Engineering Drawing
CAD/CAM
University of Akron
Abdullah-Al-Amin
Jae-Won Choi
Engineering Drawing
Summary
Features to be covered
Exploring the Drawing Mode Environment
Layout of the interface
Exploring the ribbon tabs and drawing tree
Dimension types (m
Fundamentals on Engineering Graphics
Name: _
Student ID#: _ Due: Feb 7 (Th)
Late homework will NOT be accepted. All pages of your homework assignment must be
stapled together. They are expected to be neat and readable. The paper used must be
8x11 and of g
HW1 Solutions
1. Use the dimensions provided.
2. Use an approximate scale.
3.
4.
5. Sketch the sectional view as indicated. The material of the part is Steel.
6. Sketch the sectional view as indicated. The material of the part is Rubber.
7. Fill in the gi
HW2 Curves (due by Feb 15-Wed)
Note 1: ONLY hand-writing is accepted!
Note 2: No late HW will be accepted. Class meeting in Feb 16 is reserved for problem
solving.
1. Two lines with their end points are shown on the right.
a. Find the parametric equations
HW3 Chapter 7 (due by March 14)
Note: Hand-writing is ONLY accepted!
1. Find the parametric equation of a ruled surface. Also find the tangent and
twist vectors of the surface.
2. Find the equation of the Hermite bicubic surface that is defined by the fou
u = linspace(0,1,25);
% Old problem 4 condition
figure(1)
plot(4.216,4.63,'o')
hold on
plot(4.648,4.72,'o')
hold on
plot(4,4,'o')
hold on
plot(4,5,'o')
hold on
plot(5,5,'o')
hold on
plot(5,4,'o')
hold on
axis([3 6 3 6])
plot([4 4],[4 5],'r')
hold on
plot(
1/28/2016
AMC Lecture 3: Mohrs Circle Plane Stress
Reading: Riley Chapter 2.11
Last lecture we derived a number of equations: Plane stress, principal
stresses, max shear stres, etc
A graphical method can be used to determine these important
quantities:
De
2/11/2016
Stress-Strain Relationships and Hookes Law
Reading: Riley Chapter 4.1-4.4
Force vs deformation, e.g., the
tensile test
Strains typically measured using
strain gages or extensometers
e.g., see: https:/www.youtube.com/watch?v=D8U4G5kcpcM
AMC Spr
2/2/2016
Displacement, Deformation and Strain
Displacement of
Deformation of line
=
AMC Spring 2016 Lectures 4-5 - Strain and Strain Measure
1
1
2/2/2016
Normal Strain
= , deformation
Strain = deformation / unit length
=
=
L
L*
=
Axial strai
1/26/2016
Stress
Transformation and
Principal Stresses:
Chapters 2.9-2.10
= 0 = + +
= 0 = +
AMC Spring 2016 (Chuang) - Stress Transformation
1
1
1/26/2016
x y
2
n
x y
2
x y
2
nt
= 2 +2 2
=0 2 =
2
sin 2 xy cos 2 ( 2)
3
= +
+ 90 are pr
2/9/2016
Stress Concepts
Stress intensity of force
Normal and shear stresses
We are interested in knowing stress in a given
planes/orientation so that we can determine if the
material can take it
Plane Stress
Principle stresses and maximum shear stre
Emre Erturul
20824006
Emin ahin
20824259
Sekin Gke
20824044
KMU 396
Material Science and Technology
Electron
Spectroscopy for
chemical analysis,
ESCA and Auger
Electron
Spectroscopy, AES,
Outline of Lecture
ESCA
Introduction
-advantages,
-disadvantages
Pr
Electron Spectroscopies
of InN grown by HPCVD
Rudra P. Bhatta
Solid State Physics (Physics - 8510)
Fall 2005
Department of Physics and Astronomy
Georgia State University
Atlanta, Georgia
Outline
Motivation: InN and its application
InN sample grown by HP
Methods and Tehniques in
Surface Science
Prof. Dumitru LUCA
Alexandru Ion Cuza University, Iasi, Romania
Outline
Auger Electron Spectroscopy (AES) short historic and physical
background,
How AES measurements are performed,
Information derived from Auge
Auger Electron Spectroscopy
(AES)
1
Brief History
Auger Effect discovered in
1920s
Meitner published first
journal
Auger transitions
considered noise at first
1953-JJ Lander
Characterization of solids
today
2
Three Steps of Auger Electron Spectroscop
University of Akron
Consent to Participate & Release of Liability
I, the undersigned, do hereby state that I wish to participate in activities sponsored by
_, a registered student organization at the Univer
Corrosion Monitoring Systems and Sensors to Track
Material Durability in Concrete Structures
Rev 3
October 2013
LIST OF REVISIONS
Rev
No.
3
Date
Oct 2013
Revision Details
Author(s)
Issued by
Updated with new products
Steve Lyon
Tom Gooderham
Pete Aylott
T
Statistical Analysis of
Zinc Coated Washers
Purpose of the Experiment
Determine how many centimeters
of zinc and layers of zinc atoms
are present on the surface of a
galvanized steel washer.
What is Corrosion?
Natural process of deterioration of metals an
Torsional Loading of Shafts (Ch. 6:1-4)
Tr dF dA
For circular shafts (solid
or hollow), plane section
before twisting remains
plane after twisting and
diameter remains
straight not true for
other shapes
AMC Spring 2016 - Lecture 13 Torsion
1
1
Examples of
Thick-walled Cylindrical Pressure vessels (Chapter 5-10)
Thick wall is defined by a shell with the ratio of wall thickness to
radius of curvature larger than 0.1. (t/r > 0.1 or r/t < 10)
2
2
(r+dr)(+d)dqdL rdqdL 2t d dL sin(dq/2) = 0
For small angles,
2/18/2016
AMC Lectures 7 & 8: Materials and their
properties
Different classes
of materials
Why different?
How to design?
Materials Selection in Mechanical Design 4th Edition, M. Ashby (Elsevier, 2010)
AMC Spring 2016 Lecture 7 -Material Properties
1
1
Thin Walled Pressure Vessels
If wall is thin enough, normal
stress through-thickness is
nearly constant
If t < 0.1r, max normal s on inside
wall is < 5% greater than avg
AMC Spring 2016 - Lecture 9 Pressure Vessels
1
1
Spherical
= =
Biaxial stress
sta
Torsional NonCircular Sections
(Ch. 6:11)
=
2
=
3
Corners have zero t
Maximum t at midpoint of a side
AMC Spring 2016 - Lecture 16 Torsion Non-Circ & Thin Wall Tube
1
1
= 25 ; = 28
6-120
a
75
a
40
Find
400 mm
=
2 = 75 40
a) Tmax
b) q
2
=
3
= 2
Shrink Fitting
Laminated, thick-walled cylinder formed
by shrinking outer cylinder over an inner
cylinder increases load carrying ability
of assembly by developing initial state of
compressive tangential stress in the inner
cylinder and tangential tensile