Bachelor of Science in Manufacturing (Manufacturing Engineering)

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The Bachelor of Science in Manufacturing (Manufacturing Engineering) is the only four-year degree program in manufacturing engineering in western Pennsylvania.

It examines methods to design, plan, develop, improve, and manage the machinery, processes, and systems that produce the products we see and use on a daily basis. Students learn about materials, processes, assembly methods, production equipment, systems capabilities, and quality standards that ensure products meet customers' expectations. With the 4+1 integrated degree program, students can go on to earn an M.S. in Engineering Management with only one additional year of study.

Graduates go on to work in engineering, aerospace, general contracting, energy, manufacturing, and transportation. Jobs include field engineer, project engineer, quality control engineer, consultant, and project manager.

The Bachelor of Science in Manufacturing Engineering is accredited by the Engineering Accreditation Commission of ABET, https://www.abet.org.

ABET

Contact Information

Won Joo, Ph.D. 
Department Head, Engineering  
joo@rmu.edu
412-397-4026 phone 

Ergin Erdem, Ph.D., CMfgE 
Coordinator, Industrial and Manufacturing Engineering
erdem@rmu.edu
412-397-3532 phone

4-Year Course Plan

Freshman Year, Fall

  • Intro to Engineering
  • Calculus w/ Analytic Geometry I
  • Chemistry I with lab
  • Programming
  • Intercultural Communication/Reading & Writing Strategies

Freshman Year, Spring

  • Engineering Graphics
  • Calculus w Analytic Geometry II
  • General Physics I with lab
  • Argument & Research

Sophomore Year, Fall

  • Statics & Strength of Materials
  • Engineering Statistics
  • Calculus w Analytic Geometry III
  • General Physics II with lab
  • Public Speaking & Persuasion

Sophomore Year, Spring

  • Value Design
  • Circuits & Electromagnetics
  • Production Engineering
  • Differential Equations
  • Fundamentals of Accounting

Junior Year, Fall

  • Intro to Quality Engineering
  • Manufacturing Planning & Control
  • Linear Algebra w/ Applications
  • Survey of Economics
  • Professional Communication in Workplace

Junior Year, Spring

  • Robotics & Automation
  • Product & Tool Design
  • Management Theory & Practice
  • Principles of Marketing
  • Contemporary American Social Problems or similar

Senior Year, Fall

  • Engineering Practice
  • Manufacturing Engineering Elective
  • Manufacturing Engineering Elective
  • Humanities: Art & Music
  • World Literature or similar

Senior Year, Spring

  • Integrated Engineering Design
  • Device Control
  • Simulation
  • General Psychology
  • U.S. History I or similar
Additional Program Details

Program Educational Objectives

Five years after graduation, RMU manufacturing engineering graduates should: 

  • Be technically competent manufacturing engineers.
  • Be hands-on practitioners of manufacturing engineering.
  • Possess strong understanding of business and, strong team and communications skills.
  • Be well-prepared to embrace the continuous learning necessary to practice manufacturing engineering over their entire professional lifetimes.
  • Have a strong understanding of engineering ethics.

Student Outcomes

Until 2018-2019 Academic year

At the time of graduation, the graduate should have:

  • an ability to apply knowledge of mathematics, science, and engineering.
  • an ability to design and conduct experiments, as well as to analyze and interpret data.
  • an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
  • an ability to function on multi-disciplinary teams.
  • an ability to identify, formulate, and solve engineering problems.
  • an understanding of professional and ethical responsibility.
  • an ability to communicate effectively.
  • the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context.
  • recognition of the need for, and an ability to engage in life-long learning.
  • knowledge of contemporary issues.
  • an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.
  • proficiency in materials and manufacturing processes and understand the behavior and properties of materials as they are altered and influenced by processing in manufacturing.
  • proficiency in process, assembly and product engineering and understand the design of products and the equipment, tooling, and environment necessary for their manufacture.
  • an appreciation for the necessity for manufacturing competitiveness and understand how to create competitive advantage through manufacturing planning, strategy and control.
  • the ability to design manufacturing systems through the analysis, synthesis, and control of manufacturing operations using statistical and calculus based methods, simulation, and information technology.
  • laboratory experiences which enable them to measure manufacturing process variables and make technical inferences about them.

From 2019-2020 Academic Year to Present 

At the time of graduation, the graduate should have:  

  • an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
  • an ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
  • an ability to communicate effectively with a range of audiences
  • an ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
  • an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
  • an ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
  • an ability to acquire and apply new knowledge as needed, using appropriate learning strategies
  • proficiency in materials and manufacturing processes and understand the behavior and properties of materials as they are altered and influenced by processing in manufacturing.
  • proficiency in process, assembly and product engineering and understand the design of products and the equipment, tooling, and environment necessary for their manufacture.
  • an appreciation for the necessity for manufacturing competitiveness and understand how to create competitive advantage through manufacturing planning, strategy and control.
  • the ability to design manufacturing systems through the analysis, synthesis, and control of manufacturing operations using statistical and calculus based methods, simulation, and information technology.
  • laboratory experiences which enable them to measure manufacturing process variables and make technical inferences about them.

Enrollment and Graduation Data

  • 2022-2023: 2 new admission, 19 enrolled, 2 graduated
  • 2021-2022: 3 new admission, 19 enrolled, 5 graduated
  • 2020-2021: 9 new admission, 16 enrolled, 4 graduated
  • 2019-2020: 6 new admission, 30 enrolled, 16 graduated
  • 2018-2019: 6 new admission, 41 enrolled, 29 graduated
  • 2017-2018: 5 new admission, 85 enrolled, 45 graduated
  • 2016-2017: 2 new admission, 110 enrolled, 19 graduated

Sample Courses:

These are some of the classes for students in this academic program:

Robotics & Automation
Product & Tool Design
Production Engineering
Major Credits
79
Engineering, Math, Physics
Core Credits
41
Communication Skills, Economics, Humanities, History, Sciences, etc.
Elective Credits
6

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