| nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
| 1 |
A comparison of ballistic limit with adaptive-mesh Eulerian hydrocode predictions of one- and two-plate aluminum shielding protection against millimeter-sized Fe–Ni space debris
|
Horner, J.K.
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35 |
12 |
p. 1602-1605
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artikel
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| 2 |
A comparison of NASA, DoD, and hydrocode ballistic limit predictions for spherical and non-spherical shapes versus dual- and single-wall targets, and their effects on orbital debris penetration risk
|
Williamsen, J.E.
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35 |
12 |
p. 1870-1877
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artikel
|
| 3 |
Analysis of debris clouds produced by impact of aluminum spheres with aluminum sheets
|
Chi, R.Q.
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35 |
12 |
p. 1465-1472
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artikel
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| 4 |
Analysis of transient vibrations on complex targets representing elementary configurations of GOCE satellite
|
Pavarin, D.
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35 |
12 |
p. 1709-1715
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artikel
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| 5 |
Analysis of Z-pinch shock wave experiments on meteorite and planetary materials
|
Remo, J.L.
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35 |
12 |
p. 1516-1521
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artikel
|
| 6 |
An examination of deviations from hydrodynamic penetration theory
|
Anderson Jr., C.E.
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35 |
12 |
p. 1386-1392
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artikel
|
| 7 |
Application of the NASA/JSC Whipple shield ballistic limit equations to dual-wall targets under hypervelocity impact
|
Schonberg, W.P.
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35 |
12 |
p. 1792-1798
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artikel
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| 8 |
Application of Wavelet Transform to analyze acceleration signals generated by HVI on thin aluminum plates and all-aluminum honeycomb sandwich panels
|
Bettella, A.
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35 |
12 |
p. 1427-1434
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artikel
|
| 9 |
A quantitative analysis of computed hypervelocity debris clouds
|
Beissel, S.R.
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35 |
12 |
p. 1410-1418
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artikel
|
| 10 |
A special design condition to increase the performance of two-stage light-gas guns
|
Francesconi, A.
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35 |
12 |
p. 1510-1515
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artikel
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| 11 |
Author Index
|
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35 |
12 |
p. 1893-1895
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artikel
|
| 12 |
Automated design of threats and shields under hypervelocity impacts by using successive optimization methodology
|
Buyuk, M.
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35 |
12 |
p. 1449-1458
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artikel
|
| 13 |
Ballistic limit equation for equipment placed behind satellite structure walls
|
Schäfer, F.K.
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35 |
12 |
p. 1784-1791
|
artikel
|
| 14 |
Ballistic limit equations in ballistic and shatter regions
|
Ding, L.
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35 |
12 |
p. 1490-1496
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artikel
|
| 15 |
Changes to the shock response of fused quartz due to glass modification
|
Alexander, C.S.
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35 |
12 |
p. 1376-1385
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artikel
|
| 16 |
Characterization of prompt flash signatures using high-speed broadband diode detectors
|
Thornhill, T.F.
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35 |
12 |
p. 1827-1835
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artikel
|
| 17 |
Characterizing the transient response of CFRP/Al HC spacecraft structures induced by space debris impact at hypervelocity
|
Ryan, S.
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35 |
12 |
p. 1756-1763
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artikel
|
| 18 |
Comparative study of numerical explicit schemes for impact problems
|
Nsiampa, N.
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35 |
12 |
p. 1688-1694
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artikel
|
| 19 |
Crater distribution on the rear wall of AL-Whipple shield by hypervelocity impacts of AL-spheres
|
Gongshun, G.
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35 |
12 |
p. 1541-1546
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artikel
|
| 20 |
CTH simulations of an expanding ring to study fragmentation
|
Meulbroek, J.P.
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35 |
12 |
p. 1661-1665
|
artikel
|
| 21 |
Damage evaluation of concrete plates by high-velocity impact
|
Beppu, M.
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35 |
12 |
p. 1419-1426
|
artikel
|
| 22 |
Debris cloud distributions at oblique impacts
|
Higashide, M.
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35 |
12 |
p. 1573-1577
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artikel
|
| 23 |
Deformation and fragmentation behaviour of exploded metal cylinders and the effects of wall materials, configuration, explosive energy and initiated locations
|
Hiroe, T.
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35 |
12 |
p. 1578-1586
|
artikel
|
| 24 |
Dynamic deformation and fracture of mullite (3Al2O3·2SiO2) ceramics under hypervelocity impact
|
Kawai, N.
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35 |
12 |
p. 1612-1615
|
artikel
|
| 25 |
Editorial
|
Langseth, Magnus
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35 |
12 |
p. vii
|
artikel
|
| 26 |
Experimental impact study using an explosive driven projectile accelerator and numerical simulation
|
Saburi, T.
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35 |
12 |
p. 1764-1769
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artikel
|
| 27 |
Experimental study on expansion characteristics of debris clouds produced by oblique hypervelocity impact of LY12 aluminum projectiles with thin LY12 aluminum plates
|
Zhang, Q.
|
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35 |
12 |
p. 1884-1891
|
artikel
|
| 28 |
Experimental study on the effectiveness of fiber sheet reinforcement on the explosive-resistant performance of concrete plates
|
Ohkubo, K.
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35 |
12 |
p. 1702-1708
|
artikel
|
| 29 |
Fragment mass distribution of metal cased explosive charges
|
Arnold, W.
|
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35 |
12 |
p. 1393-1398
|
artikel
|
| 30 |
Fragment size distributions from the dynamic fragmentation of brittle solids
|
Grady, D.E.
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|
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35 |
12 |
p. 1557-1562
|
artikel
|
| 31 |
Generation of transient vibrations on aluminum honeycomb sandwich panels subjected to hypervelocity impacts
|
Francesconi, A.
|
|
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35 |
12 |
p. 1503-1509
|
artikel
|
| 32 |
Geologic materials' response to shaped charge penetration
|
Grove, B.
|
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35 |
12 |
p. 1563-1566
|
artikel
|
| 33 |
Geometric and energy scaling for celestial impacts
|
Littlefield, D.L.
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35 |
12 |
p. 1642-1647
|
artikel
|
| 34 |
High-velocity impact of low-density projectiles on structural aluminum armor
|
Sorensen, B.R.
|
|
|
35 |
12 |
p. 1808-1815
|
artikel
|
| 35 |
High velocity linear induction launchers
|
Balikci, A.
|
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35 |
12 |
p. 1405-1409
|
artikel
|
| 36 |
Hugoniot measurement by hyper-velocity impact at velocities up to 9km/s using a two-stage light-gas gun under optimized shot conditions
|
Yokoo, M.
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35 |
12 |
p. 1878-1883
|
artikel
|
| 37 |
HVIS 2007 Symposium Organization
|
|
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|
35 |
12 |
p. ix-x
|
artikel
|
| 38 |
HVI tests on CFRP laminates at low temperature
|
Numata, D.
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35 |
12 |
p. 1695-1701
|
artikel
|
| 39 |
Hypervelocity crater formation in aluminum alloys at low temperatures
|
Tanaka, K.
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35 |
12 |
p. 1821-1826
|
artikel
|
| 40 |
Hypervelocity impact into a high strength and ductile steel alloy
|
Lach, E.
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|
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35 |
12 |
p. 1625-1630
|
artikel
|
| 41 |
Hypervelocity impact of asteroid/comet on the oceanic crust of the earth
|
Saito, T.
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35 |
12 |
p. 1770-1777
|
artikel
|
| 42 |
Hypervelocity impact on CFRP: Testing, material modelling, and numerical simulation
|
Wicklein, M.
|
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35 |
12 |
p. 1861-1869
|
artikel
|
| 43 |
Hypervelocity impact on honeycomb target structures: Experiments and modeling
|
Sibeaud, J.-M.
|
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35 |
12 |
p. 1799-1807
|
artikel
|
| 44 |
Hypervelocity impact penetration mechanics
|
McFarland, C.
|
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35 |
12 |
p. 1654-1660
|
artikel
|
| 45 |
Hypervelocity impact simulation using membrane particle-elements
|
Bohannan, A.
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35 |
12 |
p. 1497-1502
|
artikel
|
| 46 |
Hypervelocity penetration of concrete
|
Dawson, A.
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35 |
12 |
p. 1484-1489
|
artikel
|
| 47 |
IFC: Editorial Board / Publishing Info
|
|
|
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35 |
12 |
p. IFC
|
artikel
|
| 48 |
Impact of thin aluminum sheets with aluminum spheres up to 9km/s
|
Piekutowski, A.J.
|
|
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35 |
12 |
p. 1716-1722
|
artikel
|
| 49 |
Influence of space debris impact on solar array under power generation
|
Akahoshi, Y.
|
|
|
35 |
12 |
p. 1678-1682
|
artikel
|
| 50 |
Influence of the critical velocity on deformation of launcher components
|
Nechitailo, N.V.
|
|
|
35 |
12 |
p. 1683-1687
|
artikel
|
| 51 |
Investigation and comparison between new satellite impact test results and NASA standard breakup model
|
Sakuraba, K.
|
|
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35 |
12 |
p. 1567-1572
|
artikel
|
| 52 |
Investigation of the fracture and fragmentation of explosively driven rings and cylinders
|
Goto, D.M.
|
|
|
35 |
12 |
p. 1547-1556
|
artikel
|
| 53 |
Large-scale, hypervelocity, high-fidelity interceptor lethality development in AEDC's range G
|
Carver, D.
|
|
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35 |
12 |
p. 1459-1464
|
artikel
|
| 54 |
Low-altitude airbursts and the impact threat
|
Boslough, M.B.E.
|
|
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35 |
12 |
p. 1441-1448
|
artikel
|
| 55 |
Mesoscale simulations of a dart penetrating sand
|
Borg, J.P.
|
|
|
35 |
12 |
p. 1435-1440
|
artikel
|
| 56 |
Micro-craters in aluminum foils: Implications for dust particles from comet Wild 2 on NASA's Stardust spacecraft
|
Kearsley, A.T.
|
|
|
35 |
12 |
p. 1616-1624
|
artikel
|
| 57 |
Micrometeoroid impact on ceramic thin components for interplanetary probe
|
Motoyashiki, Y.
|
|
|
35 |
12 |
p. 1666-1671
|
artikel
|
| 58 |
Modeling the impact deformation of rods of a pressed PTFE/Al composite mixture
|
Raftenberg, M.N.
|
|
|
35 |
12 |
p. 1735-1744
|
artikel
|
| 59 |
Multi-layer insulation material models suitable for hypervelocity impact simulations
|
White, D.M.
|
|
|
35 |
12 |
p. 1853-1860
|
artikel
|
| 60 |
Near-Earth object deflection using conventional explosives
|
Walker, J.D.
|
|
|
35 |
12 |
p. 1473-1477
|
artikel
|
| 61 |
New analytical model of expansion of spherical cavity in brittle material based on the concepts of mechanics of compressible porous and powder materials
|
Galanov, B.A.
|
|
|
35 |
12 |
p. 1522-1528
|
artikel
|
| 62 |
Numerical modeling of Deep Impact experiment
|
Sultanov, V.G.
|
|
|
35 |
12 |
p. 1816-1820
|
artikel
|
| 63 |
Preface
|
Schonberg, William P.
|
|
|
35 |
12 |
p. viii
|
artikel
|
| 64 |
Response of composite materials to hypervelocity impact
|
Katz, S.
|
|
|
35 |
12 |
p. 1606-1611
|
artikel
|
| 65 |
Re-visiting 1-D hypervelocity penetration
|
Lambert, D.E.
|
|
|
35 |
12 |
p. 1631-1635
|
artikel
|
| 66 |
Selecting a best-fit temperature-dependent regression model for thin target HVI data
|
Corbett, B. Myers
|
|
|
35 |
12 |
p. 1672-1677
|
artikel
|
| 67 |
Simulation of high speed impact into ceramic composite systems using cohesive-law fracture model
|
Lee, M.
|
|
|
35 |
12 |
p. 1636-1641
|
artikel
|
| 68 |
Simulation of shock-induced fragmentation and vaporization in metals
|
Povarnitsyn, M.E.
|
|
|
35 |
12 |
p. 1723-1727
|
artikel
|
| 69 |
SPH evaluation of out-of-plane peak force transmitted during a hypervelocity impact
|
Giacomuzzo, C.
|
|
|
35 |
12 |
p. 1534-1540
|
artikel
|
| 70 |
Stress analysis of the rails of a new high velocity armature design in an electromagnetic launcher
|
Ghassemi, M.
|
|
|
35 |
12 |
p. 1529-1533
|
artikel
|
| 71 |
Stress–strain relationships of polycarbonate over a wide range of strain rate, including a shock wave regime
|
Sato, Y.
|
|
|
35 |
12 |
p. 1778-1783
|
artikel
|
| 72 |
Structural vibrations induced by HVI – Application to the Gaïa spacecraft
|
Vergniaud, J.B.
|
|
|
35 |
12 |
p. 1836-1843
|
artikel
|
| 73 |
Subject Index
|
|
|
|
35 |
12 |
p. 1896-1899
|
artikel
|
| 74 |
Temperature measurements of expansion products from shock compressed materials using high-speed spectroscopy
|
Reinhart, W.D.
|
|
|
35 |
12 |
p. 1745-1755
|
artikel
|
| 75 |
Testing and computational analysis of pressure transducers in water filled tank impacted by hypervelocity projectile
|
Hopson, M.V.
|
|
|
35 |
12 |
p. 1593-1601
|
artikel
|
| 76 |
The influence of a steel rear barrier on the detonation response of a steel covered explosive struck by a steel projectile
|
Lynch, N.J.
|
|
|
35 |
12 |
p. 1648-1653
|
artikel
|
| 77 |
The influence of asymmetries in shaped charge performance
|
Ayisit, O.
|
|
|
35 |
12 |
p. 1399-1404
|
artikel
|
| 78 |
Towards predictive modelling for concrete
|
Cullis, I.
|
|
|
35 |
12 |
p. 1478-1483
|
artikel
|
| 79 |
Triboluminescent properties of zinc sulfide phosphors due to hypervelocity impact
|
Bergeron, N.P.
|
|
|
35 |
12 |
p. 1587-1592
|
artikel
|
| 80 |
Tribute to Lalit C. Chhabildas
|
Cullis, Ian G.
|
|
|
35 |
12 |
p. 1375
|
artikel
|
| 81 |
Using the line-VISAR to study multi-dimensional and mesoscale impact phenomena
|
Vogler, T.J.
|
|
|
35 |
12 |
p. 1844-1852
|
artikel
|
| 82 |
Vulnerability of spacecraft harnesses to hypervelocity impacts
|
Putzar, R.
|
|
|
35 |
12 |
p. 1728-1734
|
artikel
|
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