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E-raamat: Explosive Loading of Engineering Structures: A history of research and a review of recent developments [Taylor & Francis e-raamat]

  • Formaat: 272 pages
  • Ilmumisaeg: 12-Dec-2019
  • Kirjastus: CRC Press
  • ISBN-13: 9780429204050
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  • Taylor & Francis e-raamat
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Explosive Loading of Engineering Structures: A history of research and a review of recent developmentsSuurem pilt
  • Formaat: 272 pages
  • Ilmumisaeg: 12-Dec-2019
  • Kirjastus: CRC Press
  • ISBN-13: 9780429204050
Teised raamatud teemal:
Taylor & Francis e-raamatudRohkem infot Taylor & Francis e-raamatute kohta
Raamatu kodulehekülg: https://www.taylorfrancis.com/books/9780429204050
This book reviews the development of research into the explosive loading of structures, mainly since the beginning of the twentieth century. Major contributions in the fields of measurement, analysis and prediction are discussed. Dynamic loading from conventional high explosives is examined, as well as the effects of liquid propellant, dust, gas, vapour, and fuel/air explosions. Subjects include blast in tunnels, underground and underwater explosions, pressure measurement and blast stimulation. Explosive effects on civil buildings, civil bridges, aircraft and ships are summarized, including the estimation of residual strength. The concluding passages refer to structural safety and reliability.
Preface vii
Acknowledgements ix
Notation xi
Introduction xvii
1 The nature of explosions
1(26)
1.1 The development of low and high explosives
1(5)
1.2 Nuclear explosions
6(2)
1.3 The analysis of detonation and shock in free air
8(10)
1.4 The decay of instantaneous overpressure in free air
18(7)
1.5 References
25(2)
2 The detonation of explosive charges
27(32)
2.1 Ground burst explosions
27(3)
2.2 Above-ground explosions
30(4)
2.3 Below-ground explosions
34(11)
2.4 Underwater explosions
45(10)
2.5 Equivalent pressure factors
55(1)
2.6 References
56(3)
3 Propellant, dust, gas and vapour
59(12)
3.1 Liquid propellant explosions
59(1)
3.2 Dust explosions
60(3)
3.3 Gas explosions
63(3)
3.4 Vapour cloud explosions
66(3)
3.5 Thermal flash
69(1)
3.6 References
69(2)
4 Structural loading from distant explosions
71(20)
4.1 Uniformly distributed pressures
72(2)
4.2 Loading/time relationships
74(6)
4.3 Loads on underground structures
80(6)
4.4 Loads on underwater structures
86(2)
4.5 References
88(3)
5 Structural loading from local explosions
91(28)
5.1 Concentrated external explosive loads on surface structures
91(4)
5.2 Ground shock from concentrated underground explosions
95(5)
5.3 Concentrated external loads on underwater structures
100(2)
5.4 Blast loads in tunnels and shafts
102(9)
5.5 Loads from confined explosions in unvented and vented chambers
111(6)
5.6 References
117(2)
6 Pressure measurement and blast simulation
119(22)
6.1 Experimental pressure measurement
119(4)
6.2 Blast simulation
123(11)
6.3 Simulation of loads on underground structures
134(4)
6.4 References
138(3)
7 Penetration and fragmentation
141(42)
7.1 Introduction
141(2)
7.2 Penetration into soil, stone and rock
143(21)
7.3 Penetration into concrete
164(5)
7.4 Projectile damage to metal structures
169(5)
7.5 Fragmentation
174(2)
7.6 Delivery systems and their development
176(3)
7.7 References
179(4)
8 The effects of explosive loading
183(32)
8.1 Civil buildings
183(8)
8.2 Civil bridges
191(16)
8.3 Aircraft and ships
207(6)
8.4 References
213(2)
9 Response, safety and evolution
215(14)
9.1 Introduction
215(2)
9.2 Theoretical response
217(6)
9.3 Load factors
223(3)
9.4 Evolution
226(1)
9.5 References
227(2)
Author index 229(6)
Subject index 235
P.S. Bulson was Visiting professor University of Southampton, England, since 1983. Convenor project team on Eurocode for Structural Aluminum, Brussels, 1994-1997.
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