Manufacturing Process Engineering
Why study Manufacturing Process Engineering?
$101,140
Average annual salary for professionals in Engineering Technology in Manufacturing.
Bureau of Labor Statistics
8%
Projected job growth in Engineering Technology in Manufacturing between 2022 and 2032.
Bureau of Labor Statistics
6,700
Annual job openings expected from replacement or industry growth between 2023 and 2033.
Bureau of Labor Statistics
What does a graduate in Manufacturing Process Engineer do?
You will gain a solid theoretical and practical foundation to manage, design, and optimize production systems in diverse industrial environments.
As a graduate, your mission will be to plan, develop, and improve manufacturing processes that are efficient, sustainable, and technologically advanced—boosting business productivity and contributing to the industrial growth of your country.
At Arkansas State University Queretaro, you will be prepared to specialize in different areas of modern manufacturing. You will acquire the tools needed to lead production processes, optimize operations, and apply technological solutions within cutting-edge industrial environments.
Take the first step toward your professional future and begin your engineering career today.
Live the University
Double Degree
Valid in México and the United States
Classes 100% in English
With a multicultural team of teachers
American University Model
The first US university in México
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Our Student Testimonials
Labor Field Where Can Manufacturing Process Engineers Work?
- Siemens
- Safran
- Visteon
- Bombardier
- BMW
- Nissan
- Brose
- Mars
Aspire, Dream, Realize Global Leaders in Manufacturing Process Engineering of the 21st Century:
Elon Musk
Chief Executive Officer and Product Architect of Tesla, Inc.; Founder of The Boring Company; and Co-Founder of Neuralink and OpenAI.
Revolutionized the automotive and aerospace manufacturing industries through automation, advanced robotics, and a comprehensive vision of sustainable engineering.
James Dyson
Founder and Chief Executive Officer of Dyson Ltd.
A pioneer in product design and advanced manufacturing, known for integrating mechanical, electronic, and industrial design engineering.
Lisa Su
CEO of AMD
An electrical engineer who has driven high-performance semiconductor production by combining technical expertise with strategic leadership.
Jeff Wilke
Former CEO of Worldwide Consumer, Amazon
A chemical engineer who implemented automated manufacturing and logistics systems, applying engineering principles to global operations management.
Learning Outcomes
- Identify, formulate, and solve engineering problems related to manufacturing processes by applying principles of engineering, science, mathematics, and technology
- Design, optimize, and manage efficient and sustainable manufacturing systems, considering quality, safety, productivity, and environmental responsibility
- Communicate effectively with multidisciplinary teams, clients, and suppliers using technical language and advanced digital tools
- Fulfill professional responsibilities with ethics, leadership, and social commitment, evaluating the global, economic, and environmental impact of engineering decisions
- Collaborate effectively in diverse teams, promoting innovation, inclusion, and continuous improvement to achieve common goals
- Use advanced technologies such as cad/cam, robotics, automation, and data analysis to design and enhance industrial processes
- Engage in continuous, self-directed learning, adapting to technological and industrial advances to maintain professional competitiveness in a globalized environment
Degree Plan
General Education
- Making Connections
- College Algebra
- Precalculus Mathematics
- Composition I
- Composition II
- Oral Communication
- Physical Science Option
- Physical Science Option Laboratory
- Life Science Option
- Life Science Option Laboratory
- Fine Arts
- Humanities
- Social Sciences Options
Manufacturing Technologies Engineering Program
- Technical Writing
- Organizational Behavior
- Fundamentals and Applications of Renewable Energy
- Principles of Technology
- Statistics
- Industrial Safety
- Operations Systems Research
- Quality Assurance
- Lean 6 Sigma for Manufacturing
- Work Center Management
Emphasis Area (Manufacturing & CAD)
- Concepts of Programming
- Project Management and Practice
- Software Application for Engineers
- Calculus I
- Solid Modelling for Mechanical Engineers
- Concepts of Programming
- Software Application for Engineers
- Technical Graphics and Solid Edge
- Advance Solid Edge
- Advance Technology NX
- Manufacturing Materials and Processes
- Tool Design
- Statics
- Computer Numeric Control
- Motion and Time Study