Szczegóły

Tytuł artykułu

On the Influence of Fracture Criterion on Perforation of High-Strength Steel Plates Subjected to Armour Piercing Projectile

Tytuł czasopisma

Archive of Mechanical Engineering

Rocznik

2015

Numer

No 2

Autorzy publikacji

Wydział PAN

Nauki Techniczne

Wydawca

Polish Academy of Science, Committe of Machine Design

Data

2015[2015.01.01 AD - 2015.12.31 AD]

Identyfikator

ISSN 0004-0738, e-ISSN 2300-1895

Referencje

Skoglund (2006), Fracture modeling of a high performance armour steel IV, J Phys France, 134. ; Zukas (2004), Introduction to hydrocodes Associates, Computational Mechanics. ; Cockcroft (1968), Ductility and workability of metals of the Institute of, Journal Metals, 96, 33. ; Littlefield (1997), The penetration of steel targets finite in radial extent Impact, Int J Eng, 19, 49. ; Johnson (1985), Fracture characteristics of three metals subjected to various strains strain rates temperatures and pressures, Engineering Fracture Mechanics, 21, 31, doi.org/10.1016/0013-7944(85)90052-9 ; Borvik (2011), Normal and Oblique impact of small arms bullets on AA aluminum protective plates Impact, Int J Eng, 38, 6082. ; Dey (2006), On the influence of the fracture criterion in projectile impact of steel plates materials, Computational Science, 38, 176. ; Anvari (2007), Dynamic ductile fracture in aluminum round bars : experiments and simulations, Int J Fracture, 143. ; Beal (null), A contribution to validation of SPH new features th European Ls Conference, Dyna, 213. ; Hancock (1976), On the mechanisms of ductile failure in high strength steels subjected to multi - axial stress - states of the Mechanics and Physics of Solids pp, Journal, 24, 147. ; Bao (2004), A comparative study on various ductile crack formation criteria Materials and Technology, J Eng, 126. ; Borvik (2001), A computational model of viscoplasticity and ductile damage for impact and penetration of, European Journal Mechanics, 20, 685, doi.org/10.1016/S0997-7538(01)01157-3 ; Monaghan (2000), SPH without a tensile instability, J Computational Physics, 159. ; Wierzbicki (2005), Calibration and evaluation of seven fracture models Mechanical, Int J Sciences, 47, 719. ; Mehra (2012), Tensile instability and artificial stresses in impact problems in SPH, Physics, 377. ; Woodward (1987), A structural model for thin plate perforation by normal impact of blunt projectiles Impact, Int J Eng, 6, 128. ; Le Roy (1981), A model of ductile fracture based on the nucleation and growth of voids, Acta Mettalurgica, 29, 1509, doi.org/10.1016/0001-6160(81)90185-1 ; Borvik (2009), Perforation resistance of five different high - strength steel plates subjected to small - arms projectiles Impact, Int J Engineering, 36, 948.

DOI

10.1515/meceng-2015-0010

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