RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

In this study, kinetics and kinematics of perforation process for various penetrator- target plate combinations is analyzed, a methodology in a flow chart format to decide on failure mode, and for each failure mode, an appropriate combined analytical model that requires only common test data is proposed. The proposed methodology and analytical models that are recommended for the related failure mode are assessed by using a huge amount of test data from the literature. The penetrator-target plate configurations cover the penetrators with ogive, conical, hemi-spherical and blunt noses, at different plate thicknesses, and plate thickness to penetrator diameter ratios, made of different metallic materials. Analyzed failure modes include ductile hole enlargement, plugging, dishing, and petal forming. Assessment is done for impact velocities ranging between 215-863 m/s. The estimations based on the proposed flow chart and recommended failure models are in good agreement with the related test data and numerical analysis results.

참고문헌 (Reference)

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2 R. F. Bishop, "The theory of indentation and hardness tests" 57 (57): 147-159, 1945

3 M. E. Backman, "The mechanics of penetration of projectiles into targets" 16 (16): 1-99, 1978

4 B. Saint, "The manufacturing and ballistic testing of tri-axial quasi three-dimensional woven composites layered in polyurea" The University of Mississippi 2013

5 G. I. Taylor, "The formation and enlargement of a circular hole in a thin plastic plate" 1 : 103-124, 1948

6 V. Bhure, "The effect of target thickness on ballistic resistance of thin aluminium plates" 2018

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8 Z. Rosenberg, "Terminal Ballistics" Springer 2016

9 Y. Xu, "Stabbing resistance of soft ballistic body armour impregnated with shear thickening fluid" University of Manchester 2017

10 M. Buchely, "Spherical cavity expansion approach for the study of rigid-penetrator's impact problems" 1 : 20-46, 2020

1 H. M. Wen, "Transition of plugging failure modes for ductile metal plates under impact by flat-nosed projectiles" 38 : 86-104, 2010

2 R. F. Bishop, "The theory of indentation and hardness tests" 57 (57): 147-159, 1945

3 M. E. Backman, "The mechanics of penetration of projectiles into targets" 16 (16): 1-99, 1978

4 B. Saint, "The manufacturing and ballistic testing of tri-axial quasi three-dimensional woven composites layered in polyurea" The University of Mississippi 2013

5 G. I. Taylor, "The formation and enlargement of a circular hole in a thin plastic plate" 1 : 103-124, 1948

6 V. Bhure, "The effect of target thickness on ballistic resistance of thin aluminium plates" 2018

7 R. Hill, "The Mathematical Theory of Plasticity" Oxford University Press 1950

8 Z. Rosenberg, "Terminal Ballistics" Springer 2016

9 Y. Xu, "Stabbing resistance of soft ballistic body armour impregnated with shear thickening fluid" University of Manchester 2017

10 M. Buchely, "Spherical cavity expansion approach for the study of rigid-penetrator's impact problems" 1 : 20-46, 2020

11 Z. Rosenberg, "Revisiting the perforation of ductile plates by sharp-nosed rigid projectiles" 47 : 238-250, 2010

12 A. J. Piekutowski, "Perforation of aluminum plates with ogive-nose steel rods at normal and oblique impacts" 18 (18): 877-887, 1996

13 T. Borvik, "Perforation of AA5083-H116 aluminum plates with conical-nose steel projectiles-experimental study" 30 : 367-384, 2004

14 M. J. Forrestal, "Penetration equations for ogive-nose rods into aluminum targets" 35 : 727-730, 2008

15 M. S. Sodha, "On physics of armor penetration" 29 (29): 1769-1770, 1958

16 A. Tate, "Long rod penetration models - part II. Extensions to the hydrodynamic theory of penetration" 28 (28): 599-612, 1986

17 V. K. Luk, "Dynamic spherical cavity expansion of strain-hardening materials" 58 (58): 1-6, 1991

18 F. Teresa, "Dynamic perforation of ultrahard high-strength armor steel : impact experiments and modeling" 131 : 256-271, 2019

19 H. G. Hopkins, "Dynamic expansion of spherical cavities in metals" North-Holland Publishing Co 1 (1): 5-16, 1960

20 F. J. Zerilli, "Dislocation mechanics based constitutive relations for material dynamic calculations" 61 (61): 1816-1825, 1987

21 A. Banarjee, "Determination of Johnson Cook material and failure model constants and numerical modelling of Charpy impact test of armour steel" A640 : 200-209, 2015

22 Q. P. Sun, "Chapter Three: Symmetric Bending of Circle Plates"

23 R. Recht, "Ballistic perforation dynamics" 30 : 384-390, 1963

24 S. Satapathy, "Application of cavity expansion analysis to penetration problems" The University of Texas at Austin 1997

25 M. Pasquali, "Analytical prediction of highvelocity impact resistance of plane and curved thin composite targets" 98 : 111-118, 2019

26 C. E. Anderson, "Analytical models for penetration mechanics : a review" 108 : 3-26, 2017

27 G. Ben-Dor, "Analytical engineering models of highspeed normal impact by hard projectiles on metal shields" 3 (3): 349-373, 2013

28 H. A. Bethe, "An attempt at a theory of an armor penetration, Ordnance Laboratory Report" Frankford Arsenal 1941

29 R. Hill, "A theory of the plastic bulging of a metal diaphragm by lateral pressure" 41 (41): 1133-1142, 1950

30 R. L. Woodward, "A study of the perforation of aluminum laminate targets" 21 (21): 117-131, 1998

31 G. R. Johnson, "A constitutive model and data for metals subjected to large strains, high strain rates and high temperatures" 541-547, 1983

연월일	이력구분	이력상세
2023	평가예정	해외DB학술지평가 신청대상 (해외등재 학술지 평가)
2020-01-01	평가	등재학술지 유지 (해외등재 학술지 평가)
2012-11-05	학술지명변경	한글명 : 대한기계학회 영문 논문집 -> Journal of Mechanical Science and Technology
2010-01-01	평가	등재학술지 유지 (등재유지)
2008-01-01	평가	등재학술지 유지 (등재유지)
2006-01-19	학술지명변경	한글명 : KSME International Journal -> 대한기계학회 영문 논문집 외국어명 : KSME International Journal -> Journal of Mechanical Science and Technology
2006-01-01	평가	등재학술지 유지 (등재유지)
2004-01-01	평가	등재학술지 유지 (등재유지)
2001-01-01	평가	등재학술지 선정 (등재후보2차)
1998-07-01	평가	등재후보학술지 선정 (신규평가)

기준연도	WOS-KCI 통합IF(2년)	KCIF(2년)	KCIF(3년)
2016	1.04	0.51	0.84
KCIF(4년)	KCIF(5년)	중심성지수(3년)	즉시성지수
0.74	0.66	0.369	0.12

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Analyses of plate perforation for various penetrator-target plate combinations

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