Experimental Research on Behavior of Composite Material Projectile Penetrating Concrete Target 被引量：2

Experimental Research on Behavior of Composite Material Projectile Penetrating Concrete Target

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摘要 Projectile made of carbon fiber composite material shell and metal warhead penetrates concrete target at speeds of 336,m/s,447,m/s and 517,m/s.The angles between the perpendicu-lar of target surface and projectile axis are 0°and 30°.The thickness of concrete target is 200,mm and the compression strength is 30 MPa.The experimental results indicate that the strength of composite material structure is high.Composite projectile can go through concrete tar-get without fiber segregation and breakage.The percent fill is 18.5% in the composite material projectile.It is about twice as that of metal projectile,if the density of metal is taken as 7.8,g/cm3.Comparing with metal projectile,low-density,high-strength composite material can lessen projec-tile weight,improve charge-weight ratio of detonator and enhance destructive powder. Projectile made of carbon fiber composite material shell and metal warhead penetrates concrete target at speeds of 336 m/s, 447 m/s and 517 m/s. The angles between the perpendicular of target surface and projectile axis are 0° and 30° . The thickness of concrete target is 200 mm and the compression strength is 30 MPa. The experimental results indicate that the strength of composite material structure is high. Composite projectile can go through concrete target without fiber segregation and breakage. The percent fill is 18.5% in the composite material projectile. It is about twice as that of metal projectile, if the density of metal is taken as 7.8 g/cm^3. Comparing with metal projectile, low-density, high-strength composite material can lessen projectile weight, improve charge-weight ratio of detonator and enhance destructive powder.

作者钟卫洲宋顺成张方举张青平黄西成李思忠卢永刚

机构地区 Department of Applied Mechanics and Engineering Institute of Structural Mechanics

出处《Transactions of Tianjin University》 EI CAS 2008年第6期430-433,共4页 天津大学学报（英文版）

基金 Supported by Arm Equipment Exploration Project(No.6130516).

关键词 composite material PENETRATING carbon fiber CONCRETE 复合材料碳化纤维混泥土建筑材料

分类号 O385 [理学—流体力学]

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2008年第6期

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