Bachelor of Science in Technology Studies (Manufacturing Technology)

Hours: 120 On-Campus

About

The Bachelor of Science in Technology Studies (Manufacturing Technology) program at Fort Hays State University provides students with a comprehensive education in modern manufacturing processes and technologies. The curriculum emphasizes hands-on learning through applied technology courses, equipping students with practical skills directly relevant to the manufacturing industry. Key topics covered include safety, materials, manufacturing processes, computer-aided design (CAD), and computer numerical control (CNC) programming.

The program features a regularly updated curriculum that reflects the latest advancements and trends in manufacturing technology. By focusing on real-world applications, it prepares graduates to enter the workforce as manufacturing managers, CNC operators, and other skilled professionals. Additionally, the program’s affiliation with the Association of Technology, Management, and Applied Engineering (ATMAE) ensures that its educational standards align with industry expectations.

Why pursue a Bachelor of Science in Technology Studies (Manufacturing Technology) at Fort Hays State University?

The B.S. in Technology Studies (Manufacturing Technology) program distinguishes itself through its comprehensive and hands-on approach to education. Combining theoretical knowledge with practical experience, the program emphasizes applied technology courses and real-world projects that prepare students for immediate success in the manufacturing industry.

Accredited by the Association of Technology, Management, and Applied Engineering (ATMAE), the program meets rigorous industry standards, ensuring that graduates are workforce-ready. Students have access to state-of-the-art facilities and modern manufacturing equipment, gaining valuable experience with the tools and technologies currently used in the field.

The curriculum is continuously updated to reflect the latest advancements in manufacturing, providing students with relevant, up-to-date skills.

Who is this program for?

The program is designed for individuals who are passionate about manufacturing and eager to develop the skills necessary to succeed in the industry. It is particularly well-suited for:

Aspiring manufacturing managers
Individuals interested in CNC programming
Students seeking hands-on learning experiences
Those aiming for a career in modern manufacturing
Professionals looking to update their skills with the latest technology
Anyone passionate about innovation in manufacturing

Real-World Applications

This program prepares students for real-world careers through extensive hands-on learning and internship opportunities. Practical projects, designed to simulate real manufacturing environments, allow students to apply theoretical concepts in meaningful, industry-relevant ways. This experiential approach ensures that graduates are knowledgeable and equipped with the practical experience needed to navigate the challenges of today’s manufacturing workplace.

The curriculum encompasses key areas, including safety, materials, manufacturing processes, and CNC programming. By integrating these topics into applied projects and internships, students gain a comprehensive understanding of the manufacturing field. Graduates emerge as skilled professionals, ready to make a positive impact from day one. With its strong emphasis on real-world application, the program ensures students are well-prepared to meet industry demands immediately upon graduation.

Stay Ahead of the Curve

The curriculum is continuously updated to reflect the latest advancements and trends in the manufacturing industry. New materials, technologies, and processes are regularly integrated into coursework, ensuring that students gain the most current and relevant knowledge. This commitment to staying at the forefront of the field enables graduates to remain competitive in a rapidly evolving manufacturing landscape.

Students engage in cutting-edge technologies and advanced manufacturing practices, as well as emerging developments in materials science. This forward-looking approach ensures graduates are prepared to meet the demands of modern manufacturing and are positioned to drive innovation within the industry. By emphasizing current trends and technological advancements, the program equips students with the adaptability and insight needed to thrive in a dynamic, ever-changing environment.

Hands-on Activities

The B.S. in Technology Studies (Manufacturing Technology) program places a strong emphasis on experiential learning. Nearly all applied technology courses feature hands-on activities that enable students to practice and refine their skills actively. This hands-on approach is further enhanced by internships and field courses, giving students valuable real-world experience and the opportunity to apply their knowledge in professional settings.

Throughout the program, students participate in projects that cover a wide range of manufacturing processes, including computer-aided design (CAD), CNC programming, and machine operation. These practical experiences enhance students’ understanding and equip them to transition smoothly into the workforce. The program’s focus on experiential learning is a key factor in its success at producing career-ready professionals.

What You’ll Learn:

Mastery of manufacturing processes and technologies
Skills in computer-aided design and CNC operation
Knowledge of safety standards and material properties
Understanding of modern manufacturing trends and advancements
Ability to apply theoretical knowledge in practical settings

How You’ll Learn:

Hands-on training in modern manufacturing techniques
Applied technology classes with practical projects
Real-world experience through internships and field courses
Coursework in safety, materials, and CAD
Training in CNC programming and operation

Courses

The core curriculum encompasses essential areas, including safety, materials, manufacturing processes, and digital design. Students also gain practical experience with CNC programming and operation. This blend of theory and hands-on training provides a solid foundation for understanding modern manufacturing and its real-world applications, ensuring students are well-prepared for industry challenges.

TECS 180: Materials, Processes, and Production

This course is designed to introduce students to the materials, processes, and production of usable goods in a competitive, technological, and global society, encompassing the construction and manufacturing industries.

TECS 318: Introduction to Computer-Aided Drafting

An introduction to the fundamentals of a CAD operating system. Including the introduction to CAD features, title blocks and templates, CAD standards relating to drawing format and printing (mechanical, engineering, architectural, civil, etc.), drawing and editing basic shapes, computer aided drafting systems, operating techniques, text, dimensioning, model space and paper space, 2D and 3D environments, and the production of professional drawings using the CAD operating system.

TECS 430: Computer-Aided Manufacturing

This course is designed to study the operation and programming of machines that are controlled by a computer. This course develops entry-level skills and introduces the theory of computer numerical control (CNC).

Discover the full Bachelor of Science in Technology Studies (Manufacturing Technology) course listing by visiting the Academic Catalog

Career Prospects

Graduates have diverse career opportunities across multiple sectors of the manufacturing industry. With a strong emphasis on practical skills and real-world applications, the program ensures that graduates are thoroughly prepared to enter the workforce and excel in their chosen fields.

Manufacturing Manager

Manufacturing managers oversee production, manage staff, and ensure that processes are efficient. They lead operations, maintain quality standards, and drive continuous improvements to meet targets and boost productivity.

CNC Operator

CNC operators run and maintain CNC machines to produce precision components. They perform routine inspections, troubleshoot issues, and ensure smooth machining processes, playing a key role in supporting product accuracy and quality.

CNC Programmer

CNC programmers develop and test programs for CNC machines to optimize efficiency and ensure parts meet specifications. Skilled in CAD software, they create detailed instructions and collaborate with engineers and machinists to improve production processes.

Quality Control Inspector

Quality control inspectors ensure that products meet quality standards by conducting inspections and tests throughout the production process. They develop procedures, identify defects, and address non-conformities to maintain product quality and customer satisfaction. This role requires attention to detail and a strong understanding of quality assurance practices.

Production Supervisor

Production supervisors oversee daily production activities, coordinate with various departments, and ensure schedules are maintained. They manage staff, ensure safety and quality standards, and optimize processes. Responsible for training workers and resolving issues, they work to meet production goals on time and within budget.

The Best Value in Higher Education Anywhere

Fort Hays State University prides itself on quality education at an affordable price. Students in this program can expect to pay approximately $3,055.95* (on-campus) per semester.

*Estimated cost based on 15 credit hours at the Undergrad resident/regional tuition rate ($203.73/credit hour) for on-campus courses. Actual price may vary depending on course load and location. Tuition and Fees are subject to change as they are approved by the Kansas Board of Regents each year.

Ready for the next step?

Our faculty would be excited to talk to you about how our department programs can help you explore your interests and prepare you for a variety of rewarding careers.

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Related Programs

Students interested in the B.S. in Technology Studies (Manufacturing Technology) program may also explore the following related programs:

FAQ

What classes are required for this program?

Core courses include safety, materials, manufacturing processes, CAD, and CNC programming.

What hands-on activities are included in the program?

The program includes applied technology classes, internships, and field courses with practical projects that provide hands-on experience.

How does the B.S. in Technology Studies (Manufacturing Technology) stay current with industry trends?

The curriculum is regularly updated with new materials and processes to reflect the latest advancements in manufacturing technology.

Are there any certifications associated with this program?

The program is affiliated with the Association of Technology, Management, and Applied Engineering (ATMAE).

What career opportunities are available after graduation?

Graduates can pursue careers as manufacturing managers, CNC operators, CNC programmers, quality control inspectors, and production supervisors.

Information about the Department of Applied Technology

The Department of Applied Technology at FHSU offers a well-rounded education that integrates liberal arts with technical coursework. Its academic programs combine theoretical knowledge with hands-on experience, equipping students with the academic, technical, and leadership skills essential for success in both educational and industrial settings.

Through practical learning opportunities using the latest technology, students develop confidence, adaptability, and problem-solving abilities. This preparation ensures graduates are ready to excel in current careers and adapt to the evolving demands of future technological advancements.

Student Organizations

While earning a degree remains the primary focus, college life offers much more than classroom learning. Students are encouraged to participate in extracurricular activities that foster leadership skills, deepen their understanding of their chosen careers, and provide opportunities to make a positive impact in their communities.

TEECA: Technology and Engineering Education Collegiate Association (TEECA) is a pre-professional organization that offers students opportunities to enhance their experience, skills, and knowledge in areas such as teamwork, technical design, problem-solving, and project management. Members gain increased exposure to technology through participation in competitions and conferences at the chapter, state, regional, and international levels.
TEECA’s mission is to promote leadership and fellowship among its members through coordinated activities and events. FHSU’s TEECA chapter has earned numerous championships in regional and national competitions. Students are encouraged to join and become part of this dynamic and accomplished community known as the “black shirts.”
Associated General Contractors (AGC) student chapter: The Associated General Contractors (AGC) student chapter at FHSU plays a vital role in connecting students with the construction industry. In partnership with the Associated General Contractors of Kansas, the chapter offers numerous opportunities to develop essential skills in project management, teamwork, and technical expertise.

Members participate in industry-specific activities, challenges, and networking events, gaining practical experience that prepares them for careers in construction. The AGC student chapter is committed to fostering leadership and professional growth, equipping students to excel in construction management. Students are encouraged to join and become part of a community dedicated to excellence in the construction industry.

Manufacturing Technology

Certificate
Bachelor's

On-Campus

Manufacturing Technology