Totally different machine design concept.
No Right or Wrong , Just Advantage and Disadvantage.
Showing posts with label Machine Design. Show all posts
Showing posts with label Machine Design. Show all posts
Wednesday, March 20, 2013
0 - Machine Design
Totally different machine design concept.
No Right or Wrong , Just Advantage and Disadvantage.
Friday, March 15, 2013
1 - Introduction : Standard, Codes, Regulations
1-1 The Designer and the Designer's Problems
1-2 Decisions and Their Identification
1-3 Adequancy Assessment
1-4 Communication of Engineering Information
1-5 Legal Considerations in Design
1-6 Standards, Codes, and Governmental Regulations in Design
1-7 Sources of Standards, Codes, Governmental Regulations, Indexes, and Standardization
Activities
1-2 Decisions and Their Identification
1-3 Adequancy Assessment
1-4 Communication of Engineering Information
1-5 Legal Considerations in Design
1-6 Standards, Codes, and Governmental Regulations in Design
1-7 Sources of Standards, Codes, Governmental Regulations, Indexes, and Standardization
Activities
Sunday, March 10, 2013
2 - Statistical Considerations
2-1 Introduction
2-2 Histographic Evidence
2-3 Useful Distributions
2-4 Random-Variable Algebra
2-5 Stochastic Endurance Limit by Correlation and by Test
2-6 Interference
2-7 Numbers
2-2 Histographic Evidence
2-3 Useful Distributions
2-4 Random-Variable Algebra
2-5 Stochastic Endurance Limit by Correlation and by Test
2-6 Interference
2-7 Numbers
Tuesday, March 5, 2013
3 - Measurement and Inference
3-1 The Measurement Problem
3-2 Definition of Measurement
3-3 Standards of Measurement
3-4 The Measuring System
3-5 Calibration
3-6 Design of the Measurement System
3-7 Selected Measurement-System Components and Examples
3-8 Sources of Error in Measurement
3-9 Analysis of Data
3-10 Confidence Limits
3-11 Propagation of Error or Uncertainty
3-2 Definition of Measurement
3-3 Standards of Measurement
3-4 The Measuring System
3-5 Calibration
3-6 Design of the Measurement System
3-7 Selected Measurement-System Components and Examples
3-8 Sources of Error in Measurement
3-9 Analysis of Data
3-10 Confidence Limits
3-11 Propagation of Error or Uncertainty
Friday, March 1, 2013
4 - Numerical Methods
4-1 Numbers
4-2 Functions
4-3 Series
4-4 Approximations and Error
4-5 Finite-Difference Approximations
4-6 Numerical Integration
4-7 Curve Fitting for Precision Points
4-8 Curve Fitting by Least Squares
4-9 Curve Fitting for Several Variables
4-10 Interpolation
4-11 Root Finding
4-2 Functions
4-3 Series
4-4 Approximations and Error
4-5 Finite-Difference Approximations
4-6 Numerical Integration
4-7 Curve Fitting for Precision Points
4-8 Curve Fitting by Least Squares
4-9 Curve Fitting for Several Variables
4-10 Interpolation
4-11 Root Finding
Monday, February 25, 2013
5 - Computational Considerations
5-1 Introduction
5-2 An Algorithmic Approach to Design
5-3 Analysis Tasks
5-4 Mathematical Tasks
5-5 Statistical Tasks
5-6 Optimization Tasks
5-7 Simulation
5-2 An Algorithmic Approach to Design
5-3 Analysis Tasks
5-4 Mathematical Tasks
5-5 Statistical Tasks
5-6 Optimization Tasks
5-7 Simulation
Wednesday, February 20, 2013
6 - Wear
6-1 General Principles in Design for Wear Resistance
6-2 Steps in Design for Wear Life Without Selecting Materials
6-3 Wear Equations
6-4 Steps in Selecting Material for Wear Resistance
6-5 Material - Selection Procedure
6-2 Steps in Design for Wear Life Without Selecting Materials
6-3 Wear Equations
6-4 Steps in Selecting Material for Wear Resistance
6-5 Material - Selection Procedure
Friday, February 15, 2013
7 - Solid Materials
7-1 Structure of Solid
7-2 Atomic Bonding Forces
7-3 Atomic Structure
7-4 Crystal Imperfections
7-5 Slip in Crystalline Solids
7-6 Mechanical Strength
7-7 Mechanical Properties and Tests
7-8 Hardness
7-9 The Tensile Test
7-10 Tensile Properties
7-11 Strength, Stress, and Strain Relations
7-12 Impact Strength
7-13 Creep Strength
7-14 Mechanical-Property Data
7-15 Numbering Systems
7-2 Atomic Bonding Forces
7-3 Atomic Structure
7-4 Crystal Imperfections
7-5 Slip in Crystalline Solids
7-6 Mechanical Strength
7-7 Mechanical Properties and Tests
7-8 Hardness
7-9 The Tensile Test
7-10 Tensile Properties
7-11 Strength, Stress, and Strain Relations
7-12 Impact Strength
7-13 Creep Strength
7-14 Mechanical-Property Data
7-15 Numbering Systems
Sunday, February 10, 2013
8 - The Strength of Cold-Worked and Heat-treated Steels
8-1 Introduction
8-2 Strength of Plastically Deformed Materials
8-3 Estimating Ultimate Strength after Plastic Strains
8-4 Estimating Yield Strength after Plastic Strains
8-5 Estimating Ultimate Strength of Heat-Treated Plain Carbon Steels
8-6 Estimating Ultimate Strength of Heat-treated Low-Alloy Steels
8-7 Tempering Time and Temperature Tradeoff Relation
8-8 Computer Programs
8-2 Strength of Plastically Deformed Materials
8-3 Estimating Ultimate Strength after Plastic Strains
8-4 Estimating Yield Strength after Plastic Strains
8-5 Estimating Ultimate Strength of Heat-Treated Plain Carbon Steels
8-6 Estimating Ultimate Strength of Heat-treated Low-Alloy Steels
8-7 Tempering Time and Temperature Tradeoff Relation
8-8 Computer Programs
Tuesday, February 5, 2013
9 - Usability
9-1 Designing for Human Body Size
9-2 Designing for Human Body Posture
9-3 Designing for Reach and Mobility
9-4 Designing for Human Force and Power
9-5 Designing for Fast and Accurate Control Activation
9-6 Designing Labels and Warnings
9-7 Designing for Vision
9-8 Designing for Material Handling
9-9 Conclusion
9-2 Designing for Human Body Posture
9-3 Designing for Reach and Mobility
9-4 Designing for Human Force and Power
9-5 Designing for Fast and Accurate Control Activation
9-6 Designing Labels and Warnings
9-7 Designing for Vision
9-8 Designing for Material Handling
9-9 Conclusion
Wednesday, January 30, 2013
10 - Safety
10-1 Why Safety
10-2 What is Safety
10-3 Hazard, Risk, and Danger
10-4 Designer's Obligation
10-5 Human Factors/Ergonomics
10-6 Summary
10-2 What is Safety
10-3 Hazard, Risk, and Danger
10-4 Designer's Obligation
10-5 Human Factors/Ergonomics
10-6 Summary
Friday, January 25, 2013
11 - Minizing Engineering Effort
11-1 Introduction
11-2 Reducing The Number of Experiments
11-3 Similitude
11-4 Optimality
11-5 Quadrature
11-6 Cheaking
11-2 Reducing The Number of Experiments
11-3 Similitude
11-4 Optimality
11-5 Quadrature
11-6 Cheaking
Sunday, January 20, 2013
12 - Strength under Static Circumstances
12-1 Permissible Stresses and Strains
12-2 Theory of Static Failure
12-3 Stress Concentration
12-4 Fracture Mechanics
12-5 Non-ferrous Metals
12-6 Stochastic Considerations
12-2 Theory of Static Failure
12-3 Stress Concentration
12-4 Fracture Mechanics
12-5 Non-ferrous Metals
12-6 Stochastic Considerations
Tuesday, January 15, 2013
13 - Strenght under Dynamics Conditions
13-1 Testing Methods and Presentation of Results
13-2 SN Diagram for Sinusoidal and Random Loading
13-3 Fatigue-Strength Modification Factors
13-4 Fluctuating Stress
13-5 Complicated Stress-Variation Patterns
13-6 Strength at Critical Locations
13-7 Combined Loading
13-8 Surface Fatigue
13-2 SN Diagram for Sinusoidal and Random Loading
13-3 Fatigue-Strength Modification Factors
13-4 Fluctuating Stress
13-5 Complicated Stress-Variation Patterns
13-6 Strength at Critical Locations
13-7 Combined Loading
13-8 Surface Fatigue
Thursday, January 10, 2013
14 - Fundamental of Arc Welding
14-1 Definitions and Terminology
14-2 Basic Welding Circuit
14-3 Arc Shielding
14-4 Nature of the Arc
14-5 Overcoming Current Limitations
14-6 Commericial Arc-Welding Processes
14-7 Arc-Welding Consumables
14-8 Design of Welded Joints
14-9 Codes and Specifications for Welds
14-2 Basic Welding Circuit
14-3 Arc Shielding
14-4 Nature of the Arc
14-5 Overcoming Current Limitations
14-6 Commericial Arc-Welding Processes
14-7 Arc-Welding Consumables
14-8 Design of Welded Joints
14-9 Codes and Specifications for Welds
Saturday, January 5, 2013
15 - Instabilities in Beams and Columns
15-1 Euler's Formula
15-2 Effective Length
15-3 Generalization of the Problem
15-4 Modified Buckling Formulas
15-5 Stress-Limiting Criterion
15-6 Beam-Column Analysis
15-7 Approximate Method
15-8 Instability of Beams
15-2 Effective Length
15-3 Generalization of the Problem
15-4 Modified Buckling Formulas
15-5 Stress-Limiting Criterion
15-6 Beam-Column Analysis
15-7 Approximate Method
15-8 Instability of Beams
Sunday, December 30, 2012
16 - Curved Beams and Rings
16-1 Bending in the Plane of Curvature
16-2 Castigliano's Theorem
16-3 Ring Segments with One Support
16-4 Ring with Simple Supports
16-5 Ring Segment with Fixed Ends
16-2 Castigliano's Theorem
16-3 Ring Segments with One Support
16-4 Ring with Simple Supports
16-5 Ring Segment with Fixed Ends
Tuesday, December 25, 2012
17 - Seals
17-1 Elastometric Seal Rings
17-2 Seals for Rotary Motion
17-3 Seals for Reciprocating Motion
17-2 Seals for Rotary Motion
17-3 Seals for Reciprocating Motion
Thursday, December 20, 2012
18 - Flywheels
18-1 Flywheel Usage
18-2 Sizing the Flywheel
18-3 Stress
18-4 Flywheels for Energy Storage
18-5 Strength and Safety
18-2 Sizing the Flywheel
18-3 Stress
18-4 Flywheels for Energy Storage
18-5 Strength and Safety
Saturday, December 15, 2012
19 - Limits and Fits
19-1 Introduction
19-2 Metric Standards
19-3 U.S Standard - Inch Units
19-4 Interference-Fit Stress
19-5 Absolute Tolerances
19-6 Statistical Tolerances
19-2 Metric Standards
19-3 U.S Standard - Inch Units
19-4 Interference-Fit Stress
19-5 Absolute Tolerances
19-6 Statistical Tolerances
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