Engineering Mechanics and Design Applications

  • Producent: Taylor
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Opis: Engineering Mechanics and Design Applications - Atila Ertas

In the last decade, the number of complex problems facing engineers has increased, and the technical knowledge required to address and mitigate them continues to evolve rapidly. These problems include not only the design of engineering systems with numerous components and subsystems, but also the design, redesign, and interaction of social, political, managerial, commercial, biological, medical, and other systems. These systems are likely to be dynamic and adaptive in nature. Finding creative solutions to such large-scale, unstructured problems requires activities that cut across traditional disciplinary boundaries. Engineering Mechanics and Design Applications: Transdisciplinary Engineering Fundamentals presents basic engineering mechanics concepts in the context of the engineering design process. It provides non-mechanical engineers with the knowledge needed to understand the mechanical aspects of a project, making it easier to collaborate in transdisciplinary teams. Combining statics, dynamics, vibrations, and strength of materials in one volume, the book offers a practical reference for engineering design. It begins with an overview of Prevention through Design (PtD), providing a broad understanding of occupational safety and health needs in the design process. It then presents condensed introductions to engineering statics, engineering dynamics, and solid mechanics as well as failure theories and dynamic loadings. Examples of real-life design analysis and applications demonstrate how transdisciplinary engineering knowledge can be applied in practice. A concise introduction to mechanics and design, the book is suitable for nonengineering students who need to understand the fundamentals of engineering mechanics, as well as for engineering students preparing for the Fundamentals of Engineering exam. Professional engineers, researchers, and scientists in non-mechanical engineering disciplines, particularly those collaboratively working on large-scale engineering projects, will also find this a valuable resource.Prevention through Design: A Transdisciplinary Process Introduction Transdisciplinarity and PtD Discipline Defining Transdisciplinarity Multidisciplinary, Interdisciplinary, and Transdisciplinary Case Studies Why Prevention through Design Is a Transdisciplinary Process? PtD Considerations for the Design Process Prevention through Design PtD Program Mission PtD Process Stakeholder Input Strategic Goal Areas The Business Value of PtD Case Studies Case Study 1 Case Study 2 Case Study 3 Case Study 4 PtD and Sustainability Transdisciplinary Sustainable Development Contaminated Environment Making "Green Jobs" Safe: Integrating Occupational Safety and Health into Green Jobs and Sustainability Going Green during Construction Conclusion References Static Introduction Fundamental Concepts Weight and Mass Rigid Body Force Force as a Vector Definition Trigonometric Solution Force Components in Space Force Vector Defined by Its Magnitude and Two Points on Its Line of Action Moments Free-Body Diagram Equilibrium of a Particle Equilibrium of a Rigid Body Equilibrium of a Two-Force Member Equilibrium of a Three-Force Member Equilibrium of a Pulley System Moment of a Force About a Given Axis Moment of a Couple Structures in Three Dimensions Trusses Method of Joint Method of Section Machines and Frames Friction Coefficient of Friction Angles of Static and Kinetic Friction Properties of Plane Areas Parallel Axis Theorem for Areas Radius of Gyration of Area Moment of Inertia of Composite Areas Bibliography Dynamics Introduction Kinematics of a Rigid Body Translation Fixed-Axis Rotation General Plane Motion Absolute and Relative Velocity in Plane Motion Instantaneous Center of Zero Velocity (IC) Absolute and Relative Acceleration in Plane Motion Kinetics of a Rigid Body Translation Fixed-Axis Rotation General Plane Motion Rolling Problems Planar Kinetic Energy and Work Principle of Work and Energy Conservation of Energy Principle of Linear Impulse and Momentum Principle of Angular Impulse and Momentum Impact Bibliography Solid Mechanics Introduction Stress Analysis Uniform Normal Stress and Strain Uniform Shear Stress and Strain Thermal Stress and Strain Normal Bending Stress in Beams Shear Stress in Beams Stress in Thin-Walled Pressure Vessels Combined Stress Stress-Strain Analysis Plane Stress Stress on an Inclined Plane Mohr's Circle of Stress Principal Stresses in Three Dimensions Strain Measurement and Stress Calculations Deflection and Stiffness of Beams Spring Rates Torsion Lateral Deflections of Beams Buckling of Columns Eccentrically Loaded Column Prestressed Concrete Column References Bibliography Failure Theories and Dynamic Loadings Failure Theories and Safety Factor Maximum Normal Stress Theory Maximum Shear Stress Theory Distortion Energy Theory Fatigue Failure Fatigue Strength Correction Factors Fluctuating Stresses Fatigue Analysis for Brittle Materials Fatigue Analysis for Ductile Materials Cumulative Fatigue Damage Design Analysis Using Fracture Mechanics Stress State in a Crack (Mode I) Elliptical Crack in an Infinite Plate Critical Crack Length Leak-before-Break Fatigue Crack Propagation Vibrations in Design Knowledge of Vibrations and Design Engineers Terminology in the Field of Vibration Natural Frequency of Spring-Mass System Dynamic Displacements and Stresses Forced Vibration of a Single-Degree-of-Freedom Linear System Response of a Single-Degree-of-Freedom System under Random Excitation Number of Zero Crossing References Bibliography Design Analysis and Applications Introduction Design Analysis and Application I Pipeline System Design Related Design Problem Design Analysis and Application II Offshore Drilling Related Design Problem References Appendices Index


Szczegóły: Engineering Mechanics and Design Applications - Atila Ertas

Tytuł: Engineering Mechanics and Design Applications
Autor: Atila Ertas
Producent: Taylor
ISBN: 9781439849309
Rok produkcji: 2011
Ilość stron: 343
Oprawa: Twarda
Waga: 0.61 kg


Recenzje: Engineering Mechanics and Design Applications - Atila Ertas

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Engineering Mechanics and Design Applications

  • Producent: Taylor
  • Oprawa: Twarda

In the last decade, the number of complex problems facing engineers has increased, and the technical knowledge required to address and mitigate them continues to evolve rapidly. These problems include not only the design of engineering systems with numerous components and subsystems, but also the design, redesign, and interaction of social, political, managerial, commercial, biological, medical, and other systems. These systems are likely to be dynamic and adaptive in nature. Finding creative solutions to such large-scale, unstructured problems requires activities that cut across traditional disciplinary boundaries. Engineering Mechanics and Design Applications: Transdisciplinary Engineering Fundamentals presents basic engineering mechanics concepts in the context of the engineering design process. It provides non-mechanical engineers with the knowledge needed to understand the mechanical aspects of a project, making it easier to collaborate in transdisciplinary teams. Combining statics, dynamics, vibrations, and strength of materials in one volume, the book offers a practical reference for engineering design. It begins with an overview of Prevention through Design (PtD), providing a broad understanding of occupational safety and health needs in the design process. It then presents condensed introductions to engineering statics, engineering dynamics, and solid mechanics as well as failure theories and dynamic loadings. Examples of real-life design analysis and applications demonstrate how transdisciplinary engineering knowledge can be applied in practice. A concise introduction to mechanics and design, the book is suitable for nonengineering students who need to understand the fundamentals of engineering mechanics, as well as for engineering students preparing for the Fundamentals of Engineering exam. Professional engineers, researchers, and scientists in non-mechanical engineering disciplines, particularly those collaboratively working on large-scale engineering projects, will also find this a valuable resource.Prevention through Design: A Transdisciplinary Process Introduction Transdisciplinarity and PtD Discipline Defining Transdisciplinarity Multidisciplinary, Interdisciplinary, and Transdisciplinary Case Studies Why Prevention through Design Is a Transdisciplinary Process? PtD Considerations for the Design Process Prevention through Design PtD Program Mission PtD Process Stakeholder Input Strategic Goal Areas The Business Value of PtD Case Studies Case Study 1 Case Study 2 Case Study 3 Case Study 4 PtD and Sustainability Transdisciplinary Sustainable Development Contaminated Environment Making "Green Jobs" Safe: Integrating Occupational Safety and Health into Green Jobs and Sustainability Going Green during Construction Conclusion References Static Introduction Fundamental Concepts Weight and Mass Rigid Body Force Force as a Vector Definition Trigonometric Solution Force Components in Space Force Vector Defined by Its Magnitude and Two Points on Its Line of Action Moments Free-Body Diagram Equilibrium of a Particle Equilibrium of a Rigid Body Equilibrium of a Two-Force Member Equilibrium of a Three-Force Member Equilibrium of a Pulley System Moment of a Force About a Given Axis Moment of a Couple Structures in Three Dimensions Trusses Method of Joint Method of Section Machines and Frames Friction Coefficient of Friction Angles of Static and Kinetic Friction Properties of Plane Areas Parallel Axis Theorem for Areas Radius of Gyration of Area Moment of Inertia of Composite Areas Bibliography Dynamics Introduction Kinematics of a Rigid Body Translation Fixed-Axis Rotation General Plane Motion Absolute and Relative Velocity in Plane Motion Instantaneous Center of Zero Velocity (IC) Absolute and Relative Acceleration in Plane Motion Kinetics of a Rigid Body Translation Fixed-Axis Rotation General Plane Motion Rolling Problems Planar Kinetic Energy and Work Principle of Work and Energy Conservation of Energy Principle of Linear Impulse and Momentum Principle of Angular Impulse and Momentum Impact Bibliography Solid Mechanics Introduction Stress Analysis Uniform Normal Stress and Strain Uniform Shear Stress and Strain Thermal Stress and Strain Normal Bending Stress in Beams Shear Stress in Beams Stress in Thin-Walled Pressure Vessels Combined Stress Stress-Strain Analysis Plane Stress Stress on an Inclined Plane Mohr's Circle of Stress Principal Stresses in Three Dimensions Strain Measurement and Stress Calculations Deflection and Stiffness of Beams Spring Rates Torsion Lateral Deflections of Beams Buckling of Columns Eccentrically Loaded Column Prestressed Concrete Column References Bibliography Failure Theories and Dynamic Loadings Failure Theories and Safety Factor Maximum Normal Stress Theory Maximum Shear Stress Theory Distortion Energy Theory Fatigue Failure Fatigue Strength Correction Factors Fluctuating Stresses Fatigue Analysis for Brittle Materials Fatigue Analysis for Ductile Materials Cumulative Fatigue Damage Design Analysis Using Fracture Mechanics Stress State in a Crack (Mode I) Elliptical Crack in an Infinite Plate Critical Crack Length Leak-before-Break Fatigue Crack Propagation Vibrations in Design Knowledge of Vibrations and Design Engineers Terminology in the Field of Vibration Natural Frequency of Spring-Mass System Dynamic Displacements and Stresses Forced Vibration of a Single-Degree-of-Freedom Linear System Response of a Single-Degree-of-Freedom System under Random Excitation Number of Zero Crossing References Bibliography Design Analysis and Applications Introduction Design Analysis and Application I Pipeline System Design Related Design Problem Design Analysis and Application II Offshore Drilling Related Design Problem References Appendices Index

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Cena 280,40 PLN
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Szczegóły: Engineering Mechanics and Design Applications - Atila Ertas

Tytuł: Engineering Mechanics and Design Applications
Autor: Atila Ertas
Producent: Taylor
ISBN: 9781439849309
Rok produkcji: 2011
Ilość stron: 343
Oprawa: Twarda
Waga: 0.61 kg


Recenzje: Engineering Mechanics and Design Applications - Atila Ertas

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