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ویرایش:
نویسندگان: Barzin Mobasher
سری:
ISBN (شابک) : 9781439806609, 1439806608
ناشر: CRC Press
سال نشر: 2012
تعداد صفحات: 465
زبان: English
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود)
حجم فایل: 25 مگابایت
در صورت تبدیل فایل کتاب Mechanics of fiber and textile reinforced cement composites به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.
توجه داشته باشید کتاب مکانیک کامپوزیت های سیمان تقویت شده با الیاف و نساجی نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
Content: Cement-Based Composites-A Case for Sustainable
Construction Cement and Concrete Production Current Trends
Structure of This Book Historical Aspects of Conventional
Fiber-Reinforced Concrete Systems Prehistoric Developments
Asbestos Cement Hatscheck Process Ferrocement Cement Composites
in Modular and Panelized Construction Systems Glass Fiber
Reinforced Concrete Cellulose Fibers Continuous Fiber Systems
Thin Section Composites Using Textiles Ductile Cement Composite
Systems Mechanics of Toughening Macro-Defect-Free Cements
Ductile Composites with High-Volume Fiber Contents Extrusion
Compression Molding Spin Casting Mixing High-Volume Fraction
Composites Composites Using Continuous Fibers and Textiles
Matrix Phase Modifications Calcium Hydroxide Reduction Rheology
Hybrid Short Fiber Reinforcement Hybrid Reinforcement: Woven
Mesh and Discrete Fibers Conclusions Textile Reinforcement in
Composite Materials Terminology and Classifications Systems AR
Glass Fibers Kevlar Carbon Filaments and Yarns Textile
Reinforced Composites Scrims Stitch-Bonded Fabrics Leno Weave
Technique Analysis of Woven Textile Composites Composite Moduli
in Textile Reinforcements Modeling of Textile Composites at the
Representative Volume Level Mechanical Strength and Damage
Accumulation Single Yarns in Woven Textiles: Characterization
of Geometry and Length Effects Kevlar Fabric Single Yarn
Tensile Tests Weibull Analysis Introduction to Mechanics of
Composite Materials Volume Fraction Composite Density Nature of
Load Sharing and Load Transfer Computation of Transverse
Stiffness Strength of a Lamina Case Study 1: Matrix Fails
First, IEmu Governs Case Study 2: Four Stages of Cracking
Laminated Composites Stiffness of an Off-Axis Ply Ply Discount
Method Failure Criteria Mechanical Testing and Characteristic
Responses Concepts of Closed-Loop Testing Components and
Parameters of CLC Actuators and Servomechanism Servohydraulic
Testing Machines Compression Test Uniaxial Tension Test Flexure
Test Fracture Tests Cyclic Test Compliance-Based Approach
Mechanical Performance-Test Methods for Measurement of
Toughness of FRC Round Panel Tests Fatigue Tests Impact
Resistance Restrained Shrinkage Aging and Weathering Fiber
Pullout and Interfacial Characterization Significance of
Interfacial Modeling Analytical Derivation for Fiber Pullout
Fiber and Textile Composites Algorithm for Pullout Simulation
Single-Fiber Pullout Experiments Textile Pullout Tests Energy
Dissipation during Pullout Finite Element Simulation
Fracture-Based Approach Strain Energy Release Rate Modeling of
the Transverse Yarn Anchorage Mechanism Finite Difference
Approach for the Anchorage Model Characterization of
Interfacial Aging Theoretical Modeling of Interfacial Aging
Conclusions Fracture Process in Quasi-Brittle Materials Linear
Elastic Fracture Mechanics Stress Intensity Factor and Fracture
Toughness Fracture Process Zone Equivalent Elastic Cracks
Cohesive Crack Models Closing Pressure Formulations R-Curve
Approach Derivation of R-Curves Alternative Forms of R-Curves
Stress-Crack Width Relationship Termination of Stable Crack
Growth Range Toughening under Steady-State Condition Discrete
Fiber Approach Using Fiber Pullout for Toughening Comparison
with Experimental Results Simulation of Glass Fiber Concrete
Compliance-Based Approach Tensile Response of Continuous and
Cross-Ply Composites Specimen Preparation (0/90) Composite
Laminates (+45) Composite Laminates Compression Response PP
Fiber Laminates Flexural Response Microstructural Damage and
Toughness Inelastic Analysis of Cement Composites Using
Laminate Theory Stiffness of a Lamina Stiffness of a Ply along
Material Direction Ply Discount Method Damage-Based Modeling
Using a Nonlinear-Incremental Approach Failure Criteria for
Lamina Generalized Load Displacement for the Composite Response
Performance of Model: Simulation of Tensile Load Simulation of
Flexural Results Tensile and Flexural Properties of Hybrid
Cement Composites Manufacturing Techniques and Materials
Experimental Program Specimen Preparation Conclusion
Correlation of Distributed Damage with Stiffness Degradation
Mechanisms Role of Microcracking Cement Composites in Tension
Tensile Response of Textile Reinforced Cement Composites Crack
Spacing Measurement Imaging Procedures for Measurement of Crack
Spacing Effect of Fabric Type Effect of Mineral Admixtures
Effect of Accelerated Aging Rheology and Microstructure Effect
of Curing Effects of Pressure Microcrack-Textile Interaction
Mechanisms Conclusions Flexural Model for Strain-Softening and
Strain-Hardening Composites Correlation of Tensile and Flexural
Strength from Weibull Statistics Perspective Derivation of
Closed-Form Solutions for Moment-Curvature Diagram Simplified
Expressions for Moment-Curvature Relations Crack Localization
Rules Algorithm to Predict Load-Deflection Response of the
Four-Point Bending Test Parametric Study of Material Parameters
Prediction of Load-Deformation Response Conclusions
Nomenclature Back-Calculation Procedures of Material Properties
from Flexural Tests Data Reduction by the ARS Method and Rilem
Test Method AR Glass Fiber Concrete Comparison with the Rilem
Approach Conclusion Modeling of Fiber Reinforced Materials
Using Finite Element Method Model Concrete Structure with
ABAQUS Inverse Analysis of FRC Finite Element Simulation of
Round Panel Test Moment-Curvature Relationship for Rigid Crack
Model Modeling of Round Panel Test with Rigid Crack Model
Summary Flexural Design of Strain-Softening Fiber Reinforced
Concrete Moment-Curvature Response Bilinear Moment-Curvature
Diagram Allowable Tensile Strain Deflection Calculation for
Serviceability Minimum Postcrack Tensile Strength for Shrinkage
and Temperature Design Examples Conclusions Fiber Reinforced
Aerated Concrete AFRC Production Density and Compressive
Strength Relationship Flexural Response Pore Structure Sisal
Fiber Reinforced Composites Sisal Fiber Composites
Stress-Strain Behavior and Cracking Mechanisms Fatigue Fiber
Matrix Pullout Behavior Restrained Shrinkage Cracking Review of
Drying Shrinkage Testing Methods Effect of Creep in Restrained
Shrinkage Cracking Age-Dependent Concrete Strength Equilibrium
and Compatibility Conditions Stress-Strain Development
Conclusions Flexural Impact Test Experimental Program Effect of
Drop Height Discussions Textile Composites for Repair and
Retrofit Comparison of FRP Systems with Textile Reinforced
Concrete Experimental Program Materials Tests Structural Tests
Structural Tests of Masonry Walls Conclusions Retrofit of
Reinforced Concrete Beam-Column Joints Using Textile Cement
Composites Experimental Program Experimental Results
Conclusions Dynamic Tensile Characteristics of Textile Cement
Composites Dynamic Tensile Testing Dynamic Testing of Cement
Composites Experimental Methodology Results and Discussions
Conclusions Index Chapters include an introduction and
references.
Cement-Based Composites-A Case for Sustainable Construction. Historical Aspects of Conventional Fiber-Reinforced Concrete Systems. Ductile Cement Composite Systems. Textile Reinforcement in Composite Materials. Single Yarns in Woven Textiles: Characterization of Geometry and Length Effects. Introduction to Mechanics of Composite Materials. Mechanical Testing and Characteristic Responses. Fiber Pullout and Interfacial Characterization. Fracture Process in Quasi-Brittle Materials. Tensile Response of Continuous and Cross-Ply Composites. Inelastic Analysis of Cement Composites Using Laminate Theory. Tensile and Flexural Properties of Hybrid Cement Composites. Correlation of Distributed Damage with Stiffness Degradation Mechanisms. Flexural Model for Strain-Softening and Strain-Hardening Composites. Back-Calculation Procedures of Material Properties from Flexural Tests. Modeling of Fiber Reinforced Materials Using Finite Element Method. Flexural Design of Strain-Softening Fiber Reinforced Concrete. Fiber Reinforced Aerated Concrete. Sisal Fiber Reinforced Composites. Restrained Shrinkage Cracking. Flexural Impact Test. Textile Composites for Repair and Retrofit. Retrofit of Reinforced Concrete Beam-Column Joints Using Textile Cement Composites. Dynamic Tensile Characteristics of Textile Cement Composites. Index.