Investigation on charge parameters of underwater contact explosion based on axisymmetric SPH method

This paper investigates the effects of charge parameters of the underwater contact explosion based on the axisymmetric smoothed particle hydrodynamics （SPH） method. The dynamic boundary particle is proposed to improve the pressure fluctuation and numerical accuracy near the symmetric axis. An in-dep...

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Published in:	Applied mathematics and mechanics Vol. 35; no. 4; pp. 453 - 468
Main Author:	明付仁孙鹏楠张阿漫
Format:	Journal Article
Language:	English
Published:	Heidelberg Shanghai University 01-04-2014 College of Shipbuilding Engineering, Harbin Engineering University,Harbin 150001, P.R.China
Subjects:	Applications of Mathematics Axisymmetric Charge Classical Mechanics Contact Detonation Explosions Fluid- and Aerodynamics Impulses Mathematical Modeling and Industrial Mathematics Mathematical models Mathematics Mathematics and Statistics Partial Differential Equations Peak pressure Underwater axisymmetric smoothed particle hydrodynamics (SPH) method charge parameter 76B10 O383.1 U661.43 underwater contact explosion symmetric axis
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Abstract	This paper investigates the effects of charge parameters of the underwater contact explosion based on the axisymmetric smoothed particle hydrodynamics （SPH） method. The dynamic boundary particle is proposed to improve the pressure fluctuation and numerical accuracy near the symmetric axis. An in-depth study is carried out over the influence of charge shapes and detonation modes on the near-field loads in terms of the peak pressure and impulse of shock waves. For different charge shapes, the cylindrical charge with different length-diameter ratios may cause strong directivity of peak pressure and impulse in the near field. Compared with spherical charge, the peak pressure of cylindrical charge may be either weakened or enhanced in different directions. Within a certain range, the greater the length-diameter ratio is, the more obvious the effect will be. The weakened ratio near the detonation end may reach 25% approximately, while the enhanced ratio may reach around 20% in the opposite direction. However, the impulse in different directions seems to be uniform. For different detonation modes, compared with point-source explosion, the peak pressure of plane-source explosion is enhanced by about 5%. Besides, the impulse of plane-source explosion is enhanced by around 5% near the detonation end, but close to those of the point-source explosion in other directions. Based on the material constitutive relation in the axisymmetric coordinates, a simple case of underwater contact explosion is simulated to verify the above conclusions, showing that the charge parameters of underwater contact explosion should not be ignored.
AbstractList	This paper investigates the effects of charge parameters of the underwater contact explosion based on the axisymmetric smoothed particle hydrodynamics （SPH） method. The dynamic boundary particle is proposed to improve the pressure fluctuation and numerical accuracy near the symmetric axis. An in-depth study is carried out over the influence of charge shapes and detonation modes on the near-field loads in terms of the peak pressure and impulse of shock waves. For different charge shapes, the cylindrical charge with different length-diameter ratios may cause strong directivity of peak pressure and impulse in the near field. Compared with spherical charge, the peak pressure of cylindrical charge may be either weakened or enhanced in different directions. Within a certain range, the greater the length-diameter ratio is, the more obvious the effect will be. The weakened ratio near the detonation end may reach 25% approximately, while the enhanced ratio may reach around 20% in the opposite direction. However, the impulse in different directions seems to be uniform. For different detonation modes, compared with point-source explosion, the peak pressure of plane-source explosion is enhanced by about 5%. Besides, the impulse of plane-source explosion is enhanced by around 5% near the detonation end, but close to those of the point-source explosion in other directions. Based on the material constitutive relation in the axisymmetric coordinates, a simple case of underwater contact explosion is simulated to verify the above conclusions, showing that the charge parameters of underwater contact explosion should not be ignored. This paper investigates the effects of charge parameters of the underwater contact explosion based on the axisymmetric smoothed particle hydrodynamics (SPH) method. The dynamic boundary particle is proposed to improve the pressure fluctuation and numerical accuracy near the symmetric axis. An in-depth study is carried out over the influence of charge shapes and detonation modes on the near-field loads in terms of the peak pressure and impulse of shock waves. For different charge shapes, the cylindrical charge with different length-diameter ratios may cause strong directivity of peak pressure and impulse in the near field. Compared with spherical charge, the peak pressure of cylindrical charge may be either weakened or enhanced in different directions. Within a certain range, the greater the length-diameter ratio is, the more obvious the effect will be. The weakened ratio near the detonation end may reach 25% approximately, while the enhanced ratio may reach around 20% in the opposite direction. However, the impulse in different directions seems to be uniform. For different detonation modes, compared with point-source explosion, the peak pressure of plane-source explosion is enhanced by about 5%. Besides, the impulse of plane-source explosion is enhanced by around 5% near the detonation end, but close to those of the point-source explosion in other directions. Based on the material constitutive relation in the axisymmetric coordinates, a simple case of underwater contact explosion is simulated to verify the above conclusions, showing that the charge parameters of underwater contact explosion should not be ignored.
Author	明付仁孙鹏楠张阿漫
AuthorAffiliation	College of Shipbuilding Engineering, Harbin Engineering University, Harbin 150001, P. R. China
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CitedBy_id	crossref_primary_10_1115_1_4042369 crossref_primary_10_1088_1674_1056_25_2_020202 crossref_primary_10_1155_2019_9026214 crossref_primary_10_1007_s00773_018_0532_8 crossref_primary_10_1080_17445302_2019_1701273 crossref_primary_10_1016_j_apor_2018_08_016 crossref_primary_10_1016_j_soildyn_2019_105905 crossref_primary_10_1016_j_oceaneng_2016_03_040 crossref_primary_10_1007_s11804_022_00265_y crossref_primary_10_1016_j_cma_2020_113039 crossref_primary_10_1016_j_oceaneng_2021_110369 crossref_primary_10_1016_S1001_6058_16_60730_8 crossref_primary_10_3390_en15239000
Cites_doi	10.1007/BF02437639 10.1016/j.jcp.2005.08.023 10.1063/1.1699639 10.1016/S0734-743X(96)00027-9 10.1016/j.ijimpeng.2007.12.015 10.2172/6766676 10.1016/S0734-743X(00)00051-8 10.1007/s00193-005-0002-1 10.1016/j.apor.2011.07.009 10.1007/s00466-002-0371-6 10.1007/s10483-006-0514-z 10.1016/S0734-743X(99)00028-7 10.1016/0045-7930(94)90060-4 10.1016/0168-9274(85)90015-7 10.1016/j.ijimpeng.2004.07.010 10.1016/j.ijimpeng.2004.07.011 10.1016/j.compfluid.2012.10.012 10.1016/j.marstruc.2013.01.004 10.1142/5340 10.2172/6530310 10.5962/bhl.title.48411 10.21914/anziamj.v44i0.675
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DocumentTitleAlternate	Investigation on charge parameters of underwater contact explosion based on axisymmetric SPH method
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Keywords	axisymmetric smoothed particle hydrodynamics (SPH) method charge parameter 76B10 O383.1 U661.43 underwater contact explosion symmetric axis
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Notes	31-1650/O1 Fu-ren MING , Peng-nan SUN , A-man ZHANG （College of Shipbuilding Engineering, Harbin Engineering University Harbin 150001, P. R. China） This paper investigates the effects of charge parameters of the underwater contact explosion based on the axisymmetric smoothed particle hydrodynamics （SPH） method. The dynamic boundary particle is proposed to improve the pressure fluctuation and numerical accuracy near the symmetric axis. An in-depth study is carried out over the influence of charge shapes and detonation modes on the near-field loads in terms of the peak pressure and impulse of shock waves. For different charge shapes, the cylindrical charge with different length-diameter ratios may cause strong directivity of peak pressure and impulse in the near field. Compared with spherical charge, the peak pressure of cylindrical charge may be either weakened or enhanced in different directions. Within a certain range, the greater the length-diameter ratio is, the more obvious the effect will be. The weakened ratio near the detonation end may reach 25% approximately, while the enhanced ratio may reach around 20% in the opposite direction. However, the impulse in different directions seems to be uniform. For different detonation modes, compared with point-source explosion, the peak pressure of plane-source explosion is enhanced by about 5%. Besides, the impulse of plane-source explosion is enhanced by around 5% near the detonation end, but close to those of the point-source explosion in other directions. Based on the material constitutive relation in the axisymmetric coordinates, a simple case of underwater contact explosion is simulated to verify the above conclusions, showing that the charge parameters of underwater contact explosion should not be ignored. underwater contact explosion, charge parameter, axisymmetric smoothedparticle hydrodynamics （SPH） method, symmetric axis ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
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Publisher	Shanghai University College of Shipbuilding Engineering, Harbin Engineering University,Harbin 150001, P.R.China
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References	Zhang, Yang, Yao (CR4) 2012; 34 Brookshaw (CR14) 2003; 44 Molyneaux, Li, Firth (CR10) 1994; 23 Cole (CR3) 1948 Chen, Tong, Hua, Wang, Gou (CR6) 2009; 36 Dobratz (CR17) 1981 Miao, Wang (CR7) 2006; 27 Steinberg (CR18) 1987 Liu, Liu, Lam (CR22) 2006; 15 Von Neumann, Richtmyer (CR16) 1950; 21 Omang, BΦrve, Tulsen (CR11) 2006; 213 Lee, Wierzbicki (CR20) 2005; 31 Song, Gao, Cai (CR8) 2003; 24 Zong, Zhao, Li (CR9) 2013; 31 Wierzbicki (CR19) 1999; 22 Lee, Wierzbicki (CR21) 2005; 31 Liu, Liu, Lam, Zong (CR5) 2003; 30 Monaghan, Pongracic (CR15) 1985; 1 Weirzbiki, Nurick (CR2) 1996; 46 Rajendran, Narasimhan (CR1) 2001; 25 Zhang, Yang, Huang, Ming (CR12) 2013; 71 Liu, Liu (CR13) 2003 R Rajendran (1804_CR1) 2001; 25 Y Chen (1804_CR6) 2009; 36 S C Song (1804_CR8) 2003; 24 J J Monaghan (1804_CR15) 1985; 1 Y Miao (1804_CR7) 2006; 27 T Weirzbiki (1804_CR2) 1996; 46 L Brookshaw (1804_CR14) 2003; 44 J Neumann Von (1804_CR16) 1950; 21 A M Zhang (1804_CR12) 2013; 71 Z Zong (1804_CR9) 2013; 31 T C K Molyneaux (1804_CR10) 1994; 23 M Omang (1804_CR11) 2006; 213 G R Liu (1804_CR13) 2003 Y W Lee (1804_CR21) 2005; 31 R H Cole (1804_CR3) 1948 D J Steinberg (1804_CR18) 1987 M B Liu (1804_CR22) 2006; 15 A M Zhang (1804_CR4) 2012; 34 M B Liu (1804_CR5) 2003; 30 Y W Lee (1804_CR20) 2005; 31 B M Dobratz (1804_CR17) 1981 T Wierzbicki (1804_CR19) 1999; 22
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Snippet	This paper investigates the effects of charge parameters of the underwater contact explosion based on the axisymmetric smoothed particle hydrodynamics （SPH）... This paper investigates the effects of charge parameters of the underwater contact explosion based on the axisymmetric smoothed particle hydrodynamics (SPH)...
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StartPage	453
SubjectTerms	Applications of Mathematics Axisymmetric Charge Classical Mechanics Contact Detonation Explosions Fluid- and Aerodynamics Impulses Mathematical Modeling and Industrial Mathematics Mathematical models Mathematics Mathematics and Statistics Partial Differential Equations Peak pressure Underwater
Title	Investigation on charge parameters of underwater contact explosion based on axisymmetric SPH method
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