1. 1059 Windsor rd.
Terre haute ,IN 47802
United State

2. Table of Contents
1. Introduction
2. Education
3.Experience
4.CAD & Pro-E Examples
5.Invovlment
6.References

3. Introduction
I have constructed this portfolio to provide a more extensive level of detail to the skills, abilities, and projects I have obtained and
completed to prepare myself for starting my professional career. These are detailed documents and informational pages of my
experiences in the engineering field through my academic pursuits. Please feel free to review the information contained in this portfolio.
If you have any questions or comments do not hesitate to contact me at your earliest convenience.
This association with mechanical engineering technology has been obtained through academic studies at Indiana State University and
related work experience.
My academic and professional experience at this time include but are not limited to:
CAD and Software Knowledge
3D Design and Drafting
Engineering Standards
Geometric Dimensioning and Tolerance ANSI Y14.5
Mechanical Engineering Technology Analysis
Manufacturing and Production Processes
Engineering Design Project Management
In the following documents, I have provided information that demonstrates my knowledge and abilities through educational and
professional experiences, project work, and references. I hope my portfolio is sufficient enough to give you an ample view and insight
of my work. Please feel free to contact any of the references I have listed for future reference.

4. Education
Indiana State University
College of Technology 650 Cherry St. Terre Haute, IN 47809
Currently approaching a Bachelors in Science Degree. Graduating December of 2015
Major: Mechanical Engineering Technology ABET Accredited Program
Minor: Advanced Manufacturing Management
Accumulative GPA: 2.84/4.00
Major GPA: 2.75/4.00
Minor GPA: 3.17/4.00

5. Related Courses
MET 413
Applications and Gaging of Geometric Dimensioning and Tolerancing
The ISO and ANSI technical graphic standards are studied and applied to assemblies with specific design
requirements. The course primarily addresses methods of calculating positional and the geometric form tolerances.
Methods of verifying the geometric controls by gaging and inspection are also studies.
MET 403
Advanced Computer Aided Design (CAD) Concepts (Pro-Engineer Wildfire)
In this course, subject matter relevant to CAD in today’s industry will be identified. The student will gain the
knowledge necessary to conceptualize the system-user relationship. The completion of the required learning tasks
will ensure the student’s comprehension of each concept. These tasks are arranged in a hierarchy that will build the
student’s ability to apply the concepts presented. Students will progress from two-dimensional drafting system to
three-dimensional modeling systems.
MET 299
CAD Fundamentals (AutoCAD)
This course provides an understanding of the practical aspects of a variety of PC CAD software packages.
Emphasis is placed on applying of the software to the student’s area of study.
MET 306
Applied Mechanisms
Analysis of motion, displacement, velocities, accelerations, friction wheels, instant centers, gears, belts, chains,
linkages, and connectors.

6. MET 408
Elements of Machine Design
A survey of the important elements in tools and machines, working stress, shafting, springs, screw, clutches, brakes,
lubrication, bearings, gears, cylinders, flywheels, and cams.
MFG 225
Introduction to Materials, Processes, and Testing
A study of the properties of materials which make them suitable for manufacturing applications. The major
emphasis is on ceramic, plastic, and metallic materials found in current manufacturing processes.
MET 302
Applied Statics
Resultants and equilibrium, force systems, reactions, moments, couples, trusses, frames, sheaves, pulleys, and
friction. Graphic and analytic methods.
MET 304
Engineering Analysis
Introduction to the analysis of engineering problems including dynamics and thermodynamics using calculus based
methods. Emphasis is given to the understanding of basic concepts and principles as well as the application of
related analysis in mechanical and manufacturing engineering.

7. MFG 370
Fundamentals of Manufacturing Process
Theory and laboratory experiences dealing with basic machining and chip forming processes, inspection, cutting,
computer-assisted numerical control, and newly developed processes.
MET 404
Engineering Design and Management
This course introduces fundamental concepts and principles used in the implementation and management of
engineering design projects or processes. Topics include design communication, problem definition, concept
generation, concurrent engineering, economic evaluation, project planning, and decision making in engineering
design management.
MET 405
Economic Analysis for Engineering and Technology
This course is designed to provide students with the principles of investment economic analysis, decision-making
among alternatives, and replacement analysis. Inflation, depreciation, cost concepts, bond, and income tax
considerations are included.
MET 406
Strength of Materials
Centroids, moment of inertia of areas, stress, deformation, engineering materials, pressure vessels, torsion,
stresses in beams and shafts, design of beams and shafts, combined stress, and columns.

8. MAT 123
Analytic Geometry and Linear Algebra for Engineers
Two and three dimensional analytic geometry using rectangular, polar, cylindrical, and spherical coordinates. The study
of lines, planes, conic sections, polynomials, exponential and logarithmic functions, and vectors. Elements of linear
algebra including matrices, determinants, and systems of linear equations with an emphasis on problem solving and
applications.
MATH 301
Fundamentals and Applications of Calculus
Inequalities, polynomial functions, logs, and exponentials. Differential and integral calculus and applications. For
students in social sciences, business, and other applied areas.
MATH 115
College Algebra and Trigonometry
Polynomial equations, systems of linear equations, translations, reflections, symmetry, functions, graphs, lines, and conic
sections, mathematical induction, and trigonometric functions.
MET 215
Graphic Analysis
Graphically and analytically solving technical mathematical problems commonly encountered by engineers and
technologists utilizing elements of algebra, geometry, trigonometry, and statistics.

9. Work as a volunteer at Saudi students
association of Saudi Culture Mission,
Canada, (2010 – 2011)
Cristal global Company, Mechanical
Technician at: Yanbu - Saudi Arabia,
December 2009.

10. • Pro-Engineering Wildfire 5.0 Solid
Modeling
• AutoCAD 2010
• Microsoft Office
• Microsoft Project
• Insight(3-D Printer)

17. American Society of Mechanical
Engineers
Indiana State University Section.

18. Academic
Todd E. Alberts- Instructor
Mechanical Engineering Technology
Indiana State University
Terre Haute, IN 47809
Myers Tech Building Office TC201D
PH: (812) 237-3357
FX: (812) 237-9676
Todd.Alberts@indstate.edu
M. Affan Badar- Professor & AETM Dept. Chair
Mechanical Engineering Technology
Indiana State University
Terre Haute, IN 47809
Myers Tech Building Office TC201E
PH: (812) 237-3982
FX: (812) 237-9676
M.Affan.Badar@indstate.edu

19. I would like to thank you for reviewing my documents and information based
off of this visual portfolio. I hope the data given will be sufficient in providing
you with enough evidence of my abilities and knowledge. Reviewing the
history of a candidate’s work can resolve any mystery of the ethics and skills
that were acquired during the era previous to the interview, and how the
candidate will engage in opportunities of the future.
Please feel free to contact me at your earliest convenience if you have any
comments or questions about the included documents.
Thank you for your time,