| nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
| 1 |
A Comment on “Review of Quasi-Analytical and Cavity Expansion Methods for Projectile Penetration of Concrete Targets”, by R. Sobeski and G. Urgessa, Int. J. Protective Structures, 6(1), 43–64 (2015)
|
Rosenberg, Zvi
|
|
2015
|
|
3 |
p. 581-584
|
artikel
|
| 2 |
A Comparative Study of Modelling RC Slab Response to Blast Loading with Two Typical Concrete Material Models
|
Xu, Jiaming
|
|
2013
|
|
3 |
p. 415-432
|
artikel
|
| 3 |
A computationally efficient numerical model for progressive collapse analysis of reinforced concrete structures
|
Sielicki, Piotr W
|
|
2019
|
|
3 |
p. 330-358
|
artikel
|
| 4 |
A Coupled Approach to Simulate the Explosion Response of a Buried Structure in a Soil-Rock Layered Medium
|
Feldgun, V.R.
|
|
2013
|
|
3 |
p. 231-292
|
artikel
|
| 5 |
A method for evaluating the local failure of ultra-high-performance short polyvinyl alcohol fiber-reinforced concrete panels subjected to a projectile impact
|
Ueno, Hironori
|
|
2018
|
|
3 |
p. 289-312
|
artikel
|
| 6 |
A Modified Energy Method to Assess the Residual Velocity of Non-Deforming Projectiles That Perforate Concrete Barriers
|
Grisaro, Hezi
|
|
2014
|
|
3 |
p. 307-321
|
artikel
|
| 7 |
Analysis of Steel-Concrete Composite Buildings for Blast Induced Progressive Collapse
|
Jeyarajan, S
|
|
2015
|
|
3 |
p. 457-485
|
artikel
|
| 8 |
Analysis of the blast wave decay coefficient using the Kingery–Bulmash data
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 409-429
|
artikel
|
| 9 |
An analytical model of linear density foam–protected structure under blast loading
|
Xia, Ye
|
|
2017
|
|
3 |
p. 454-472
|
artikel
|
| 10 |
An assessment of current maximum impact force models for anti-ram bollard systems subjected to truck impact
|
Hu, Bo
|
|
2017
|
|
3 |
p. 368-383
|
artikel
|
| 11 |
An Evaluation of Shaped Charge Experiments Using Concrete Components
|
Esteban, Beatriz
|
|
2015
|
|
3 |
p. 439-455
|
artikel
|
| 12 |
A New Methodology for the Assessment of the EoS Data of Concrete
|
Gebbeken, N.
|
|
2010
|
|
3 |
p. 299-317
|
artikel
|
| 13 |
A note on the impact resistance of concrete target against rigid projectile
|
Li, Yongchang
|
|
2018
|
|
3 |
p. 397-411
|
artikel
|
| 14 |
A Numerical Investigation of Blast Loading and Clearing on Small Targets
|
Rigby, Sam E.
|
|
2014
|
|
3 |
p. 253-274
|
artikel
|
| 15 |
Application of Computational Modeling for Explosive Hazard Assessments
|
Clutter, J. Keith
|
|
2013
|
|
3 |
p. 293-314
|
artikel
|
| 16 |
Appraisal of Pulse-Shaping Technique in Split Hopkinson Pressure Bar Tests for Brittle Materials
|
Lu, Y.B.
|
|
2010
|
|
3 |
p. 363-390
|
artikel
|
| 17 |
Aramid Fiber Sheet Reinforcing Effects on the Local Damage in Concrete Plates Subjected to High Velocity Impact
|
Beppu, Masuhiro
|
|
2013
|
|
3 |
p. 433-449
|
artikel
|
| 18 |
A Rate Dependent Stress-Strain Relationship Model for Normal, High and Ultra-High Strength Concrete
|
Ngo, Tuan
|
|
2013
|
|
3 |
p. 451-466
|
artikel
|
| 19 |
A shock tube facility to generate blast loading on structures
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 340-366
|
artikel
|
| 20 |
A Simplified Numerical Method for Blast Induced Structural Response Analysis
|
Li, Jun
|
|
2014
|
|
3 |
p. 323-348
|
artikel
|
| 21 |
A Study of Explosion Effects Prior to Collapse of WTC Towers
|
Szuladziński, Gregory
|
|
2014
|
|
3 |
p. 291-305
|
artikel
|
| 22 |
Blast and Ballistic Resistance of Ultra-High Strength Steel
|
Ma, C.Y.
|
|
2013
|
|
3 |
p. 379-413
|
artikel
|
| 23 |
Blast characterization using a ballistic pendulum with a centrally mounted Hopkinson bar
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 367-388
|
artikel
|
| 24 |
Blast Mitigation Effects of Water Walls: Numerical Simulation and Analytical Approach
|
Zhang, Li
|
|
2015
|
|
3 |
p. 551-565
|
artikel
|
| 25 |
Blast Resistance Assessment of Concrete Wall Panels: Experimental and Numerical Investigations
|
Giovino, Giannicola
|
|
2014
|
|
3 |
p. 349-366
|
artikel
|
| 26 |
“Computational Modelling in Protective Engineering Research – Recent Advances and Good Practice”
|
Lu, Yong
|
|
2013
|
|
3 |
p. i
|
artikel
|
| 27 |
Concrete slab fragmentation after bullet impact: An experimental study
|
Sielicki, Piotr W
|
|
2019
|
|
3 |
p. 380-389
|
artikel
|
| 28 |
Concrete under High Strain Rates: Local Material and Global Structure Response to Impact Loading
|
Beckmann, Birgit
|
|
2011
|
|
3 |
p. 283-293
|
artikel
|
| 29 |
Damage Prediction for RC Slabs under Near-Field Blasts Using Artificial Neural Network
|
Ibrahim, Ahmed
|
|
2011
|
|
3 |
p. 315-332
|
artikel
|
| 30 |
Defining Erosion Limit for Concrete
|
Luccioni, Bibiana M.
|
|
2013
|
|
3 |
p. 315-340
|
artikel
|
| 31 |
Development and performance evaluation of large-scale auxetic protective systems for localised impulsive loads
|
Sielicki, Piotr W
|
|
2019
|
|
3 |
p. 390-417
|
artikel
|
| 32 |
Does Stronger Concrete Make Stronger and More Resilient Elements?
|
Szuladzinski, Gregory
|
|
2012
|
|
3 |
p. 293-309
|
artikel
|
| 33 |
Drop-Weight Impact Response of Fibre Reinforced Cement Based Foams
|
Mamun, Muhammad
|
|
2010
|
|
3 |
p. 409-424
|
artikel
|
| 34 |
Effect of charge shape on blast containment chamber survivability
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 389-408
|
artikel
|
| 35 |
Effects of Large and Spread Explosives Loads
|
Luccioni, Bibiana
|
|
2010
|
|
3 |
p. 319-344
|
artikel
|
| 36 |
Empirical Ballistic Limit Velocity Model for Bi-Layer Ceramic–Metal Armor
|
Serjouei, Ahmad
|
|
2015
|
|
3 |
p. 509-527
|
artikel
|
| 37 |
Energy Absorption Analysis of Density Graded Aluminium Foam
|
Li, Jingde
|
|
2011
|
|
3 |
p. 333-349
|
artikel
|
| 38 |
Enhancing the Robustness of Steel-Concrete Composite Buildings under Column Loss Scenarios
|
Jeyarajan, S
|
|
2015
|
|
3 |
p. 529-550
|
artikel
|
| 39 |
Estimation of Deep Penetration Resistance with Spherical Specific Cavitation Energy
|
Masri, Rami
|
|
2010
|
|
3 |
p. 391-408
|
artikel
|
| 40 |
Evaluation of load-carrying capacity of full-scale falling protection net using distinct element method
|
Horiguchi, Toshiyuki
|
|
2018
|
|
3 |
p. 269-288
|
artikel
|
| 41 |
Experimental studies of the effect of rapid afterburn on shock development of near-field explosions
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 452-465
|
artikel
|
| 42 |
Failure behavior of reinforced concrete slabs subjected to moderate-velocity impact by a steel projectile
|
Kataoka, Shinnosuke
|
|
2017
|
|
3 |
p. 384-406
|
artikel
|
| 43 |
Heterogeneous lightweight configuration for protection against 7.62 × 39 mm bullet impact
|
Sielicki, Piotr W
|
|
2019
|
|
3 |
p. 289-305
|
artikel
|
| 44 |
Impact & Energy Absorption of Road Safety Barriers by Coupled SPH/FEM
|
Thiyahuddin, I.
|
|
2012
|
|
3 |
p. 257-273
|
artikel
|
| 45 |
Improved procedure for calculating the cleared pressure acting on a finite target due to a mid-field blast
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 305-324
|
artikel
|
| 46 |
Inertial effect on concrete-like materials under dynamic direct tension
|
Zhang, Shu
|
|
2018
|
|
3 |
p. 377-396
|
artikel
|
| 47 |
Inferring the ballistic resistance of thick targets from static deep indentation tests
|
Rosenberg, Zvi
|
|
2018
|
|
3 |
p. 347-361
|
artikel
|
| 48 |
Influence of elevated strain rate on the mechanical properties of hollow structural sections
|
Ritchie, Cameron B
|
|
2017
|
|
3 |
p. 325-351
|
artikel
|
| 49 |
Introduction of the Special Issue
|
Sielicki, Piotr W
|
|
2019
|
|
3 |
p. 269
|
artikel
|
| 50 |
Investigation and Optimization of Protective Properties of Metal Multi-Layered Shields: A Review
|
Ben-Dor, Gabi
|
|
2012
|
|
3 |
p. 275-291
|
artikel
|
| 51 |
Investigation of Air-Blast Effects from Spherical-and Cylindrical-Shaped Charges
|
Wu, Chengqing
|
|
2010
|
|
3 |
p. 345-362
|
artikel
|
| 52 |
Investigation of Blast Effects on Double-Skinned Composite Steel Tubular Columns
|
Zhang, Huidong
|
|
2015
|
|
3 |
p. 403-418
|
artikel
|
| 53 |
Modelling of complex blast
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 325-339
|
artikel
|
| 54 |
Near-Field Blast Assessment of Reinforced Concrete Components
|
Shin, Jinwon
|
|
2015
|
|
3 |
p. 487-508
|
artikel
|
| 55 |
Nonlinear Analysis of Blast Performance of Partially Prestressed RC Beams
|
Chen, Li
|
|
2011
|
|
3 |
p. 295-314
|
artikel
|
| 56 |
Numerical and analytical study of overpressures and impulses inside a masonry box subjected to external blast loading
|
Sielicki, Piotr W
|
|
2019
|
|
3 |
p. 270-288
|
artikel
|
| 57 |
Numerical and Experimental Investigations on the Blast-Resistant Properties of Arched RC Blast Doors
|
Li, Chen
|
|
2010
|
|
3 |
p. 425-441
|
artikel
|
| 58 |
Numerical predictions of the behaviour of plain concrete targets subjected to impact
|
Abdel-Kader, Mohamed
|
|
2018
|
|
3 |
p. 313-346
|
artikel
|
| 59 |
On Blast Pressure Analysis Due to a Partially Confined Explosion: III. Afterburning Effect
|
Edri, I.
|
|
2012
|
|
3 |
p. 311-331
|
artikel
|
| 60 |
Parameters of Holmquist–Johnson–Cook model for high-strength concrete-like materials under projectile impact
|
Ren, Gen-Mao
|
|
2017
|
|
3 |
p. 352-367
|
artikel
|
| 61 |
Plasticity Based Approach for Evaluating the Blast Response of RC Columns Retrofitted with FRP
|
Isaac, Philip
|
|
2011
|
|
3 |
p. 367-380
|
artikel
|
| 62 |
Pounding Response of Adjacent Concrete Rods: An Experimental Study
|
Leibovich, E.
|
|
2012
|
|
3 |
p. 355-373
|
artikel
|
| 63 |
Preface
|
Wu, Chengqing
|
|
2017
|
|
3 |
p. 323-324
|
artikel
|
| 64 |
Preface
|
|
|
2011
|
|
3 |
p. i-iii
|
artikel
|
| 65 |
Preface to special edition on blast load characterisation
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 303-304
|
artikel
|
| 66 |
Prestressed concrete targets under high rate of loading
|
Rajput, Abhishek
|
|
2018
|
|
3 |
p. 362-376
|
artikel
|
| 67 |
Probabilistic assessment of airblast variability and fatality risk estimation for explosive blasts in confined building spaces
|
Sielicki, Piotr W
|
|
2019
|
|
3 |
p. 306-329
|
artikel
|
| 68 |
Proposal on risk assessment of reinforced concrete structures subjected to explosive loads
|
Nagata, Makoto
|
|
2017
|
|
3 |
p. 407-432
|
artikel
|
| 69 |
Response of box-type structure and effect of structural parameters on reflected pressure under blast load
|
Sielicki, Piotr W
|
|
2019
|
|
3 |
p. 359-379
|
artikel
|
| 70 |
Response of Cylindrical Shells to Lateral Blast Load
|
Yuen, Steeve Chung Kim
|
|
2013
|
|
3 |
p. 209-230
|
artikel
|
| 71 |
Rigid projectile penetration into a concrete medium: A new model
|
Yankelevsky, DZ
|
|
2017
|
|
3 |
p. 473-499
|
artikel
|
| 72 |
Risk-based blast-load modelling: Techniques, models and benefits
|
Tyas, Andrew
|
|
2016
|
|
3 |
p. 430-451
|
artikel
|
| 73 |
Simplified Analysis of Foam Cladding Protected Reinforced Concrete Slabs against Blast Loadings
|
Wu, Chengqing
|
|
2011
|
|
3 |
p. 351-365
|
artikel
|
| 74 |
Terrorism Risks for Bridges in a Multi-Hazard Environment
|
Stewart, Mark G.
|
|
2014
|
|
3 |
p. 275-289
|
artikel
|
| 75 |
The Importance of Shear-Dilatancy Behaviors in RC Columns
|
Crawford, John E.
|
|
2013
|
|
3 |
p. 341-377
|
artikel
|
| 76 |
The response of quadrangular plates to blast load resulting from the detonation of encased buried charges
|
Yuen, S Chung Kim
|
|
2017
|
|
3 |
p. 433-453
|
artikel
|
| 77 |
TNT Equivalency for Overpressure and Impulse for Detonations of Spherical Charges of High Explosives
|
Shin, Jinwon
|
|
2015
|
|
3 |
p. 567-579
|
artikel
|
| 78 |
Use of Coupled Smooth-Particle Hydrodynamics/Lagrangian Method in the Simulation of Deformable Projectile Penetration
|
Mohotti, Damith
|
|
2015
|
|
3 |
p. 419-437
|
artikel
|
| 79 |
Using P-I Diagram Method to Assess the Failure Modes of Rigid-Plastic Beams Subjected to Triangular Impulsive Loads
|
Shi, Haijian
|
|
2012
|
|
3 |
p. 333-353
|
artikel
|
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