Senior Design
We are always looking for new partners in industry, research, and academia. If you have a project you believe would be a good fit for a senior design team, complete the form below.
CREATe – Capstone Realization of Engineering and Technology
CREATE is an option to the required senior capstone design course that allows significant participation by industry, and as such, adds a professional element into the course offering. Students have many options for their senior design project, including industry-provided projects, undergraduate competition teams and faculty-defined projects. CREATE provides funding for project materials, student travel to client site, overhead for the student machine shop and graduate teaching assistants who work with faculty to guide the students through the design process. An engineering liaison from the client company will interact directly with the students in design meetings to provide the industry perspective. And companies gain insight into potential future employees by working with the students over a 30-week period.
Mechanical engineering students are a hard working group. Senior design is a 2-semester six-credit hour course sequence, which translates to a required 10 hours of work per student per week outside of the classroom for 30 weeks. If you consider a typical team of five students and the 30 weeks that they are enrolled in the class, you can expect 1350 hours of effort towards your project during the academic year. Many students work significantly more hours towards the end of the academic year as they take ownership of the project.
Since the project spans two academic semesters (August — May), it is best to come up with a problem that is important to the company, but not urgent for the scope of the project. Ideally, product development projects or machine design projects are sought; those that require a broad engineering skill-set along with creativity and business sense. Students will be required to write three reports and make four presentations with feedback from the client, faculty advisor and industry panel guiding their progress. A final poster event is also required where student teams, faculty, and industry members celebrate, showcase and evaluate accomplishments.
In the CREATE program students can use funds to travel to the client site for visits and plant tours. Client visits to campus are encouraged for the mid-term and final presentations and for other major milestones. Students will meet weekly with their faculty advisor and graduate teaching assistant (GTA), guiding them in the engineering design process. During these meetings, an engineering liaison from the company will be asked to join via telecon or in person so that the company’s perspective is represented. Generally, the closer the client is located to the Blacksburg campus, the more frequent, but likely shorter the visits. More distant clients can expect longer but less frequent visits. Students are taught the value of face-to-face contact with clients, whether the project demands intensive on-site activity or not. As a rough guideline, you should consider the following minimum expectations. For more distant projects that involve air travel, the arrangements are subject to your budget:
In terms of technical areas your project might cover, the list below is a good starting point for the types of projects we seek. One of the novel aspects of the CREATE program is that it encourages multidisciplinary projects, where engineering students from other disciplines are enrolled and receive senior design credit through their participation in the Mechanical Engineering program. This can include students from various disciplines such as Materials Engineering, Engineering Science and Mechanics, Electrical Engineering and Civil Engineering.
Students individually can explore the senior design projects that are available through a course enrollment website, and select their top choices, submit a resume for review and are matched with a project team. In this sense, your project will be competing with all other senior design projects for an interested group of students. A maximum enrollment limit is set by mutual agreement between the faculty advisor and client (usually 5 – 8 students). In the submission form, you can specify particular requirements. The most common requirement is US Citizenship in the case of sensitive projects. Of course, the more requirements you place on a team’s make- up, the less likely it is that a team will meet the requirements. All projects must have all three design elements: DESIGN, BUILD & TEST.
- Automation
- Autonomous systems
- Biomechanics, biological systems engineering
- Design for assembly / disassembly
- Design for manufacture
- Dynamics and controls
- Energy production and delivery
- Ergonomics or human factors engineering
- Green engineering
- Human-computer interaction
- Human-systems integration
- Material handling
- Product design or development
- Robotics
- Structural design
- System design or redesign
- Systems Engineering
- Transportation technologies
- Thermal and fluid systems
- Turbomachinery design
The coordinator of the capstone program will periodically prompt you for evaluations of the team. You will be involved in grading since; after all, you are the customer. Quick and easy standardized forms will be provided. There are fixed milestones such as developing customer requirements, monthly progress reports and a final report, but you can request more frequent updates from the team, including in-house briefings. While the coordinator will prompt you for feedback, you certainly don’t need to wait if a concern or conflict arises. Contact the coordinator at any time should such concerns or questions emerge. For major deliverables, the client (customer satisfaction), advisor (technical), and a review panel (normalization) provide input for grading. In addition to reports and presentations, the students will construct a working prototype that must be demonstrated.
The CREATE affiliates are invited to participate in the presentations at the end of the Fall and Spring Semesters, the poster event showcase at the end of the Spring semester, and will have a chance to attend other senior design presentations as well. The days dedicated to the final presentations and poster showcase also provide companies an opportunity to network with their Affiliate partners as well as with other student design teams. This is a great opportunity to explore the depth of research projects that are possible at VT, with faculty and graduate students on hand to answer questions.
APPLIED Lab
Advanced Product Prototyping Lab in Engineering Design
It is a 3100 sq. ft machine shop, electrical lab, and project work space for the Capstone design project teams for building functioning prototypes and final fabrications for the companies. It is located in the Old Military building near VT Rescue.
Machine Shop Equipment:
Manual mill, manual lathe, metal cutting vertical band saw, wood cutting vertical band saw, horizontal band saw, CNC router table, CNS laser cutter/engraver, multiple drill presses, bench grinder, stick/TIG welding machine, stationary belt and disc sander, 3-in-1 sheet metal machine, arbor press, miter saw, scroll saw, pipe bender.
Electrical Equipment:
Solder stations, oscilloscopes, voltage supplies (DC), data acquisition equipment, digital scale, digital multimeter.
Project Space Assignment:
The lab has space to accommodate 15 industry-sponsored teams. Each team gets a dedicated workbench.
Ware lab
Students involved in a Ware Lab undergraduate project may gain card access to the lab after meeting the lab’s training requirements. NO graduate level work can be conducted in the facility.
Joshua Sole
Professor of Practice / Senior Design Director
VT Mechanical Engineering
(540) 231-9932
jsole@vt.edu