Mechanical Engineers’ Handbook Design Instrumentation and Controls 4th edition by Myer Kutz – Ebook PDF Instant Download/Delivery: 1118112830, 978-1118112830
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Product details:
ISBN 10: 1118112830
ISBN 13: 978-1118112830
Author: Myer Kutz
Full coverage of electronics, MEMS, and instrumentation and control in mechanical engineering
This second volume of Mechanical Engineers’ Handbook covers electronics, MEMS, and instrumentation and control, giving you accessible and in-depth access to the topics you’ll encounter in the discipline: computer-aided design, product design for manufacturing and assembly, design optimization, total quality management in mechanical system design, reliability in the mechanical design process for sustainability, life-cycle design, design for remanufacturing processes, signal processing, data acquisition and display systems, and much more.
The book provides a quick guide to specialized areas you may encounter in your work, giving you access to the basics of each and pointing you toward trusted resources for further reading, if needed. The accessible information inside offers discussions, examples, and analyses of the topics covered, rather than the straight data, formulas, and calculations you’ll find in other handbooks.
Mechanical Engineers’ Handbook Design Instrumentation and Controls 4th Table of contents:
Part 1 Design
Chapter 1 Computer-Aided Design
1 Introduction to CAD
2 Hardware
3 Input and Output Devices
4 CAD Software
5 CAD Standards and Translators
6 Applications of CAD
Bibliography
Chapter 2 Product Design for Manufacturing and Assembly
1 Introduction
2 Design for Manufacturing and Assembly
3 Why Is DFM&A Important?
References
Chapter 3 Design-for-Environment Processes and Tools
1 Introduction
2 Creating a DFE Program
3 Using DFE Tools
4 Examples of DFE Innovations
5 Conclusions
References
Chapter 4 Design Optimization: An Overview
1 Introduction
2 Requirements for the Application of Optimization Methods
3 Applications of Optimization in Engineering
4 Structure of Optimization Problems
5 Overview of Optimization Methods
6 Summary
References
Chapter 5 Total Quality Management in Mechanical System Design
1 Introduction
2 Terms and Definitions
3 TQM in General
4 Three General Approaches to TQM
5 Quality in Design Phase
6 TQM Methods
References
Bibliography
Chapter 6 Reliability in the Mechanical Design Process
1 Introduction
2 Statistical Distributions and Hazard Rate Models
3 Common Reliability Networks
4 Mechanical Failure Modes and Causes of General and Gear Failures
5 Reliability-Based Design and Design-by-Reliability Methodology
6 Design Reliability Allocation and Evaluation Methods
7 Human Error and Reliability Consideration in Mechanical Design
8 Failure Rate Estimation Models for Various Mechanical Items
9 Failure Data and Failure Data Collection Sources
References
Chapter 7 Product Design and Manufacturing Processes for Sustainability
1 Introduction
2 Need for Sustainability Science and Its Applications in Product Design and Manufacture
3 Product Design for Sustainability
4 Processes for Sustainability
5 Case Study
6 Future Directions
References
Chapter 8 Life-Cycle Design
1 Historical Influences on Development of DFLC
2 DFLC Definitions
3 Motivations for DFLC
4 Principles of DFLC
5 Life-Cycle Design Methods
6 Design for Life-Cycle Tools
7 Implementation of DFLC
8 Implementation Examples
9 Future of DFLC
References
Chapter 9 Design for Maintainability
1 Introduction
2 Review of Probability and Random Variables
3 Review of System Reliability and Availability
4 Repairable Systems and Availability Analysis
References
Bibliography
Chapter 10 Design for Remanufacturing Processes
1 Introduction to Remanufacturing
2 Basic Remanufacturing Business Practice
3 Remanufacturing Facility Processes
4 Overarching Design Principles and Strategies Enhancing Reuse
5 Hardware Design Guidelines
6 Design for Remanufacturing Conflicts
7 Design Decision Support Tools
8 Summary
References
Chapter 11 Design for Manufacture and Assembly with Plastics
1 Introduction
2 Plastic Materials Selection
3 Plastic Materials Selection Techniques
4 Plastic-Joining Techniques
5 Plastic Part Design
6 Plastic Part Material Selection Strategy
7 Conclusion
Acknowledgments
References
Suggested Readings
Chapter 12 Design for Six Sigma: A Mandate for Competitiveness
1 Background
2 Introduction
3 DFSS Management
4 DFSS Process
5 Summary and Conclusions
Acknowledgments
References
Bibliography
Chapter 13 Engineering Applications of Virtual Reality
1 Introduction
2 Virtual Reality Components
3 VR in Concept Design
4 Virtual Reality in Data Visualization
5 Virtual Reality in Driving Simulation
6 Virtual Reality in Manufacturing
7 VR in Civil Engineering and Construction
8 VR in Other Disciplines (Geology, Oil, Gas, and Chemical Engineering)
9 Conclusion
References
Chapter 14 Physical Ergonomics
1 What is Physical Ergonomics?
2 Physical Ergonomics Analyses
3 Example Applications
References
Bibliography
Part 2 Instrumentation, Systems, Controls, and MEMS
Chapter 15 Electric Circuits
1 Introduction
2 Direct-Current (DC) Circuits
3 Linear Active Circuits
4 Alternating Current (AC) Circuits
5 Transient Response of Circuits
6 Frequency Response
References
Chapter 16 Measurements
1 Standards and Accuracy
2 Impedance Concepts
3 Error Analysis
References
Chapter 17 Signal Processing
1 Frequency-Domain Analysis of Linear Systems
2 Basic Analog Filters
3 Basic Digital Filter
4 Stability and Phase Analysis
5 Extracting Signal from Noise
References
Chapter 18 Data Acquisition and Display Systems
1 Introduction
2 Data Acquisition
3 Process Data Acquisition
4 Data Conditioning
5 Data Storage
6 Data Display and Reporting
7 Data Analysis
8 Data Communications
9 Other Data Acquisition and Display Topics
10 Summary
References
Magazines That Carry Relevant Information
Chapter 19 Systems Engineering: Analysis, Design, and Information Processing for Analysis and Design
1 Introduction
2 System Life-Cycle and Functional Elements of Systems Engineering
3 Systems Engineering Objectives
4 Systems Engineering Methodology and Methods
5 System Design
6 Conclusions
References
Chapter 20 Mathematical Models of Dynamic Physical Systems
1 Rationale
2 Ideal Elements
3 System Structure and Interconnection Laws
4 Standard Forms for Linear Models
5 Approaches to Linear Systems Analysis
6 State-Variable Methods
7 Simulation
8 Model Classifications
Chapter 21 Basic Control Systems Design
1 Introduction
2 Control System Structure
3 Transducers and Error Detectors
4 Actuators
5 Control Laws
6 Controller Hardware
7 Further Criteria for Gain Selection
8 Compensation and Alternative Control Structures
9 Graphical Design Methods
10 Principles of Digital Control
11 Uniquely Digital Algorithims
12 Hardware and Software for Digital Control
13 Software Support for Control System Design
14 Future Trends in Control Systems
References
Chapter 22 General-Purpose Control Devices
1 Characteristics of General-Purpose Control Devices
2 Programmable Controllers
3 Numerical Controllers
4 Robot Controllers
Acknowledgments
References
Bibliography
Chapter 23 Neural Networks in Feedback Control Systems
1 Introduction
2 Feedback Linearization Design of Neural Network Tracking Controllers
3 Neural Network Control for Discrete-Time Systems
4 Multiloop Neural Network Feedback Control Structures
5 Feedforward Control Structures for Actuator Compensation
6 Approximate Dynamic Programming and Adaptive Critics
7 Neural Network Learning Algorithms for Optimal Control and Dynamic Games
8 Historical Development, Referenced Work, and Further Study
Acknowledgments
References
Bibliography
Chapter 24 Mechatronics
1 Basic Analog Electronics
2 Semiconductor Electronics
3 Operational Amplifiers
4 Binary Numbers
5 Digital Circuits
6 Digital Computers
7 Transfer of Digital Data
8 Analog-to-Digital Conversion
9 Digital-to-Analog Converter
10 Sensors
11 Electro Mechanical Modeling Example
Bibliography
Chapter 25 Introduction to Microelectromechanical Systems (MEMS): Design and Application
1 Introduction
2 Microfabrication Procedures
3 Design and Simulations
4 Fabrication Foundries
5 Examples of Devices and Their Applications
6 Conclusions
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Tags: Myer Kutz, Mechanical Engineers’, Design Instrumentation