Handbook for blast-resistant design of buildings / edited by Donald O. Dusenberry.

Contributor(s): Dusenberry, Donald O
Publisher: Hoboken, New Jersey : John Wiley & Sons, Inc., [2010]Publisher: c2010Description: xxi, 484 pages : illustrations, 25 cmContent type: text Media type: unmediated Carrier type: volumeISBN: 9780470170540 (cloth); 0470170549 (cloth)Subject(s): Building, BombproofDDC classification: 693.8/54 LOC classification: TH1097 | .H36 2010
Contents:
Preface. Contributors. I DESIGN CONSIDERATIONS. 1 General Considerations for Blast-Resistant Design (Donald O. Dusenberry). 1.1 Introduction. 1.2 Design Approaches. 1.3 The Blast Environment. 1.4 Structure As an Influence on Blast Loads. 1.5 Structural Response. 1.6 Nonstructural Elements. 1.7 Effect of Mass. 1.8 Systems Approach. 1.9 Information Sensitivity. 1.10 Summary. References. 2 Design Considerations (Robert Ducibella and James Cunningham). 2.1 Introduction. 2.2 A New Paradigm for Designing Blast-Resistant Buildings, Venues, and Sites. 2.3 A Brief History of Recent Terrorist Attacks. 2.4 Collaborating to Analyze Risk. 2.5 Consequence Management. 2.6 Threat Reduction. 2.7 Vulnerability Reduction. 2.8 Risk Acceptance. 2.9 Some Recent Examples of Security Design "Best Practices". 2.10 Related Phenomena. 2.11 Security Design Consideration Guidelines. 2.12 Conclusion. References. 3 Performance Criteria for Blast-Resistant Structural Components (Charles J. Oswald). 3.1 Introduction. 3.2 Building and Component Performance Criteria. 3.3 Response Parameters. 3.4 Empirical Correlations between Response Parameters and Component Damage. 3.5 Response Criteria Development. 3.6 Response Criteria Limitations. References. 4 Materials Performance (Andrew Whittaker and John Abruzzo). 4.1 Introduction. 4.2 Structural Steel. 4.3 Reinforced Concrete. 4.4 Strength-Reduction Factors for Steel and Reinforced Concrete. References. 5 Performance Verification (Curt Betts). 5.1 Introduction. 5.2 Performance Verification. 5.3 Testing. 5.4 Analysis. 5.5 Peer Review. References. II BLAST PHENOMENA AND LOADINGS. 6 Blast Phenomena (Paul F. Mlakar and Darrell Barker). 6.1 Introduction. 6.2 Sources of Blasts. 6.3 Characteristics of Blast Waves. 6.4 Prediction of Blast Parameters. 6.5 Summary. References. 7 Blast Loading (Paul F. Mlakar and William Bounds). 7.1 Introduction. 7.2 Empirical Method. 7.3 Front Wall Loads. 7.4 Side Wall and Roof Loads. 7.5 Rear Wall Loads. 7.6 Confined Explosions. 7.7 Leakage. 7.8 Ray-Tracing Procedures. 7.9 Summary. References. 8 Fragmentation (Kim King). 8.1 Introduction. 8.2 Debris. 8.3 Loadings. 8.4 Design Fragment Parameters. 8.5 Fragment Impact Damage. III SYSTEM ANALYSIS AND DESIGN. 9 Structural Systems Design (Robert Smilowitz and Darren Tennant). 9.1 General Discussion. 9.2 Modeling. 9.3 Analytical Approaches. 9.4 Progressive Collapse. References. 10 Building Envelope and Glazing (Eve Hinman and Christopher Arnold). 10.1 Design Intent. 10.2 Design Approach. 10.3 Fenestration. 10.4 Exterior Walls. 10.5 Roof Systems. 10.6 Below Grade. 10.7 Reduction of Blast Pressures. References. 11 Protection of Spaces (MeeLing Moy and Andrew Hart). 11.1 Areas Isolating Interior Threats. 11.2 Stairwell Enclosures. 11.3 Hardened Plenums. 11.4 Safe Havens. References. 12 Defended Perimeter (Joseph L. Smith and Charles C. Ellison). 12.1 Goals. 12.2 Standoff. 12.3 Vehicle Control Barriers. 12.4 Pedestrian Control Barriers. 12.5 Blast Walls and Berms. References. 13 Blast-Resistant Design of Building Systems (Scott Campbell and James Ruggieri). 13.1 Background. 13.2 Introduction. 13.3 Design Considerations. 13.4 Loading Calculation. 13.5 Summary. References. IV BLAST-RESISTANT DETAILING. 14 Blast-Resistant Design Concepts and Member Detailing (Steven Smith and W. Gene Corley). 14.1 General. 14.2 Failure Modes. 14.3 Detailing. References. 15 Blast-Resistant Design Concepts and Member Detailing: Steel (Charles Carter). 15.1 General. 15.2 Blast Effects on Structural Steel and Composite Structures. 15.3 Analysis and Design of Structural Members. 15.4 Steel Material Properties for Blast Design. 15.5 Design Criteria for Blast Design. 15.6 Examples. 15.7 Design of Connections. References. 16 Blast-Resistant Design Concepts and Member Detailing: Masonry(Shalva Marjanishvili). 16.1 General Considerations. 16.2 Failure Modes. 16.3 Reinforced Masonry Detailing. 16.4 Unreinforced Masonry. References. 17 Retrofit of Structural Components and Systems (John E. Crawford and L. Javier Malvar). 17.1 Introduction. 17.2 Retrofit of Columns. 17.3 Retrofit of Walls. 17.4 Floors. 17.5 Beams/Girders/Connections. 17.6 Structural System. 17.7 References. References. Index.
Summary: Written by the Chair of the ASCE committee, H andbook for Blast Resistant Design of Buildings is a design-oriented companion to the new ASCE Blast Protection of Buildings standard. With contributions from twenty-seven experts, this text provides methods that satisfies the new standard and the existing ASCE, ACI, AISC codes.
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GENERAL REFERENCE 		693.854 H1913 2010 (Browse shelf) Available CITU-CL-47791
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Includes bibliographical references and index.

Preface. Contributors. I DESIGN CONSIDERATIONS. 1 General Considerations for Blast-Resistant Design (Donald O. Dusenberry). 1.1 Introduction. 1.2 Design Approaches. 1.3 The Blast Environment. 1.4 Structure As an Influence on Blast Loads. 1.5 Structural Response. 1.6 Nonstructural Elements. 1.7 Effect of Mass. 1.8 Systems Approach. 1.9 Information Sensitivity. 1.10 Summary. References. 2 Design Considerations (Robert Ducibella and James Cunningham). 2.1 Introduction. 2.2 A New Paradigm for Designing Blast-Resistant Buildings, Venues, and Sites. 2.3 A Brief History of Recent Terrorist Attacks. 2.4 Collaborating to Analyze Risk. 2.5 Consequence Management. 2.6 Threat Reduction. 2.7 Vulnerability Reduction. 2.8 Risk Acceptance. 2.9 Some Recent Examples of Security Design "Best Practices". 2.10 Related Phenomena. 2.11 Security Design Consideration Guidelines. 2.12 Conclusion. References. 3 Performance Criteria for Blast-Resistant Structural Components (Charles J. Oswald). 3.1 Introduction. 3.2 Building and Component Performance Criteria. 3.3 Response Parameters. 3.4 Empirical Correlations between Response Parameters and Component Damage. 3.5 Response Criteria Development. 3.6 Response Criteria Limitations. References. 4 Materials Performance (Andrew Whittaker and John Abruzzo). 4.1 Introduction. 4.2 Structural Steel. 4.3 Reinforced Concrete. 4.4 Strength-Reduction Factors for Steel and Reinforced Concrete. References. 5 Performance Verification (Curt Betts). 5.1 Introduction. 5.2 Performance Verification. 5.3 Testing. 5.4 Analysis. 5.5 Peer Review. References. II BLAST PHENOMENA AND LOADINGS. 6 Blast Phenomena (Paul F. Mlakar and Darrell Barker). 6.1 Introduction. 6.2 Sources of Blasts. 6.3 Characteristics of Blast Waves. 6.4 Prediction of Blast Parameters. 6.5 Summary. References. 7 Blast Loading (Paul F. Mlakar and William Bounds). 7.1 Introduction. 7.2 Empirical Method. 7.3 Front Wall Loads. 7.4 Side Wall and Roof Loads. 7.5 Rear Wall Loads. 7.6 Confined Explosions. 7.7 Leakage. 7.8 Ray-Tracing Procedures. 7.9 Summary. References. 8 Fragmentation (Kim King). 8.1 Introduction. 8.2 Debris. 8.3 Loadings. 8.4 Design Fragment Parameters. 8.5 Fragment Impact Damage. III SYSTEM ANALYSIS AND DESIGN. 9 Structural Systems Design (Robert Smilowitz and Darren Tennant). 9.1 General Discussion. 9.2 Modeling. 9.3 Analytical Approaches. 9.4 Progressive Collapse. References. 10 Building Envelope and Glazing (Eve Hinman and Christopher Arnold). 10.1 Design Intent. 10.2 Design Approach. 10.3 Fenestration. 10.4 Exterior Walls. 10.5 Roof Systems. 10.6 Below Grade. 10.7 Reduction of Blast Pressures. References. 11 Protection of Spaces (MeeLing Moy and Andrew Hart). 11.1 Areas Isolating Interior Threats. 11.2 Stairwell Enclosures. 11.3 Hardened Plenums. 11.4 Safe Havens. References. 12 Defended Perimeter (Joseph L. Smith and Charles C. Ellison). 12.1 Goals. 12.2 Standoff. 12.3 Vehicle Control Barriers. 12.4 Pedestrian Control Barriers. 12.5 Blast Walls and Berms. References. 13 Blast-Resistant Design of Building Systems (Scott Campbell and James Ruggieri). 13.1 Background. 13.2 Introduction. 13.3 Design Considerations. 13.4 Loading Calculation. 13.5 Summary. References. IV BLAST-RESISTANT DETAILING. 14 Blast-Resistant Design Concepts and Member Detailing (Steven Smith and W. Gene Corley). 14.1 General. 14.2 Failure Modes. 14.3 Detailing. References. 15 Blast-Resistant Design Concepts and Member Detailing: Steel (Charles Carter). 15.1 General. 15.2 Blast Effects on Structural Steel and Composite Structures. 15.3 Analysis and Design of Structural Members. 15.4 Steel Material Properties for Blast Design. 15.5 Design Criteria for Blast Design. 15.6 Examples. 15.7 Design of Connections. References. 16 Blast-Resistant Design Concepts and Member Detailing: Masonry(Shalva Marjanishvili). 16.1 General Considerations. 16.2 Failure Modes. 16.3 Reinforced Masonry Detailing. 16.4 Unreinforced Masonry. References. 17 Retrofit of Structural Components and Systems (John E. Crawford and L. Javier Malvar). 17.1 Introduction. 17.2 Retrofit of Columns. 17.3 Retrofit of Walls. 17.4 Floors. 17.5 Beams/Girders/Connections. 17.6 Structural System. 17.7 References. References. Index.

Written by the Chair of the ASCE committee, H andbook for Blast Resistant Design of Buildings is a design-oriented companion to the new ASCE Blast Protection of Buildings standard. With contributions from twenty-seven experts, this text provides methods that satisfies the new standard and the existing ASCE, ACI, AISC codes.

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