Noise model ..-   11.17References.-   11.18Problems.-   12 Controllability and Observability.-   12.1 Introduction.-  12.1.1 Definitions.-   12.2 Controllability and observabilitymatrices.-   12.3 Examples.-   12.3.1 Cart with two inverted pendulums.-   12.3.2 Double inverted pendulum.-   12.3.3 Two d.o.f.…”
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Hierarchically structured porous materials : from nanoscience to catalysis, separation, optics, energy, and life science / Yazar: Su, Bao-Lian

İçindekiler: “…Hierarchically Structured Porous Materials by Dually Micellar Templating Approach / Ozlem Sel, Bernd M Smarsly -- Colloidal Crystal Templating Approaches to Materials with Hierarchical Porosity / Nicholas D Petkovich, Andreas Stein -- Templating of Macroporous or Swollen Macrostructured Polymers / Maryline Chee Kimling, Rachel A Caruso -- Bioinspired Approach to Synthesizing Hierarchical Porous Materials / Tian-Yi Ma, Zhong-Yong Yuan -- Porous Materials by Templating of Small Liquid Drops / Haifei Zhang -- Hierarchically Porous Materials by Phase Separation: Monoliths / Kazuki Nakanishi -- Feature Synthesis of Hierarchically Porous Materials Based on Green Easy-Leaching Concept / Ge Tian, Li-Hua Chen, Xiao-Yu Yang, Bao-Lian Su -- Integrative Chemistry Routes toward Advanced Functional Hierarchical Foams / Herv̌ Deleuze, Řnal Backov -- Hierarchically Structured Porous Coatings and Membranes / Cedric Boissiere, Eric Prouzet, David Grosso, Cľment Sanchez -- Self-Formation Phenomenon to Hierarchically Structured Porous Materials / Xiao-Yu Yang, Ge Tian, Li-Hua Chen, Bao-Lian Su -- Auto-Generated Hierarchical Meso₆Macroporous Aluminosilicate Materials with High Tetrahedral Al Content from the Single-Molecular Alkoxy-Precursor (SMAP) Strategy / Arnaud Lemaire, Bao-Lian Su -- Zeolites with Hierarchically Porous Structure: Mesoporous Zeolites / Feng-Shou Xiao, Xiangju Meng -- Micro-Macroporous Structured Zeolite / Ya-Hong Zhang, Li-Hua Chen, Yi Tang, Xiao-Yu Yang, Bao-Lian Su -- Emerging Applications of Hierarchically Structured Porous Materials. …”
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Structural Mechanics of Anti-Sandwiches An Introduction / Yazar: Aßmus, Marcus

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Bionic Optimization in Structural Design Stochastically Based Methods to Improve the Performance of Parts and Assemblies /

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Entities and Structures in the Embedding Process A Sociological Analysis of Changes in the Government-enterprise Relations / Yazar: Wei, Qingong, Li, Hanlin

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Stochastic Optimal Control of Structures Yazar: Peng, Yongbo, Li, Jie

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Temporary Camps, Enduring Segregation The Contentious Politics of Roma and Migrant Housing / Yazar: Maestri, Gaja

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