机械设计过程 英文版 原书第四版

机械设计过程 英文版 原书第四版  
作者：（美）大卫 乌尔曼 著 
出版时间： 2010年版 
内容简介 
　　《机械设计过程（英文版·原书第4版）》明确提出了“产品设计”的设计技术，是针对产品设计的设计思想，理论．技术和方法，而对于那些针对“机构”和“零件结构”的设计技术，只作为基础知识介绍。《机械设计过程（英文版 原书第4版）》全面、具体地给出了“设计学”的基本内容，详细地引出了设计的典型步骤，每一个步骤的任务、目标，应考虑的主要问题和常用的解决方法，对产品设计具有很好的指导作用。 
目录 
出版说明  
序  
PREFACE  
CHAPTER 1 Why Study the Design Process?  
　1.1 Introduction  
　1.2 Measuring the Design Process with Product Cost, Quality, and Time to Market  
　1.3 The History of the Design Process  
　1.4 The Life of a Product  
　1.5 The Many Solutions for Design Problems  
　1.6 The Basic Actions of Problem Solving  
　1.7 Knowledge and Learning During Design  
　1.8 Design for Sustainability  
CHAPTER 2 Understanding Mechanical Design  
　2.1 Introduction  
　2.2 Importance of Product Function, Behavior, and Performance  
　2.3 Mechanical Design Languages and Abstraction  
　2.4 Different Types of Mechanical Design Problems  
　2.5 Constraints, Goals, and Design Decisions  
　2.6 Product Decomposition  
CHAPTER 3 Designers and Design Teams  
　3.1 Introduction  
　3.2 The Individual Designer: A Model of Human Information Processing  
　3.3 Mental Processes That Occur During Design  
　3.4 Characteristics of Creators  
　3.5 The Structure of Design Teams  
　3.6 Building Design Team Performance  
CHAPTER 4 The Design Process and Product Discovery  
　4.1 Introduction  
　4.2 Overview of the Design Process  
　4.3 Designing Quality into Products  
　4.4 Product Discovery  
　4.5 Choosing a Project  
CHAPTER 5 Planning for Design  
　5.1 Introduction  
　5.2 Types of Project Plans  
　5.3 Planning for Deliverables The Development of Information  
　5.4 Building a Plan  
　5.5 Design Plan Examples  
　5.6 Communication During the Design Process  
CHAPTER 6 Understanding the Problem and the Development of  
　Engineering Specifications  
　6.1 Introduction  
　6.2 Step 1: Identify the Customers: Who Are They?  
　6.3 Step 2: Determine the Customers\’ Requirements: What Do the Customers Want?  
　6.4 Step 3: Determine Relative Importance of the Requirements: Who Versus What  
　6.5 Step 4: Identify and Evaluate the Competition: How Satisfied Are the Customers Now ?  
　6.6 Step 5: Generate Engineering Specifications: How Will the Customers\’ Requirement Be Met?  
　6.7 Step 6: Relate Customers\’ Requirements to Engineering Specifications: How to Measure What?  
　6.8 Step 7: Set Engineering Specification Targets and Importance: How Much Is Good Enough?  
　6.9 Step 8: Identify Relationships Between Engineering Specifications: How Are the Hows Dependent on Each Other?  
　6.10 Further Comments on QFD  
CHAPTER 7 Concept Generation  
　7.1 Introduction  
　7.2 Understanding the Function of Existing Devices  
　7.3 A Technique for Designing with Function  
　7.4 Basic Methods of Generating Concepts  
　7.5 Patents as a Source of Ideas  
　7.6 Using Contradictions to Generate Ideas  
　7.7 The Theory of Inventive Machines, TRIZ  
　7.8 Other Important Concerns During Concept Generation  
CHAPTER 8 Concept Evaluation and Selection  
　8.1 Introduction  
　8.2 Concept Evaluation Information  
　8.3 Feasibility Evaluations  
　8.4 Technology Readiness  
　8.5 The Decision Matrix–Pugh\’s Method  
　8.6 Product, Project, and Decision Risk  
　8.7 Robust Decision Making  
CHAPTER 9 Product Generation  
　9.1 Introduction  
　9.2 BOMs  
　9.3 Form Generation  
　9.4 Materials and Process Selection  
　9.5 Vendor Development  
　9.6 Generating a Suspension Design for the Matin 2008 Mount Vision Pro Bicycle  
CHAPTER 10 Product Evaluation for Performance and the Effects of Variation  
　10.1 Introduction  
　10.2 Monitoring Functional Change  
　10.3 The Goals of Performance Evaluation  
　10.4 Trade-Off Management  
　10.5 Accuracy, Variation, and Noise  
　10.6 Modeling for Performance Evaluation  
　10.7 Tolerance Analysis  
　10.8 Sensitivity Analysis  
　10.9 Robust Design by Analysis  
　10.10 Robust Design Through Testing  
CHAPTER 11 Product Evaluation: Design For Cost, Manufacture,Assembly, and Other Measures  
　11.1 Introduction  
　11.2 DFC–Design For Cost  
　11.3 DFV Design For Value  
　11.4 DFM–Design For Manufacture  
　11.5 DFA Design-For-Assembly Evaluation  
　11.6 DFR Design For Reliability  
　11.7 DFT and DFM–Design For Test and Maintenance  
　11.8 DFElDesign For the Environment  
CHAPTER 12 Wrapping Up the Design Process and Supporting the Product  
　12.1 Introduction  
　12.2 Design Documentation and Communication  
　12.3 Support  
　12.4 Engineering Changes  
　12.5 Design for End of Life  
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