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H ARTFORD C IVIC C ENTRE A RENA R OOF C OLLAPSE.
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B Y G ROUP 11: S TEPHEN D ENT -N EVILLE S EÁN K EANE E OIN N ORTON
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Background 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Background Constructed in 1973. Housed a basketball court and seating for 5,000 spectators. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Background Collapsed on the 18 th of January 1978. Large snowstorm had caused heavy loading. Just 5 hours after a fully attended game. No injuries. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design and Construction 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design and Construction Used an innovative space frame technology. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design and Construction Used an innovative space frame technology. Required using a complicated, expensive and innovative computer program. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design and Construction Used an innovative space frame technology. Required using a complicated, expensive and innovative computer program. Saved half a million dollars. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design and Construction Roof spanned 91.44m x 109.72m. 25.29m above the ground. Completely assembled on the ground. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design and Construction Proposed Roof: Horizontal steel bars with 6.4m spacing. 9.14m diagonal members. Braced by an intermediate layer. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design Flaws 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design Flaws There were numerous design flaws associated with the space frame roof. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design Flaws Insufficient resistance to buckling. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design Flaws Insufficient resistance to buckling. The slenderness ratio of the built up diagonals violated section 1.18.2.4. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design Flaws Insufficient resistance to buckling. The slenderness ratio of the built up diagonals violated section 1.18.2.4 (AISC). Another violation was that bolt holes punching through some members exceeded 85% of the gross area. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design Flaws Dead loads were underestimated by more than 20%. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design Flaws Dead loads were underestimated by more than 20%. Under design led overloading in members: - East & West face exterior top layer compression: 852% overloaded; - North & South face exterior compression members: 213% overloaded; - Interior East-West compression members: 72% overloaded. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Design Flaws Dead loads were underestimated by more than 20%. Under design led overloading in members: - East & West face exterior top layer compression: 852% overloaded; - North & South face exterior compression members: 213% overloaded; - Interior East-West compression members: 72% overloaded. Computer model incorrectly assumed all of the top chords were laterally braced. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Collapse 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Collapse When built, deflection was twice predicted value. Engineers said such deviations from initial analysis were to be expected. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Collapse When built, deflection was twice predicted value. Engineers said such deviations from initial analysis were to be expected. Unusual deflections were noticed numerous times: –Inspection company; –Subcontractor; –Member of public. All were ignored. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Collapse Collapsed in less than 10 seconds. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Collapse Collapsed in less than 10 seconds. Multiple causes given: –Inadequate top chord bracing; –Torsional buckling of compression members; –Faulty weld connection. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Collapse Collapsed in less than 10 seconds. Multiple causes given: –Inadequate top chord bracing; –Torsional buckling of compression members; –Faulty weld connection. All of the above can be attributed to a lack of redundancy. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Conclusions 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Conclusions Use of untested, non-conventional design and computer analysis. –Design extremely susceptible to buckling (not analysed by computer). 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Conclusions Use of untested, non-conventional design and computer analysis. –Design extremely susceptible to buckling (not analysed by computer). Cost cutting led to inadequate inspection and quality control: –No on-site engineer. –Connections weren’t assembled according to the design. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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Conclusions Use of untested, non-conventional design and computer analysis. –Design extremely susceptible to buckling (not analysed by computer). Cost cutting led to inadequate inspection and quality control: –No on-site engineer. –Connections weren’t assembled according to the design. Unexpected deflections were overlooked. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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References G. C. Andrews (2008), Canadian Professional Engineering and Geoscience: Practice and Ethics. Martin, Rachel, and Delatte, Norbert J. (1999), Another Look at Hartford Civic Center Coliseum Collapse. Norbert J. Delatte, Beyond failure: forensic case studies for civil engineers. Levy, Matthys and Salvadori, Mario (1992), Why Buildings Fall Down: How Structures Fail. Salvadori, Mario, Why Buildings Stand up. 21/10/2011Hartford Civic Centre Roof CollapseGroup 11
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H ARTFORD C IVIC C ENTRE A RENA R OOF C OLLAPSE. Group 11: Stephen Dent-Neville Sean Keane Eoin Norton
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