Department

Civil/Architectural Engineering Department

First Advisor

Dr. Jennifer Tanner

Description

Autoclaved Aerated Concrete (AAC) is a lightweight, cellular, precast building material capable of providing structural, thermal and fire resistance. Desig n provisions for AAC masonry were introduced in the 2005 masonry design code (MSJC), but these design provisions do not reference experimental testing of grouted reinforced AAC lintels. The hypothesis is that lightly reinforced and grouted AAC lintels, d esigned according to current masonry design provisions (MSJC), will be conservative. A suite of 12 lintels were tested to confirm this hypothesis. There were ten beams (lintels) to validate flexural behavior and two to validate shear behavior. Companion ma terial tests were conducted on the AAC, grout, thin - bed mortar, and reinforcing bars to provide accurate values for evaluating the theoretical strength. Results of observed - to - calculated capacity showed that the average beam strength was 30% better than th at predicted using MSJC design provisions. All data verified that AAC lintels can indeed behave in a ductile manner.

Comments

Oral Presentation, Wyoming NSF EPSCoR

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Strength Testing of Reinforced Autoclaved Aerated Concrete Lintels

Autoclaved Aerated Concrete (AAC) is a lightweight, cellular, precast building material capable of providing structural, thermal and fire resistance. Desig n provisions for AAC masonry were introduced in the 2005 masonry design code (MSJC), but these design provisions do not reference experimental testing of grouted reinforced AAC lintels. The hypothesis is that lightly reinforced and grouted AAC lintels, d esigned according to current masonry design provisions (MSJC), will be conservative. A suite of 12 lintels were tested to confirm this hypothesis. There were ten beams (lintels) to validate flexural behavior and two to validate shear behavior. Companion ma terial tests were conducted on the AAC, grout, thin - bed mortar, and reinforcing bars to provide accurate values for evaluating the theoretical strength. Results of observed - to - calculated capacity showed that the average beam strength was 30% better than th at predicted using MSJC design provisions. All data verified that AAC lintels can indeed behave in a ductile manner.