Inelastic Web Crushing Performance Limits of High-Strength-Concrete Structural Walls (NEES-2005-0078)
Category
Uncategorized
Published on
Aug 04, 2017
Abstract
Title: Inelastic Web Crushing Performance Limits of High-Strength-Concrete Structural Walls (NEES-2011-0078)
Year Of Curation: 2011
Description: Recent research findings indicate that the design of high-capacity shear walls with stable ductile behavior is possible if rational failure modes that can effectively make use of the high strength and crack control properties provided by high-performance concrete are taken into account. The evaluation of dependable limits on the web crushing behavior of high-strength con-crete wall elements within the performance-based framework will allow designers to achieve higher strength for less weight, reduced material use, and lower life-cycle costs due to improved durability to adverse environmental effects.This NEESR-II-05 project has as a goal to establish acceptable limits on the elastic and inelastic shear strength of structural walls and structural wall assemblies. These limits, which are expected to be much higher than current code prescriptions, may permit the design a new generation of low-weight and low-reinforced concrete members and the integration of performance-based criteria into standard design vocabulary for structural walls.
Award: http://www.nsf.gov/awardsearch/showAward?AWD_ID=0530634
PIs & CoPIs: Rigoberto Burgueno, Eric Hines
Dates: July 10, 2000 - October 02, 2008
Organizations:
Michigan State University, MI, United States
Tufts University, MA, United States
University of California, San Diego, CA, United States
University of Minnesota-Twin Cities, MN, United States
Facilities:
Michigan State University, MI, United States
Tufts University, MA, United States
University of California, San Diego, CA, United States
University of Minnesota-Twin Cities, MN, United StatesSponsor: NSF - 0530634
Keywords: High-Strength Concrete,Reinforced Concrete,Structural Walls,Web Crushing
Publications:
"Final Research Report on HSC Wall Assemblies"
"Final Research Report on HSC Cantilever Walls"
"Final Research Report on Finite Element Analysis of HSC Structural Walls"
Cite this work
- Rigoberto Burgueno, Eric Hines (2017), "Inelastic Web Crushing Performance Limits of High-Strength-Concrete Structural Walls (NEES-2005-0078)," https://datacenterhub.org/deedsdv/publications/view/497.