كتب متخصصة فى الرسم الهندسى Textbooks Of Engineering Drawing

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Textbook Of Engineering Drawing 2nd Edition
Author: Reddy Venkata K
ISBN: 8178001497
ISBN-13: 9788178001494 , 978-8178001494 377 Pages
Binding: Hardcover
Publishing Date: 2008
Publisher: B. S. Publications
Edition: 2nd Edition

CHAPTER 1:
1.1 Introduction
Drawing Instruments and
Accessories
Engineering drawing is a two dimensional representation of three dimensional objects. In general, it
provides necessary information about the shape, size, surface quality, material, manufacturing process,
etc., of the object. It is the graphic language from which a trained person can visualise objects.
Drawings prepared in one country may be utilised in any other country irrespective of the
language spoken. Hence, engineering drawing is called the universal language of engineers. Any
language to be communicative, should follow certain rules so that it conveys the same meaning to
every one. Similarly, drawing practice must follow certain rules, if it is to serve as a means of
communication. For this purpose, Bureau of Indian Standards (BIS) adapted the International
Standards on code of practice for drawing. The other foreign standards are: DIN of Germany, BS
of Britain and ANSI of America.
1.2 Role of Engineering Drawing
The ability to read drawing is the most important requirement of all technical people in any profession.
As compared to verbal or written description, this method is brief and more clear. Some of the
applications are : building drawing for civil engineers, machine drawing for mechanical engineers,
circuit diagrams for electrical and electronics engineers, computer graphics for one and all.
The subject in general is designed to impart the following skills.
1. Ability to read and prepare engineering drawings.
2. Ability to make free - hand sketching of objects.
3. Power to imagine, analyse and communicate, and
4. Capacity to understand other subjects:
1.3 Drawing Instrument and Aids
The Instruments and other aids used in draughting work are listed below:
1. Drawing board 2. Mini draughter 3. Instrument box
4. Set squares 5. Protractor 6. Set of scales
7. French curves 8. Drawing sheets 9. Pencils
10. Templates

CHAPTER-1
Drawing Instruments and Accessories 1.1-1.5
1.1 Introduction, 1.1
1.2 Role of Engineering Drawing, 1.1
1.3 Drawing Instrument and Aids, 1.1
1.3.1 Drawing Board, 1.2
1.3.2 Mini-Draughter, 1.2
1.3.3 Instrument Box, 1.2
1.3.4 Set of Scales, 1.3
1.3.5 French Curves, 1.4
1.3.6 Templates, 1.4
1.3.7 Pencils, 1.4
CHAPTER- 2
Lettering and Dimensioning Practices 2.1-2.25
2.1 Introduction. 2.1
2.2 Drawing Sheet, 2.1
2.2.1 Title Block, 2.2
2.2.2 Drawing Sheet Layout (Is 10711 : 2001), 2.3
2.2.3 Folding of Drawing Sheets, 2.3
2.2.4 Lines (IS 10714 (Part 20): 2001 and SP 46: 2003), 2.4
COli/ellis
2.3 LETTERING [IS 9609 (PART 0) : 2001 AND S~ 46: 2003], 2.7
2.3.1 Importance of Lettering, 2.7
2.3.2 Single Stroke Letters, 2.7
2.3.3 Types of Single Stroke Letters, 2.7
2.3.4 Size of Letters, 2.8
2.3.5 Procedure for Lettering, 2.8
2.3.6 Dimensioning of Type B Letters, 2.8
2.3.7 Lettering Practice, 2.9
2.4 Dimensioning, 2.12
2.4.1 Principles of Dimensioning, 2.13
2.4.2 Execution of Dimensions, 2.15
2.4.3 Methods ofIndicating Dimensions, 2.17
2.4.4 IdentificatiollofShapes, 2.18
2.5 Arrangement of Dimensions, 2.19
CHAPTER- 3
Scales 3.1-3.12
3.1 Introduction, 3.1
3.2 Reducing and Enlarging Scales, 3.1
3.3 Representative Fraction, 3.2
3.4 Types of Scales, 3.2
3.4.1 Plain Scales, 3.2
3.4.2 Diagonal Scales, 3.5
3.4.3 Vernier Scales, 3.9
CHAPTER-4
Geometrical Constructions 4.1-4.51
4.1 Introduction, 4.1
4.2 Conic Sections 4.12
4.2.1 Circle, 4.13
4.2.2 Ellipse, 4.13
4.2.3 Parabola, 4.13
4.2.4 Hyperbola, 4.13
4.2.5 Conic Sections as Loci ofa Moving Point, 4.13
COll1ellts
4.3 Special Curves, 4.27
4.3.1 Cycloid,4.27
4.3.2 Epi-Cycloid and Hypo-Cycloid, 4.28
4.4 Involutes, 4.30
CHAPTER- 5
Orthographic Projections 5.1-5.35
5.1 Introduction, 5.1
5.2 Types of Projections, 5.2
5.2.1 Method ofObtaning, 5.2
5.2.2 Method ofObtaning Top View, 5.:?
5.3 FirstAngle Projectiom, 5.5
5.4 ThirdAngle Projection, 5.5
5.5 Projection of Points, 5.6
5.6 Projection of Lines, 5.13
5.7 Projection of Planes, 5.19
CHAPTER - 6
Projection of Solids 6.1-6.50
6.1 Introduction, 6.1
6.1.2 Polyhedra, 6.1
6.1.3 Regular of Polyhedra, 6.1
6.2 Prisms, 6.2
6.3 Pyramids, 6.3
6.4 Solids of Revolution, 6.3
6.5 Frustums of Truncated Solids, 6.3
6.6 Prims (Problem) Position of a
Solid with Respect to the Reference Planes, 6.4
6.7 Pyramids, 6.17
6.8 Cone and Cylinder, 6.23
(xiv) COlltellts
6.9 Application ofOlthographic Projections, 6.30
6.9.1 Selection of Views, 6.30
6.9.2 Simple Solids, 6.30
6.9.3 Three View Drawings, 6.31
6.9.4 Development ofMissiong Views, 6.31
6.10 Types of Auxiliary Views, 6.45
CHAPTER-7
Development of Surfaces
CHAPTER-8
7.1 Introduction, 7.1
7.2 Methods of Development, 7.1
7.2.1 Develop[ment of Prism, 7.2
7.2.2 Development ofa Cylinder, 7.2
7.2.3 Development ofa square pyramid with side of
base 30 mm and height 60 mm, 7.3
7.2.4 Development of a Cone, 7.5
I ntersection of Surfaces
8.1 Introduction, 8.1
8.2 Intersection of cylinder and cylinder, 8.1
8.3 Intersection of prism and prism, 8.4
CHAPTER-9
Isometric Projection
9.1 Introduction, 9.1
9.2 Principle ofIsometric Projections, 9.1
9.2.1 Lines in Isometric Projection, 9.3
·9.2.2 Isometric Projection, 9.3
9.2.3 Isometric Drawing, 9.4
9.2.4 Non-Isometric Lines, 9.6
7.1-7.21
8.1-8.5
9.1-9.22
COlltellts (xv)
9.3 Methods of Constructing Isometric Drawing, 9.6
9.3.1 Box Method, 9.7
9.3.2 Off-set Method, 9.7
9.4 Isometric Projection of Planes, 9.7
9.5 Isometric Projection of Prisms, 9.13
9.6 Isometric Projection of Cylinder, 9.15
9.7 Isometric Projection of Pyramid, 9.15
9.8 Isometric Projection of Cone, 9.16
9.9 Isometric Projectin Truncated Cone, 9.17
CHAPTER-10
Oblique and Persepctive Projections 10.1-10.23
10.1 Introduction, 10.1
10.2 Oblique Projection, 10.1
10.3 Classification of Oblique Projection, 10.2
10.4 Methods of Drawing Oblique Projection 10.2
10.4.1 Choice of Position of the Object, 10.3
10.4.2 Angles, Circles and Curves in Oblique Projection 10.3
10.5 Perspective Projection, 10.5
10.5.1 Nomenclature of Perspective Projection, 10.6
10.5.2 Classification of perspective projections, 10.8
10.5.3 Methods of Perspective Projection, 10.10
CHAPTER-11
Conversion of Isometric Views to
Orthographic Views and Vice Versa
11.1 Introduction, 11.1
11.2 Selection of views, 11.1
11.1-11.8
11.3 Conversion of Orthographic Views to Isometric Views, 11.7
(xvi)
CHAPTER-12
Sections of Solids
12.1 Sectioning of Solids, 12.1
12.1.1 Introduction, 12.1
12.1.2 Types of Section Views, 12.1
12.1.3 Cutting Plane, 12.1
CHAPTER-13
Freehand Sketching
13.1 Introduction, 13.1
CHAPTER-14
Computer Aided Design and
Drawing (CADD)
14.1 Introduction, 14.1
14.2 History of CAD, 14.1
14.3 Advantages of CAD, 14.1
14.4 Auto Cad Main Window, 14.2
14.4.1 Starting a New Drawing, 14.2
14.4.2 Opening an Existing Drawing, 14.3
14.4.3 Setting drawing limits, 14.4
14.4.4 Erasing Objects, 14.4
14.4.5 Saving a Drawing File, 14.4
14.4.6 Exiting an AutoCAD Session, 14.4
14.5.2 Polar Coordinates, 14.5
14.5 The Coordinate System, 14.5
14.5.1 Cartesian Coordinates, 14.5
14.6 The Fonnats to Enter Coordinates, 14.6
14.6.1 User-Defined Coordinate System, 14.6
COlltellts
12.1-12.13
13.1-13.6
14.1-14.26
COlltellls
14.7 Choosing Commands in AutoCAD, 14.8
14.7.1 Pull-down Menus [pd menu](Fig 14.6), 14.8
14.7.2 Tool Bar Selection, 14.9
14.7J Activating Tool Bars, 14.9
14.8 Right Mouse Clicking, 14.10
14.8.1 Right Mouse Click Menus, 14.11
14.9 Object Snaps, 14.12
14.9.1 Types of Object Snaps, 14.12
14.9.2
14.9J
14.9.4
14.9.5
14.9.6
14.9.7
14.9.8
14.9.9
14.9.10
Running Object Snaps, 14.13
Dividing an Object into Equal Segments, 14.14
Setting off Equal Distances, 14.14
Polyline Command, 14.14
Ray Command, 14.15
Rectangle Command, 14.15
Arc Command, 14. 15
Circle Command, 14.18
Ellipse Command, 14.19
14.10 The Drawing Tools of CADD, 14.20
14.10.1 Using Line Types, 14.20
14.10.2 Drawing Multiple Parallel Lines, 14.21
14.10J Drawing Flexible Curves, 14.21
14.10.4 Drawing Ellipses and Elliptical Arcs, 14.22
Worksheets ..................................................................................................................... 1-40
Annexure ......................................................................................................................... 1-1
Objective Type Questions ............................................................................................... 1-7
Answers ............................................................................................................................. 1-2
Model Question Papers ................................................................................................ 1-12

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Machine Drawing, Third Edition
by: Laxmi Narayana, P. Kannaiah, K. Venketa Reddy
474 Pages
Book: Machine Drawing
Author: Laxminarayanan
ISBN: 8183600832
ISBN-13: 9788183600835, 978-8183600835
Publisher: Jain Brothers

I congratulate the authors Dr. P. Kannaiah, Prof. K.L. Narayana and Mr. K. Venkata Reddy of
S.V.U. College of Engineering, Tirupati for bringing out this book on “Machine Drawing”.
This book deals with the fundamentals of Engineering Drawing to begin with and the
authors introduce Machine Drawing systematically thereafter. This, in my opinion, is an excellent
approach. This book is a valuable piece to the students of Mechanical Engineering at diploma,
degree and AMIE levels.
Dr. P. Kannaiah has a rich experience of teaching this subject for about twenty five
years, and this has been well utilised to rightly reflect the treatment of the subject and the
presentation of it. Prof. K.L. Narayana, as a Professor in Mechanical Engineering and Mr. K.
Venkata Reddy as a Workshop Superintendent have wisely joined to give illustrations usefully
from their wide experience and this unique feature is a particular fortune to this book and such
opportunities perhaps might not have been available to other books.
It is quite necessary for any drawing book to follow the standards of BIS. This has been
done very meticulously by the authors. Besides, this book covers the syllabi of various Indian
universities without any omission.
Learning the draughting principles and using the same in industrial practice is essential
for any student and this book acts as a valuable guide to the students of engineering. It also
serves as a reference book in the design and draughting divisions in industries. This book acts
almost as a complete manual in Machine Drawing.
This book is a foundation to students and professionals who from here would like to learn
Computer Graphics which is a must in modern days.
I am confident that the students of engineering find this book extremely useful to them.
Dr. M.A. Veluswami
Professor
Machine Elements Laboratory
Department of Mechanical Engineering
INDIAN INSTITUTE OF TECHNOLOGY
CHENNAI-600 036, INDIA

The engineer, especially a mechanical engineer, needs a thorough knowledge of the working
principles of any mechanism he normally deals with. To create interest and to motivate him in
this direction, complete revision of the chapter on assembly drawings is done. The chapter
provides individual component drawings and knowing the working mechanism of a subassembly,
finally the parts are assembled. Hence, exercises/examples are included starting from simple
subassemblies to moderately complex assemblies.
The chapter on part drawings provides examples of assembled drawings and the student
is expected to make the part drawings after imagining the shapes of them. A revision of this
chapter is supposed to provide the required guidance to the knowledge seeker.
The chapter on computer-aided draughting is fully revised keeping in view the present
day requirements of the engineering students. The student should be trained not only to use
draughting equipment but also to use a computer to produce his latest invention. It is presumed
that this chapter will provide him the required soft skills.
The centers of excellence should revise the curriculum frequently, based on the changes
needed by the academic requirements. Keeping this in view, the *******s of the text are updated
wherever necessary and incorporated.
It is hoped that the subject ******* satisfies both students, teachers and paper setters.
AUTHORS

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Manual of Engineering Drawing, Second Edition:
to British and International Standardsby: Colin Simmons Dennis Maguire

Book Description:
The Manual of Engineering Drawing has long been recognised as the student and practising engineer s guide to producing engineering drawings that comply with ISO and British Standards. The information in this book is equally applicable to any CAD application or manual drawing. The second edition is fully in line with the requirements of the new British Standard BS8888: 2002, and will help engineers, lecturers and students with the transition to the new standards. BS8888 is fully based on the relevant ISO standards, so this book is also ideal for an international readership. The comprehensive scope of this book encompasses topics including orthographic, isometric and oblique projections, electric and hydraulic diagrams, welding and adhesive symbols, and guidance on tolerancing. Written by a member of the ISO committee and a former college lecturer, the Manual of Engineering Drawing combines up-to-the-minute technical accuracy with clear, readable explanations and numerous diagrams. This approach makes this an ideal student text for vocational courses in engineering drawing and undergraduates studying engineering design / product design. Colin Simmons is a member of the BSI and ISO Draughting Committees and an Engineering Standards Consultant. He was formerly Standards Engineer at Lucas CAV.
Collection name: Materials & Mechanical

Table of *******s

* Cover
* Frontmatter
o Half Title Page
o Title Page
o Copyright
o *******s
o Preface
o Acknowledgements
* Chapter 1. Drawing office management and organization
o Engineering drawing practices
o Drawing practice and the computer (CAD: Computer aided draughting and design)
o Why introduce BS 8888 and withdraw BS 308?
* Chapter 2. Product development and computer aided design
o Computer aided draughting and design
o Technical product documentation
o Access into the computer network
o Quality assurance
* Chapter 3. CAD organization and applications
o Computer and software purchase
o Project development
o Parametric design
o Sheet metalwork application
o Pipework systems
o Communicating design concepts
o Typical AutoCAD drawings
o MechSoft
* Chapter 4. Principles of first and third angle orthographic projection
o First angle projection
o Third angle projection
o Projection symbols
o Drawing procedure
o Reading engineering drawings
o Projection exercises
* Chapter 5. Linework and lettering
o Drawing paper sizes
o Presentation
o Lines and linework
o Chain lines
o Lettering
o Drawing modifications
o Care and storage of original drawings
* Chapter 6. Three dimensional illustrations using isometric and oblique projection
o Isometric projection
o Oblique projection
* Chapter 7. Drawing layouts and simplified methods
o Single-part drawing
o Collective single-part drawings
o Assembly drawings
o Collective assembly drawing
o Design layout drawings
o Combined detail and assembly drawings
o Exploded assembly drawings
o Simplified drawings
o Machine drawing
o Drawing scales
o Scale used in geometric construction
o Abbreviations
* Chapter 8. Sections and sectional views
o Half sections
o Revolved sections
o Removed sections
o Sections through thin material
o Local sections
o Components not drawn in section
o Successive sections
o Sections in two parallel planes
* Chapter 9. Geometrical constructions and tangency
o Tangency
* Chapter 10. Loci applications
o Methods of drawing an ellipse
o The involute
o Archimedean spiral
o Right-hand cylindrical helix
o Right-hand conical helix
o The cycloid
o The epicycloid
o The hypocycloid
* Chapter 11. True lengths and auxiliary views
* Chapter 12. Conic sections and interpenetration of solids
o To draw an ellipse from part of a cone
o To draw a parabola from part of a cone
o To draw a rectangular hyperbola from part of a cone
o Interpenetration
* Chapter 13. Development of patterns from sheet materials
* Chapter 14. Dimensioning principles
o Dimensioning of features not drawn to scale
o Chain dimensioning and auxiliary dimensioning
o Parallel dimensioning
o Running dimensioning
o Staggered dimensions
o Dimensioning circles
o Dimensioning radii
o Dimensioning spherical radii and diameters
o Dimensioning curves
o Dimensioning irregular curves
o Unidirectional and aligned dimensions
o Angular dimensions
o Tapers
o Dimensioning tapers
o Dimensioning chamfers
o Dimensioning squares or flats
o Dimensioning holes
o Dimensioning counterbores
o Dimensioning countersunk holes
o Dimensioning spotfaces
o Dimensioning for manufacture
o Graphical symbols to indicate surface texture
o Expanded graphical symbols
o Complete graphical symbols
o All surfaces around a workpiece graphical symbol
o Composition of complete graphical symbols for surface texture
o Mandatory positions for complementary requirements
* Chapter 15. Screw threads and conventional representations
o Screw threads
o Threads for power transmission
o Draughting conventions associated with threads
o Multiple threads
o The application of thread conventions
o Tapping drill
o Clearance drill
* Chapter 16. Nuts, bolts, screws and washers
o Drawing nuts and bolts
o Approximate construction for nuts and bolts (Figs 16.2 and 16.3)
o Machine screws
o Machine screw nuts
o Wing nuts
o Locking and retaining devices
o Thread-cutting screws
* Chapter 17. Keys and keyways
o Sunk keys
o Woodruff keys
o Dimensioning keyways (parallel keys)
* Chapter 18. Worked examples in machine drawing
o 1 Bushed bearing bracket
o 2 Drill table
o 3 Cam operated clamp
o 4 Plug cock
o 5 Air engine
o 6 Toolbox
o Solution notes
* Chapter 19. Limits and fits
o Elements of interchangeable systems (Fig. 19.9)
o Unilateral and bilateral limits
o Bases of fits
o Selected ISO fits hole basis (extracted from BS 4500)
o Interpretations of limits of size in relation to form
* Chapter 20. Geometrical tolerancing and datums
o Geometrical tolerances
o Datums
o Dimensioning and tolerancing non-rigid parts
* Chapter 21. Application of geometrical tolerances
o Straightness
o Flatness
o Circularity (roundness)
o Cylindricity
o Profile tolerance of a line
o Profile tolerance of a surface
o Parallelism
o Perpendicularity (Squareness)
o Angularity
o Circular run-out
o Total runout
o Position
o Concentricity and coaxiality
o Symmetry
* Chapter 22. Maximum material and least material principles
o Maximum material condition (MMC)
o Least material condition (LMC)
o Maximum material condition related to geometrical form
o Maximum material condition applied to straightness
o Maximum material condition applied to squareness
o Maximum material condition applied to position
o Maximum material condition applied to coaxiality
o Maximum material condition and perfect form
o The application of maximum material condition and its relationship with perfect form and squareness
o The application of maximum material condition and its relationship with perfect form and coaxiality
o The application of maximum material condition to two mating components
* Chapter 23. Positional tolerancing
o True-position (theoretical exact) dimensioning
* Chapter 24. Cams and gears
o Cam followers
o Cam follower motions
o Dimensioning cams
o Spur gears
o Spur-gear terms (Fig. 24.15)
o Involute gear teeth proportions and relationships
o Typical example using Professor Unwin s approximate construction
o Helical gears
o Bevel gears
o Bevel-gear terms and definitions
o Worm gearing
* Chapter 25. Springs
o Plain-carbon steels
o Alloy steels
o Stainless steels
o High-nickel alloys
o Copper-base alloys
o Compression springs
o Flat springs
o Torsion springs
o Leaf springs
o Helical extension springs
o Disc springs
o Spring specifications
o Wire forms
o Corrosion prevention
o Fatigue conditions
* Chapter 26. Welding and welding symbols
o The application of welding symbols to working drawings
* Chapter 27. Engineering diagrams
o General engineering graphical symbols
o Engineered systems
o Heating, ventilation and air conditioning systems
o Refrigeration systems and energy-saving applications
o Pneumatic systems
o Pneumatics and electronics
* Chapter 28. Bearings and applied technology
o Plain bearings
o Ball and roller bearings
o Application of bearings
o Seals
o Lubrication
o General convention and simplified representation
* Chapter 29. Engineering adhesives
o Designing for adhesives
o The bond line
o Typical bonded joints
o Engineering applications
o Instant adhesives
o Structural applications
* Chapter 30. Related standards
o The British Standards Institution
o International Organization for Standardization (ISO)
* Chapter 31. Production drawings
o Further Standards for design, project and risk management of interest to engineers and manufacturers
* Chapter 32. Drawing solutions
* Index

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Manual of Engineering Drawing, Third Edition:
Technical Product Specification and Documentation to British and International Standards
By Colin Simmons, Dennis Maguire, Neil Phelps

• Publisher: Butterworth-Heinemann
• Number Of Pages: 336
• Publication Date: 2009-05-27
• ISBN-10 / ASIN: 0750689854
• ISBN-13 / EAN: 9780750689854

.

Product Description:
The Manual of Engineering Drawing has long been the recognised as a guide for practicing and student engineers to producing engineering drawings and annotated 3D models that comply with the latest British and ISO Standards of Technical Product Specifications and Documentation.

This new edition has been updated to include the requirements of BS8888 2008 and the relevant ISO Standards, and is ideal for International readership; it includes a guide to the fundamental differences between the ISO and ASME Standards relating to Technical Product Specification and Documentation. Equally applicable to CAD and manual drawing it includes the latest development in 3D annotation and the specification of surface texture. The Duality Principle is introduced as this important concept is still very relevant in the new world of 3D Technical Product Specification.

Written by members of BSI and ISO committees and a former college lecturer, the Manual of Engineering Drawing combines up to the minute technical information with clear, readable explanations and numerous diagrams and traditional geometrical construction techniques rarely taught in schools and colleges. This approach makes this manual an ideal companion for students studying vocational courses in Technical Product Specification, undergraduates studying engineering or product design and any budding engineer beginning a career in design.

The comprehensive scope of this new edition encompasses topics such as orthographic and pictorial projections, dimensional, geometrical and surface tolerancing, 3D annotation and the duality principle, along with numerous examples of electrical and hydraulic diagrams with symbols and applications of cams, bearings, welding and adhesives.

* The definitive guide to draughting to the latest ISO and ASME standards
* An essential reference for engineers, and students, involved in design engineering and product design
* Written by two ISO committee members and practising engineers

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Geometric and Engineering Drawing, Second Edition
By K. Morling

• Publisher: Butterworth-Heinemann
• Number Of Pages: 270
• Publication Date: 1974-12-15
• ISBN-10 / ASIN: 0713133198
• ISBN-13 / EAN: 9780713133196

Product Description:

Geometric and Engineering Drawing is an established text suitable for GCSE and basic engineering courses. This book aims to cover the whole range of subject matter relevant to introductory courses in technical drawing, with diagrams free of irrelevant information and a large number of examples of an appropriate standard, many of them taken from past examination papers.

Topics are introduced in a logical order so that all the necessary background knowledge will already have been presented before any particular problem or technique is discussed. Both first-angle and third-angle projection are used, although third-angle predominates, reflecting its increased acceptance in industry and education

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Geometric and Engineering Drawing, Third Edition (Elsevier Insights)
By K. Morling

• Publisher: Elsevier
• Number Of Pages: 360
• Publication Date: 2010-08-12
• ISBN-10 / ASIN: 008096768X
• ISBN-13 / EAN: 9780080967684

Product Description:
The new edition of this successful text describes all the geometric instructions and engineering drawing information that are likely to be needed by anyone preparing or interpreting drawings or designs with plenty of exercises to practice these principles.

• Fully revised and updated
• Includes the latest recommendations in BS308, the British Standards Institution publication about engineering drawing practices
• Clear illustrations and exercises provide opportunities to practice the learning

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Engineering Drawing for Manufacture
(Manufacturing Engineering Modular Series)by: Brian Griffiths

• Publisher: Butterworth-Heinemann
• Number Of Pages: 150
• Publication Date: 2002-10-06
• Sales Rank: 1534027
• ISBN / ASIN: 185718033X
• EAN: 9781857180336

Book Description: The processes of manufacture and assembly are based on the communication of engineering information via drawing. These drawings follow rules laid down in national and international standards. The organisation responsible for the international rules is the International Standards Organisation (ISO). There are hundreds of ISO standards on engineering drawing because drawing is very complicated and accurate transfer of information must be guaranteed. The information contained in an engineering drawing is a legal specification, which contractor and sub-contractor agree to in a binding contract. The ISO standards are designed to be independent of any one language and thus much symbology is used to overcome any reliance on any language. Companies can only operate efficiently if they can guarantee the correct transmission of engineering design information for manufacturing and assembly.

This book is a short introduction to the subject of engineering drawing for manufacture. It should be noted that standards are updated on a 5-year rolling programme and therefore students of engineering drawing need to be aware of the latest standards. This book is unique in that it introduces the subject of engineering drawing in the context of standards

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Engineering Drawing
By Shan/Rana

• Publisher: Pearson
• Number Of Pages:
• Publication Date: 2002
• ISBN-10 / ASIN: 8131709442
• ISBN-13 / EAN: 9788131709443

22.9 MB
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