Oblique impact at the tip of a cantilever

D. Shu; W. J. Stronge; T. X. Yu

doi:10.1016/0734-743X(92)90315-K

Oblique impact at the tip of a cantilever

D. Shu^*, W. J. Stronge, T. X. Yu

^*Corresponding author for this work

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

7 Citations (Scopus)

Abstract

Simultaneous transverse and axial impulsive loads on a block at the tip of a rigid-plastic cantilever result in a flexural "plastic hinge" and a pulse of plastic stretch that separate as they travel away from the tip. Experiments on aluminium alloy cantilevers show that the axial component of a brief explosive blast pulse does not significantly influence flexural deformation if the block is light in comparison with the cantilever. The additional consideration of finite rotary inertia for the mass at the tip reduces the flexural deformation near the tip.

Original language	English
Pages (from-to)	37-47
Number of pages	11
Journal	International Journal of Impact Engineering
Volume	12
Issue number	1
DOIs	https://doi.org/10.1016/0734-743X(92)90315-K
Publication status	Published - 1992
Externally published	Yes

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title = "Oblique impact at the tip of a cantilever",

abstract = "Simultaneous transverse and axial impulsive loads on a block at the tip of a rigid-plastic cantilever result in a flexural {"}plastic hinge{"} and a pulse of plastic stretch that separate as they travel away from the tip. Experiments on aluminium alloy cantilevers show that the axial component of a brief explosive blast pulse does not significantly influence flexural deformation if the block is light in comparison with the cantilever. The additional consideration of finite rotary inertia for the mass at the tip reduces the flexural deformation near the tip.",

author = "D. Shu and Stronge, \{W. J.\} and Yu, \{T. X.\}",

year = "1992",

doi = "10.1016/0734-743X(92)90315-K",

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T1 - Oblique impact at the tip of a cantilever

AU - Shu, D.

AU - Stronge, W. J.

AU - Yu, T. X.

PY - 1992

Y1 - 1992

N2 - Simultaneous transverse and axial impulsive loads on a block at the tip of a rigid-plastic cantilever result in a flexural "plastic hinge" and a pulse of plastic stretch that separate as they travel away from the tip. Experiments on aluminium alloy cantilevers show that the axial component of a brief explosive blast pulse does not significantly influence flexural deformation if the block is light in comparison with the cantilever. The additional consideration of finite rotary inertia for the mass at the tip reduces the flexural deformation near the tip.

AB - Simultaneous transverse and axial impulsive loads on a block at the tip of a rigid-plastic cantilever result in a flexural "plastic hinge" and a pulse of plastic stretch that separate as they travel away from the tip. Experiments on aluminium alloy cantilevers show that the axial component of a brief explosive blast pulse does not significantly influence flexural deformation if the block is light in comparison with the cantilever. The additional consideration of finite rotary inertia for the mass at the tip reduces the flexural deformation near the tip.

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:A1992HM38000004

UR - https://openalex.org/W1966346956

UR - https://www.scopus.com/pages/publications/0026678958

U2 - 10.1016/0734-743X(92)90315-K

DO - 10.1016/0734-743X(92)90315-K

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VL - 12

SP - 37

EP - 47

JO - International Journal of Impact Engineering

JF - International Journal of Impact Engineering

IS - 1

ER -

Oblique impact at the tip of a cantilever

Abstract

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