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弹丸倾斜入射时40CrNi2Mo钢抗弹性能研究 被引量:1

Research of ballistic behavior of oblique 40CrNi2Mo steel targets with different strength
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摘要 为了研究弹丸倾斜入射时抗拉强度对钢板抗弹性能的影响,利用12.7mm穿甲燃烧弹对18mm厚不同抗拉强度的40CrNi2Mo钢板进行抗弹性能测试。观察钢板以不同倾斜角度放置时出现的损伤形貌,评定了安全角,并测量背凸高度,弹坑长度和深度,分析不同抗拉强度钢板在倾斜入射时的穿甲机理。结果表明,安全角随着抗拉强度的升高,呈现非单调变化的趋势。抗拉强度在1470MPa以下的钢板被倾斜击穿时,弹丸动能的大部分消耗在开坑和塑性扩孔阶段,安全角随抗拉强度升高而减小。抗拉强度超过1700MPa的钢板,其击穿弹坑仅有开坑区和冲塞破坏区,安全角再次随着抗拉强度的升高而减小。 To research the influence of tensile strength on ballistic behavior of oblique steel targets, armor piercing projectiles of diameter 12.7 mm were fired at 40CrNi2Mo steel targets of 18 mm thickness with different tensile strength. The primary results were obtained by evaluation of critical angle, observing damaged steel oblique targets, and measurement of bulge height, craters length and depth. The penetration mechanics of oblique steel targets with different tensile strength were analyzed. The results show that the critical angle varies non-monotonically with increasing tensile strength. When the oblique steel targets with tensile strength below 1 470 MPa are penetrated, kinetic energy of projectile is mainly absorbed in cratering and ductile hole enlargement and the critical angle decreases with increasing tensile strength. Only cratering and plugging failure can be found in the penetrating craters of oblique steel targets with tensile strength above 1 700 MPa. The critical angle decreases again with increasing tensile strength.
作者 李晓源 时捷 董瀚
机构地区 钢铁研究总院结构材料研究所
出处 《兵器材料科学与工程》 CAS CSCD 北大核心 2008年第6期45-49,共5页 Ordnance Material Science and Engineering
关键词 40CRNI2MO钢 抗拉强度 抗弹性能 穿甲机理 安全角 40CrNi2Mo steel tensile strength ballistic performance penetration mechanics critical angle
分类号 TG146.11 [金属学及工艺—金属材料]
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参考文献14

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二级参考文献2

共引文献19

同被引文献6

  • 1Corbett G G, Reid S R, Johnson W. Impact loading of platesand shells by free-flying projectiles: A review[J]. International Journal of Impact Engineering, 1996,18(2) : 141-230.
  • 2Gupta N K, Madhu V. Normal and oblique impact of energy "projectile on mild steel plates [J]. International Journal of Impact Engineering, 1992, 12 (3) :333-343.
  • 3Balos S, Grabulov V, Sidjanin L, et al. Geometry, mechanical properties and mounting of perforated plates for ballistic appli cation[J]. Materials and Design, 2010,31 (6) :2916-2924.
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  • 5胡丽萍,王智慧,满红,王和平,郭领.孔结构间隙复合装甲位置效应研究[J].兵器材料科学与工程,2010,33(1):89-90. 被引量:7
  • 6时捷,董瀚,王琪,刘燕林.硬度对装甲钢板抗弹性能的影响[J].钢铁研究学报,2000,12(3):36-41. 被引量:19

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兵器材料科学与工程
2008年 第6期

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