超高性能混凝土有限靶材的高速冲击实验和定量损伤评估

IF 2.1 Q2 ENGINEERING, CIVIL
C. Sauer, Jan Burtsche, Andreas Heine, Christoph Roller, Werner Riedel
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引用次数: 0

摘要

在这项工作中,我们的目标是改进射弹撞击超高性能混凝土 (UHPC) 所造成的目标损坏的特征描述。为此,我们展示了球形钢射弹与有限厚度超高强度混凝土靶(抗压圆柱体强度约为 115 兆帕)在约 600 米/秒至 1500 米/秒的冲击速度范围内进行高速冲击实验的结果。从这些实验中获得的数据集包括射弹的残余速度以及定性和定量的损伤信息。定量损伤信息主要从三维扫描生成的数字三维死后目标中提取。对于所有损伤量,都讨论了与撞击速度和目标厚度的关系,并利用这些关系为特定类型损伤的起源提供了可能的解释。本研究中展示的大型数据集可作为全面、定量验证和确认分析、经验和数值模型的基础,这些模型描述了在所研究的冲击速度范围内超高强度混凝土目标的穿孔情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-velocity impact experiments and quantitative damage evaluation for finite ultra-high-performance concrete targets
In this work, we aim at improved characterization of target damage occurring as the result of projectile impact against ultra-high-performance concrete (UHPC). For this purpose, we present the results of high-velocity impact experiments with spherical steel projectiles and finite-thickness UHPC targets of approximately 115 MPa compressive cylinder strength in the impact velocity range from approximately 600 m/s to 1500 m/s. The data set obtained from these experiments includes residual projectile velocities as well as qualitative and quantitative information on damage. Quantitative damage information is mainly extracted from digital 3D post mortem targets, which are produced by 3D-scanning. For all damage quantities, a dependence on the impact velocity and the target thickness is discussed and used to provide possible explanations for the origin of the particular type of damage. The large data set presented in this work can constitute the basis for a comprehensive and quantitative verification and validation of analytical, empirical, and numerical models that describe the perforation of UHPC targets in the investigated impact velocity range.
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来源期刊
CiteScore
4.30
自引率
25.00%
发文量
48
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