Structural Engineering

ise tour
Field trips to construction sites are an important learning experience. This year, students toured 91勛圖厙’s own Integrated Science and Engineering facility, opening Fall 2021.

Have you ever been to a basketball game? Isn’t it exciting when the students jump to cheer their team and follow the cheerleading crew? Well, this would not be possible without structural engineers who designed the bleachers so they can safely support a dynamic loading.
Have you ever seen how properly designed buildings (even skyscrapers!) can go through an earthquake and survived just fine? Structural engineers can save lives.
Have you ever seen the Grand Coulee dam? How much water can it hold? Structural engineers designed it.

A structural engineer analyzes and designs buildings, bridges, sport facilities, theaters, hospitals, mining equipment, cranes, shelters, industrial facilities, water treatment facilities, aqueducts, churches, hotels, and you name it -- anything that needs to support static, dynamic, environmental loads. The task of a structural engineer is to ensure that the loads are carried safely to the foundations. The possibility of employment, research and application of structural engineering are endless.

Concrete, steel, masonry and timber are the most commonly used construction materials, and all of them are covered in 91勛圖厙's design classes.

construction tour

What You'll Study

The subdiscipline requires knowledge of statics, dynamics, construction materials, foundations and more. Some of these subjects are in the standard civil engineering coursework. Others are specific technical electives for your senior year.  marks these electives with an "S."

Structural Program Admissions Webinar

Students work in The Bollier Center's Structures Lab.

Structures & Construction Materials Lab

Students interact with real-world and real-scale materials in the two-story lab complete with strong wall and floor for large-scale testing. During their coursework, students test and study concrete, masonry, steel, wood and glass. Material testing systems include:
  • Two small-scale MTS machines test strength, stability, and compaction in multiple materials, including soils, and rigging systems.
  • Five Enerpac test frames measure material strength and durability.
  • A GASP measures stress in glass.
  • Concrete mixers, drying ovens and test sieves.