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E-grāmata: Geometric Dimensioning and Tolerancing, 3/E (PB)

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  • Formāts: 320 pages
  • Izdošanas datums: 07-Feb-2020
  • Izdevniecība: McGraw-Hill Education
  • Valoda: eng
  • ISBN-13: 9781260453799
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Geometric Dimensioning and Tolerancing, 3/E (PB)Palielināt
  • Formāts: 320 pages
  • Izdošanas datums: 07-Feb-2020
  • Izdevniecība: McGraw-Hill Education
  • Valoda: eng
  • ISBN-13: 9781260453799
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"Written in accordance with the latest revision to the GD&T standard, ASME Y14.5-2019, this thoroughly revised edition teaches the principles and practices of geometric dimensioning and tolerancing in an easy-to-follow manner. Readers will discover how to communicate design intent within a manufacturing setting and ensure that parts from technical drawings have the desired form, fit, function, and interchangeability. Geometric Dimensioning and Tolerancing for Mechanical Design, Third Edition shows, step by step, how to improve quality, lower cost, and shorten delivery times using the latest tolerancing tools and techniques. Readers will get clear definitions and discussions on how each geometric control is specified, interpreted, and inspected. Detailed drawings and examples illustrate each subject. Each chapter begins with learning objectives and ends with a summary, review questions, and problems"--

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.

A fully updated guide to geometric dimensioning and tolerancing
 
This thoroughly revised engineering textbook teaches the principles and practices of geometric dimensioning and tolerancing in a straightforward, easy-to-follow manner. Written in accordance with the latest revision to the GD&T standard, ASME Y14.5-2018, Geometric Dimensioning and Tolerancing for Mechanical Design, Third Edition shows, step by step, how to improve quality, lower cost, and shorten delivery times. You will get clear definitions along with detailed discussions on how each geometric control is specified, interpreted, and inspected. Detailed drawings and examples illustrate each concept.
 
Up-to-date coverage includes:

    • Dimensioning and tolerancing fundamentals
    • Symbols, terms, and rules
    • Datums
    • Form—flatness, straightness, circularity and cylindricity
    • Orientation—perpendicularity, parallelism, and angularity
    • Position—general functions and location applications
    • Coaxiality
    • Runout
    • Profile
    • Strategy for tolerancing parts
    • Graphic analysis
    • And more

Preface xiii
Acknowledgments xv
1 Introduction to Geometric Dimensioning and Tolerancing
1(8)
Chapter Objectives
2(1)
What Is GD&T?
2(1)
When Should GD&T Be Used?
2(1)
Advantages of GD&T over Coordinate Dimensioning and Tolerancing
3(4)
The Cylindrical Tolerance Zone
4(1)
The Maximum Material Condition Modifier
5(1)
Datum Features Specified in Order of Precedence
6(1)
Summary
7(1)
Chapter Review
7(2)
2 Dimensioning and Tolerancing Fundamentals
9(10)
Chapter Objectives
9(1)
Fundamental Drawing Rules
9(1)
Units of Linear Measurement
10(1)
Specifying Linear Dimensions
11(1)
Specifying Linear Tolerances
11(2)
Interpreting Dimensional Limits
13(1)
Specifying Angular Dimensions
13(1)
Specifying Angular Tolerances
14(1)
Dimensioning and Tolerancing for CAD/CAM Database Models
14(1)
Summary
15(1)
Chapter Review
15(4)
3 Symbols, Terms, and Rules
19(38)
Chapter Objectives
19(1)
Symbols
19(15)
Geometric Characteristic Symbols
19(1)
The Datum Feature Symbol
20(2)
The Feature Control Frame
22(1)
Reading the Feature Control Frame
22(2)
Attaching a Feature Control Frame to a Feature
24(1)
Other Symbols Used with Geometric Tolerancing
25(9)
Terms
34(7)
Rules
41(4)
Rule #1 Limits of Size Prescribe Variations of Form
41(3)
Rule #2 Applicability of Modifiers in Feature Control Frames
44(1)
The Pitch Diameter Rule
45(1)
Summary
45(1)
Chapter Review
46(9)
Problems
55(2)
4 Datums
57(24)
Chapter Objectives
57(1)
Definition of a Datum
57(1)
Application of Datums
57(1)
Immobilization of a Part
58(1)
A Datum Reference Frame Provides Origin and Direction
59(1)
Datum Feature Selection
60(1)
Datum Feature Identification
60(2)
Inclined Datum Features
62(1)
Cylindrical Datum Features
63(1)
Establishing Datum Features
63(1)
Plane Flat Surfaces Specified as Datum Features
63(1)
Datum Features of Size at RMB
64(1)
Datum Features of Size at MMB
64(1)
Plane Flat Surfaces versus Features of Size
64(2)
Irregular Datum Features of Size
66(1)
Common Datum Features
66(1)
Partial Datum Features
67(1)
Datum Targets
68(3)
Datum Targets Established on a Cylindrical Part
70(1)
Step Datum Targets and Movable Datum Target Symbols
70(1)
Summary
71(1)
Chapter Review
72(4)
Problems
76(5)
5 Form
81(20)
Chapter Objectives
81(1)
Flatness
81(4)
Definition
81(1)
Specifying Flatness Tolerance
81(2)
Specifying Flatness of a Derived Median Plane
83(2)
Unit Flatness
85(1)
Straightness
85(3)
Definition
85(1)
Specifying Straightness of a Surface Tolerance
85(2)
Specifying Straightness of a Derived Median Line
87(1)
Unit Straightness
88(1)
Circularity
88(2)
Definition
88(1)
Specifying Circularity Tolerance
88(2)
Cylindricity
90(1)
Definition
90(1)
Specifying Cylindricity Tolerance
90(1)
Average Diameter
91(1)
Free State
92(1)
Restrained Condition
92(1)
Summary
92(1)
Chapter Review
93(5)
Problems
98(3)
6 Orientation
101(18)
Chapter Objectives
101(1)
Perpendicularity
101(3)
Definition
101(1)
Specifying Perpendicularity of a Flat Surface
102(1)
The Tangent Plane
102(2)
Specifying Perpendicularity of an Axis to a Plane Surface
104(1)
Parallelism
104(3)
Definition
104(1)
Specifying Parallelism of a Plane Surface
104(2)
Specifying Parallelism of an Axis
106(1)
Angularity
107(3)
Definition
107(1)
Specifying Angularity of a Plane Surface
107(1)
Specifying Angularity of an Axis
108(2)
Summary
110(1)
Chapter Review
110(4)
Problems
114(5)
7 Position, General
119(30)
Chapter Objectives
119(1)
Definition
119(1)
The Tolerance of Position
120(1)
Specifying the Position Tolerance
121(5)
Specifying the Position Tolerance at RFS
121(3)
Specifying the Position Tolerance at MMC
124(1)
Inspection with a Functional Gage
125(1)
Datum Features of Size Specified with an RMB Modifier
126(1)
Datum Features of Size Specified with an MMB Modifier
127(5)
MMB Modifier Explained in More Detail
128(4)
Locating Features of Size with an LMC Modifier
132(1)
Minimum Wall Thickness at LMC
133(1)
Boundary Conditions
134(2)
Zero Positional Tolerance at MMC
136(2)
Summary
138(1)
Chapter Review
139(3)
Problems
142(7)
8 Position, Location
149(48)
Chapter Objectives
149(1)
Floating Fasteners
149(4)
Clearance Hole LMC Diameter
151(1)
Clearance Hole Location Tolerance (T)
151(1)
Clearance Hole MMC Diameter (H)
152(1)
Fixed Fasteners
153(3)
Clearance Hole LMC Diameter
154(1)
Threaded Hole Location Tolerance (tj)
154(1)
Clearance Hole Location Tolerance (t2)
155(1)
Clearance Hole MMC Diameter (H)
155(1)
Projected Tolerance Zones
156(2)
Through Holes
156(2)
Blind Holes
158(1)
Multiple Patterns of Features, Simultaneous Requirements
158(3)
Composite Positional Tolerancing
161(6)
Multiple Single-Segment Positional Tolerancing
167(2)
Nonparallel Holes
169(1)
Counterbored Holes
170(2)
Noncircular Features of Size
172(1)
Spherical Features Located with the Position Control
173(1)
Symmetrical Features Located with the Position Control
174(1)
Summary
175(1)
Chapter Review
176(3)
Problems
179(18)
9 Position, Coaxiality
197(12)
Chapter Objectives
197(1)
Definition
197(2)
Comparison between Coaxiality Controls
199(1)
Specifying Coaxiality at MMC
200(1)
Composite Positional Control of Coaxial Features
200(2)
Positional Tolerancing for Coaxial Holes of Different Sizes
202(1)
Coaxial Features Controlled without Datum References
202(1)
Tolerancing a Plug and Socket
203(1)
Summary
204(1)
Chapter Review
204(1)
Problems
205(4)
10 Runout
209(12)
Chapter Objectives
209(1)
Definition
209(1)
Circular Runout
209(1)
Total Runout
210(1)
Specifying Runout and Partial Runout
211(1)
Common Datum Features
212(1)
Planar and Cylindrical Datum Features
213(1)
Geometric Control of Individual Datum Feature Surfaces
214(1)
The Relationship between Feature Surfaces
214(1)
Inspecting Runout
215(1)
Summary
216(1)
Chapter Review
217(1)
Problems
218(3)
11 Profile
221(26)
Chapter Objectives
221(1)
Definition
221(1)
Specifying a Profile Tolerance
221(3)
The Application of Datum Features
224(1)
A Radius Refinement with Profile
225(1)
Combining Profile Tolerances with Other Geometric Controls
226(1)
Coplanarity
227(3)
Profile of a Conical Feature
230(1)
Composite Profile Tolerancing
230(4)
Multiple Single-Segment Profile Tolerancing
234(1)
Inspection
235(1)
Summary
235(1)
Chapter Review
236(2)
Problems
238(9)
12 A Strategy for Tolerancing Parts
247(30)
Chapter Objectives
247(1)
Locating Features of Size to Plane Surface Datum Features
248(7)
Locating Features of Size to Datum Features of Size
255(5)
Locating a Pattern of Features to a Second Pattern of Features
260(4)
Summary
264(1)
Chapter Review
265(5)
Problems
270(7)
13 Graphic Analysis
277(18)
Chapter Objectives
277(1)
Advantages of Graphic Analysis
277(1)
The Accuracy of Graphic Analysis
278(1)
Analysis of a Composite Geometric Tolerance
278(5)
Analysis of a Pattern of Features Controlled to a Datum Feature of Size
283(4)
Summary
287(1)
Chapter Review
288(2)
Problems
290(5)
A Concentricity and Symmetry
295(12)
Chapter Objectives
295(1)
Concentricity
295(3)
Definition
295(1)
Specifying Concentricity
296(2)
Applications of Concentricity
298(1)
Symmetry
298(3)
Definition
298(1)
Specifying Symmetry
298(2)
Applications of Symmetry
300(1)
Summary
301(1)
Chapter Review
301(2)
Problems
303(4)
B Reference Tables
307(6)
Index 313
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