Numerical simulations of target hole diameters for hypervelocity impacts into elevated and room temperature bumpers

B.M. Corbett

首页> 外文期刊>International journal of impact engineering >Numerical simulations of target hole diameters for hypervelocity impacts into elevated and room temperature bumpers

【24h】

Numerical simulations of target hole diameters for hypervelocity impacts into elevated and room temperature bumpers

机译：高速撞击目标高温保险杠的目标孔直径的数值模拟

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Normal impacts between 3.175 mm diameter 1100-O Al spherical projectiles and 1.6mm thick 6061-T6 Al targets are considered for both room temperature and heated targets. The elevated target temperatures under examination are 110 and 210℃, and the simulated impact velocities range from approximately 2 to7km/s. The AUTODYN v.5 hydrocode is used to generate data that are compared to empirical data obtained from the literature, and to that obtained with the University of Denver Research Institute's (DRI) two-stage light gas gun. The effect of using applicable strength and fracture models currently available in AUTODYN to replicate both room and elevated temperature target hole diameters is also examined. It was found that the numerical simulations for both room and elevated temperature targets predict hole diameters that differ approximately 0.1-13% from the DRI empirical data.

机译：对于室温和加热目标，均考虑了直径3.175毫米的1100-O Al球形弹丸与1.6毫米厚的6061-T6 Al靶之间的正常冲击。所检查的目标温度升高了110和210℃，模拟的撞击速度范围约为2至7 km / s。 AUTODYN v.5液压代码用于生成数据，该数据与从文献中获得的经验数据以及由丹佛大学研究所（DRI）的两级轻气枪获得的经验数据进行比较。还检查了使用AUTODYN中当前可用的适用强度和断裂模型来复制室温和高温目标孔直径的效果。已经发现，室温和高温目标的数值模拟预测的孔直径与DRI经验数据相差约0.1-13％。

著录项

来源
《International journal of impact engineering》 |2006年第12期|p.431-440|共10页
作者
B.M. Corbett;
展开▼
作者单位

Department of Engineering and Materials Science, University of Denver, Denver, CO, USA;

展开▼
收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
hypervelocity impact; temperature effects; hole diameter; numerical simulation; orbital debris;

机译：超高速冲击;温度效应;孔径;数值模拟;轨道碎片;

相似文献

外文文献
中文文献
专利

1. Hypervelocity impacts on asteroids and momentum transfer I. Numerical simulations using porous targets [J] . Martin Jutzi, Patrick Michel Icarus: International Journal of Solar System Studies . 2014,第Null期

机译：超高速对小行星和动量传递的影响I.使用多孔目标的数值模拟
2. Temperature Effects on Bumper Hole Diameter for Impact Velocities from 2 to 7 km/s [J] . Brooke A. Myers, William P. Schonberg, Joel E. Williamsen International journal of impact engineering . 2003,第1a10期

机译：2至7 km / s的冲击速度对保险杠孔直径的温度影响
3. Scaling laws for size distribution of fragments resulting from hypervelocity impacts of aluminum alloy spherical projectiles on thick aluminum alloy targets: Effects of impact velocity and projectile diameter [J] . Nishida Masahiro, Hiraiwa Yasuyuki, Hayashi Koichi, International journal of impact engineering . 2017,第nova期

机译：铝合金球形弹丸对厚铝合金靶的超高速冲击所产生的碎片尺寸分布的尺度定律：冲击速度和弹丸直径的影响
4. Numerical Simulation of Hypervelocity Impact on Mesh Bumper Causing Fragmentation and Ejection [C] . Guan Gongshun, Niu Ruitao International conference on fracture and damage mechanics . 2013

机译：超高速撞击对网状保险杠造成破碎和弹射的数值模拟
5. Hypervelocity impact damage response and characterization of thin plate targets at elevated temperatures. [D] . Corbett, Brooke Myers. 2008

机译：超高速冲击损伤响应和高温下薄板靶材的表征。
6. The numerical simulation and experimental study of heat release in a heat storage system with various diameters of aluminum tubes [O] . Zhengbin He, Qian Wan, Zhenyu Wang, 2019

机译：各种直径铝管储热系统散热的数值模拟与实验研究
7. Analytical Prediction of Hole Diameter in Thin Plates Due to Hypervelocity Impact of Spherical Projectiles [O] . William H. Jolly, William P. Schonberg 1997

机译：球形射弹超细型冲击引起的薄板孔径的分析预测
8. Numerical Simulations of Hypervelocity Impact Experiments Involving SingleWhipple Bumper Shields [R] . Medina, D. F., Maethner, S. R. 1993

机译：单个保险杠护罩超高速撞击试验的数值模拟

Numerical simulations of target hole diameters for hypervelocity impacts into elevated and room temperature bumpers

摘要

著录项

相似文献

相关主题

期刊订阅