Engineering Drawing-II for Mechanical Students
Course Description
Auxiliary views; Skew and inclined planes; Surface intersections; Developed views; Preferred numbers;
Fits and tolerances; Machine components; Structural drawings; Assembly drawings; Fundamentals of
computer graphics and the use of Soildworks computer drafting software.
Credit Hours 3
Prerequisites by Course
GE-104 (Basics of Engineering drawing and Computer graphics)
Prerequisites by Topic
1.
2.
3.
Geometric constructions.
Orthographic and pictorial views.
Sectional views.
Textbook(s)/ Required Material
1.
2.
3.
Introduction to Soild Modeling using SoildWorks, Howard, W. E. and Musto, J. C., McGraw Hill,
2007
Engineering Drawing and Graphic Technology, French T. E., Charles J. V. and Foster R. J. 2.
Fundamentals of Graphic Communications, Bertoline G. R. and Wiebe E. N.
Course Topics
1.
2.
3.
4.
5.
6.
7.
Types of sections
Machining operations, surface roughness, fits and limits.
Structural drawing- types of steel sections, welding & riveting
Auxiliary Views of inclined and oblique surfaces
Intersections of a plane with solid, intersection of two standard geometric solids at right angles
and at an given angle
Development of prisms and cylinders, cones and other shapes.
Assembly Drawing – screws nuts, bolts, washers and other locking devices, keys, pins, shafts &
pulleys, brackets and bearings, springs and gears.
Course Objectives
1.
2.
3.
4.
5.
To familiarize the students with the basics of Mechanical Engineering drawing.
To enable the students understand the elements of 3D visualization.
Introduce students to the techniques of technical graphics so that the design ideas can be
communicated and produced.
Introduce students to visual and written standard requirements related to the industry.
Develop the technical skills to produce Engineering drawing using AutoCAD.
Course Outcomes
1.
2.
3.
4.
5.
Students are able to understand the description of Surface Roughness, Surface Finish, Limits
and Tolerances.
Learn and familiarize with common drawing notations, such as rivets, welding etc.
Familiarize with development and Intersections of basic geometric models (eg. Prism, cylinder
and cone).
Students will understand requirements and Technical specifications of standard parts.
Students will be able to produce working drawings according to the industry standards.
6.
7.
8.
Students will be able to draw the needed views of assembly drawings showing all the details.
Students will be able to apply technical graphic principles to many engineering applications.
Students can produce working and assembly drawings using SoildWorks.
Class/Laboratory Schedule
One 90-minute lecture sessions and one 150-minute practice/lab sessions per week.
Computer Applications
SoildWorks Laboratory Class work and Home work to Meeting the Professional Component Interpret and
draw Engineering drawings.
Assessment Tools
1.
2.
3.
4.
Class Works
Home Works
Two mid term exams
Final Exam
Grade Distrbution
Class work
Home Work
First Exam
Second Exam
Final Exam
Wieght
Date
Time
Day
15
15
15
15
40
Weekly
Weekly
xx/xx/1431H
xx/xx/1431H
To Be Determined
In Class
In Class
1:00PM
1:00PM
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Sun/Tu
Sun/Tu
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