
Wood is an amazing building material: It is beautiful and warm to the touch. It is easy to machine and abundantly available. It is light, yet strong and stiff and has a favorable strength-to-weight ratio. Best of all: It comes from a renewable source. Compared with other building materials, it is friendliest to the environment. To build with wood, however, requires an understanding of its peculiarities: the variability of its properties, its interaction with water and the possibility of bio-deterioration.
Examples of historic wood use in architecture can be seen in numerous mill buildings, covered wooden bridges and houses that date back centuries. More recently, a number of large-scale structures have been completed in wood – often with a favorable cost in comparison with competing materials. Examples are Shigeru Ban’s Centre Pompidou in Metz, Renzo Piano’s facade for Peek & Cloppenburg in Cologne, the Richmond Ice Oval for the 2010 Winter Olympics or the Austria House in Whistler, built to strict passive-house standards.
The Wood Engineering specialization in the Sustainable Building Systems graduate concentration in Environmental Conservation provides the practitioner or returning student a platform for studying wood as a building material. Depending on your needs, choose between these graduate programs:
- Thesis/Dissertation-based M.S. or Ph.D. program. This research-based graduate program requires students to complete a research-based thesis/dissertation in addition to coursework. Interested students need to contact a potential faculty advisor (see list below) before applying.
- Professional M.S. program. This 1-2 year program does not require a research-based thesis. Students complete a number of courses, which can include a practicum. Interested students can find out more about this option on the Professional Master’s page.
Fields of Study
- Properties of wood (structural and physical) as they pertain to building products made from wood
- Engineering design of wood (NDS-compliant wood design)
- Connections for wood structures
- Advanced wood components such as wood-concrete systems
- CAD/CAM-based design and fabrication of wood structures
- Natural resources issues related to extraction of wood and fabrication of wood products
- Business of building materials distribution
Who Should Enroll?
- Engineers who want to broaden their materials knowledge to include the complex and rewarding material wood.
- Architects seeking an in-depth understanding of the natural building material wood and its possibilities.
- Other building professionals who want to become experts in an efficient material that is once again rising in popularity.
Faculty Advisors
Peggi Clouston – Wood and bio-based engineering, structural composite modeling
Munkaila Musah – Wood products and natural building materials
Alexander Schreyer – Wood engineering, timber connections and BIM/CAD/CAM design
To Learn More and Apply
Follow the links on our Graduate Studies page.