Real-time numerical calculation for penetration depth of projectiles into concrete targets

Dongmei Zhang; Shiqiao Gao; Haipeng Liu; Zongbao Liu; Shaohua Niu

doi:10.1080/15397734.2017.1362985

Real-time numerical calculation for penetration depth of projectiles into concrete targets

Dongmei Zhang^*, Shiqiao Gao, Haipeng Liu, Zongbao Liu, Shaohua Niu

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Based on the acceleration data measured by penetration experiments with ogive-nose projectiles into semi-infinite concrete targets, a fuzzy method which can calculate the real-time penetration depth was developed. In the proposed method, the whole process of penetration was divided into three stages according to the instantaneous velocity, and each stage was described by different models. By judging the calculation error, threshold velocities between stages were automatically determined. Meanwhile, the striking velocity of the penetration process was calculated using the acceleration in whole trajectory. The calculated values by model are in reasonably good agreement with the measured data from experiments.

Original language	English
Pages (from-to)	520-531
Number of pages	12
Journal	Mechanics Based Design of Structures and Machines
Volume	46
Issue number	4
DOIs	https://doi.org/10.1080/15397734.2017.1362985
Publication status	Published - 2018

Keywords

Concrete
fuzzy method
penetration depth
real-time calculation

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10.1080/15397734.2017.1362985

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title = "Real-time numerical calculation for penetration depth of projectiles into concrete targets",

abstract = "Based on the acceleration data measured by penetration experiments with ogive-nose projectiles into semi-infinite concrete targets, a fuzzy method which can calculate the real-time penetration depth was developed. In the proposed method, the whole process of penetration was divided into three stages according to the instantaneous velocity, and each stage was described by different models. By judging the calculation error, threshold velocities between stages were automatically determined. Meanwhile, the striking velocity of the penetration process was calculated using the acceleration in whole trajectory. The calculated values by model are in reasonably good agreement with the measured data from experiments.",

keywords = "Concrete, fuzzy method, penetration depth, real-time calculation",

author = "Dongmei Zhang and Shiqiao Gao and Haipeng Liu and Zongbao Liu and Shaohua Niu",

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T1 - Real-time numerical calculation for penetration depth of projectiles into concrete targets

AU - Zhang, Dongmei

AU - Gao, Shiqiao

AU - Liu, Haipeng

AU - Liu, Zongbao

AU - Niu, Shaohua

PY - 2018

Y1 - 2018

N2 - Based on the acceleration data measured by penetration experiments with ogive-nose projectiles into semi-infinite concrete targets, a fuzzy method which can calculate the real-time penetration depth was developed. In the proposed method, the whole process of penetration was divided into three stages according to the instantaneous velocity, and each stage was described by different models. By judging the calculation error, threshold velocities between stages were automatically determined. Meanwhile, the striking velocity of the penetration process was calculated using the acceleration in whole trajectory. The calculated values by model are in reasonably good agreement with the measured data from experiments.

AB - Based on the acceleration data measured by penetration experiments with ogive-nose projectiles into semi-infinite concrete targets, a fuzzy method which can calculate the real-time penetration depth was developed. In the proposed method, the whole process of penetration was divided into three stages according to the instantaneous velocity, and each stage was described by different models. By judging the calculation error, threshold velocities between stages were automatically determined. Meanwhile, the striking velocity of the penetration process was calculated using the acceleration in whole trajectory. The calculated values by model are in reasonably good agreement with the measured data from experiments.

KW - Concrete

KW - fuzzy method

KW - penetration depth

KW - real-time calculation

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JO - Mechanics Based Design of Structures and Machines

JF - Mechanics Based Design of Structures and Machines

IS - 4

ER -

Real-time numerical calculation for penetration depth of projectiles into concrete targets

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Keywords

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