Salah Sarhat, Ph.D.
Assistant Professor
- Milwaukee WI UNITED STATES
Dr. Salah Sarhat teaches in MSOE's Civil & Architectural Engineering & Construction Management Department.
Education, Licensure and Certification
Ph.D.
Civil Engineering
Carleton University
2016
M.S.
Structural Engineering
University of Technology, Iraq
1996
B.S.
Building and Construction Engineering
University of Technology, Iraq
1992
Biography
Sarhat is dedicated to world-class education. His teaching style combines solid theoretical knowledge with hands-on experience. He lived and taught in different countries, developing a broad international and cultural understanding that enables him to work and collaborate within a diverse, multicultural contemporary society. Sarhat has extensive experience teaching engineering mechanics, building materials, mechanics of solids, structural analysis, reinforced concrete design, masonry, wood, and steel structures, design of foundations, construction management, and building science.
Sarhat's research interests lie at the intersection of structures and materials. He has considerable research and industry experience in sustainable structural and materials engineering, reinforced concrete and masonry, structural fire design, building science, and design and rehabilitation of bridges.
Areas of Expertise
Accomplishments
Outstanding Paper Awards (Honorable Mention) 12th North American Masonry Conference (NAMC)
2015
Teaching Assistant Excellence Award, Civil and Environmental Engineering Department at Carleton University
2012
Outstanding Paper Awards (Honorable Mention), 11th North American Masonry Conference (NAMC)
2011
Vanbots Construction and Ferguson-Neudorf Glass Scholarship in Recycling
2011, 2012
John Adjeleian Graduate Scholarship
2010
Ontario Graduate Scholarship (OGS)
2011, 2012, and 2013
Certificate of Graduate University Teaching Skills (GUTS), Carleton University
2009
Research Interests
Strength and durability of concrete and masonry made with recycled aggregates
Natural building materials for construction (compressed earth blocks, straw bale, and transparent wood), structural
fire performance of ultra-high-performance concrete (UHPC), using carbon-sequestering additives
in cement, mortar, and concrete production, and rehabilitation of existing bridges.
Selected Publications
The Use of Recycled Aggregates in the Production of Concrete Masonry Units: - A Critical Review and a Statement on the Current Research Needs
Masonry2022
Concrete block masonry units (CBMUs) are the most commonly used building material in the construction industry. However, CBMUs are still produced from conventional materials like natural aggregates. Aggregate materials normally occupy about 70% of the CBMU volume. The excessive extraction of virgin aggregate depletes natural resources, destroys the habitats of many species, and affects the natural flow of streams in water bodies.
Bond Strength between the Steel Reinforcement and RCA Concrete during and after Exposure to Elevated Temperatures
Construction and Building Materials Journal2022
Studies exist on the performance of recycled concrete aggregate (RCA) concrete under different loading conditions at both material and structural levels. However, less attention has been directed to studying the bond strength between steel reinforcement and RCA concrete, especially when exposed to elevated temperatures. This paper presents an extensive experimental study on the bond response of RCA concrete during and after exposure to elevated temperatures.
Use of Fine Recycled Aggregate Derived from Block Plants Waste in Production of Concrete Masonry Blocks
14th Canadian Masonry Symposium.2021
Increased demand for natural aggregate exploits natural resources and has adverse environmental impacts. One solution to address the growing construction waste challenge is adopting large-scale recycling of concrete waste into aggregates. The use of coarse recycled aggregates in masonry blocks is a well-studied topic; however, little attention has been directed to study the use of fine recycled aggregates (FRCA) in masonry blocks. Concrete blocks are manufactured in a controlled environment that produces wastes in the form of culled or broken blocks.
