Mechanical engineer's handbook

The Mechanical Engineer's Handbook was developed and written specifically to fill a need for mechanical engineers and mechanical engineering students throughout the world. With over 1000 pages, 550 illustrations, and 26 tables the Mechanical Engineer's Handbook is very comprehensive, yet a...

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Bibliographic Details
Other Authors Marghitu, Dan B.
Format Electronic eBook
LanguageEnglish
Published San Diego, California (U.S.A.) : Academic Press, 2001.
SeriesAcademic Press series in engineering.
Subjects
Mechanical engineering > Handbooks, manuals, etc.
elektronické knihy
electronic books
Online AccessFull text
ISBN9780080511368
0080511368
0126192618
9780126192612
9786612284809 (ebook)
1282284800
9781282284807
9780124713703
012471370X
Physical Description1 online resource (xv, 864 pages) : illustrations

Cover

Table of Contents:
  • Preface
  • Contributors
  • 1. Statics
  • Vector Algebra
  • Centroids and Surface Properties
  • Moments and Couples
  • Equilibrium
  • Dry Friction
  • 2. Dynamics
  • Fundamentals
  • Kinematics of a Point
  • Dynamics of a Particle
  • Planar Kinematics of a Rigid Body
  • Dynamics of a Rigid Body
  • 3. Mechanics of Materials
  • Stress
  • Deflection and Stiffness
  • Fatigue
  • 4. Theory of Mechanisms
  • Fundamentals
  • Position Analysis
  • Velocity and Acceleration Analysis
  • Kinetostatics
  • 5. Machine Components
  • Screws
  • Gears
  • Springs
  • Rolling Bearings
  • Lubrication and Sliding Bearings
  • 6. Theory of Vibration
  • Introduction
  • Linear Systems with One Degree of Freedom
  • Linear Systems with Finite Numbers of Degrees of Freedom
  • Machine-Tool Vibrations
  • 7. Principles of Heat Transfer
  • Heat Transfer Thermodynamics
  • Conduction Heat Transfer
  • Convection Heat Transfer
  • 8. Fluid Dynamics
  • Fluids Fundamentals
  • Hydraulics
  • 9. Control
  • Introduction
  • Signals
  • Transfer Functions
  • Connection of Elements
  • Poles and Zeros
  • Steady-State Error
  • Time-Domain Performance
  • Frequency-Domain Performances
  • Stability of Linear Feedback Systems
  • Design of Closed-Loop Control Systems by Pole-Zero Methods
  • Design of Closed-Loop Control Systems by Frequential Methods
  • State Variable Models
  • Nonlinear Systems
  • Nonlinear Controllers by Feedback Linearization
  • Sliding Control
  • Appendix:
  • Differential Equations and Systems of Differential
  • Equations
  • Index.
  • Statics
  • Dynamics
  • Mechanics of materials
  • Theory of mechanisms
  • Machine components
  • Theory of vibration
  • Principles of heat transfer
  • Fluid dynamics
  • Control
  • Differential equations and systems of differential equations.

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