A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Blast Performance of Single-Span Precast Concrete Sandwich Wall Panels
A research program was conducted to assess the capability of conventional non-load-bearing insulated precast concrete exterior wall panels to withstand blast loadings. Typical construction details from the tilt-up and prestressed concrete industries were examined. The sensitivity of insulation type, reinforcement, foam thickness, and shear tie type on the flexural resistance was assessed. Forty-two single-span static experiments were conducted on 14 different panel designs. From the results of these experiments, resistance functions and deformation limits for insulated concrete sandwich panels were determined. The resistance functions were used to develop predictive dynamic models for panels subjected to blast demands. The models were found to be accurate in comparison to measurements from four full-scale blast detonations. The findings of the research indicate that both prestressed and non-prestressed insulated concrete wall panels meet current rotational limits defined by the U.S. Army Corps of Engineers for protective structures. Simplified methods for modeling the pressure-deformation characteristics of insulated panels can be used to approximate the peak dynamic deformation and reaction loads.
Blast Performance of Single-Span Precast Concrete Sandwich Wall Panels
A research program was conducted to assess the capability of conventional non-load-bearing insulated precast concrete exterior wall panels to withstand blast loadings. Typical construction details from the tilt-up and prestressed concrete industries were examined. The sensitivity of insulation type, reinforcement, foam thickness, and shear tie type on the flexural resistance was assessed. Forty-two single-span static experiments were conducted on 14 different panel designs. From the results of these experiments, resistance functions and deformation limits for insulated concrete sandwich panels were determined. The resistance functions were used to develop predictive dynamic models for panels subjected to blast demands. The models were found to be accurate in comparison to measurements from four full-scale blast detonations. The findings of the research indicate that both prestressed and non-prestressed insulated concrete wall panels meet current rotational limits defined by the U.S. Army Corps of Engineers for protective structures. Simplified methods for modeling the pressure-deformation characteristics of insulated panels can be used to approximate the peak dynamic deformation and reaction loads.
Blast Performance of Single-Span Precast Concrete Sandwich Wall Panels
Naito, Clay (author) / Beacraft, Mark (author) / Hoemann, John (author) / Shull, Jonathan (author) / Salim, Hani (author) / Bewick, Bryan (author)
2014-06-12
Article (Journal)
Electronic Resource
Unknown
Blast Performance of Single-Span Precast Concrete Sandwich Wall Panels
| British Library Online Contents | 2014
Precast Concrete Wall Panels : Flexural Stiffness of Sandwich Panels
| UB Braunschweig | 1965
Precast concrete insulated sandwich panels
| British Library Online Contents | 2004
Precast concrete insulated sandwich panels
| Online Contents | 2004