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Ships and Offshore Structures Volume 17, 2022 - Issue 7
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Articles

Investigations on a moving target’s penetration into the seabed sediment using the ALE technique

Wenyang Duana College of Shipbuilding Engineering, Harbin Engineering University, Harbin, People’s Republic of ChinaView further author information
,
Zhang Shia College of Shipbuilding Engineering, Harbin Engineering University, Harbin, People’s Republic of ChinaView further author information
,
Yaomin Yangb National Deep Sea Center, Qingdao, People’s Republic of ChinaView further author information
&
Limin Huanga College of Shipbuilding Engineering, Harbin Engineering University, Harbin, People’s Republic of ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-7944-2754View further author information
ORCID Icon
Pages 1475-1484 | Received 17 Dec 2020, Accepted 11 May 2021, Published online: 01 Jun 2021
 
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ABSTRACT

Accurate prediction about the penetration depth of moving targets is vital for the deep-sea target detection. Moving targets penetrating into the seafloor sediment always produce large deformation, the Arbitrary Lagrangian-Eulerian (ALE) technique has better grid adaptability and it can solve the mesh distortion generated by moving targets penetrating into seafloor sediment. Therefore, in the present work, investigations on the moving targets’ penetration into seafloor sediment are conducted based on the ALE technique. The physical process of moving targets’ penetrating into the seafloor sediment is simulated using the ALE technique. Results by the ALE technique are compared with empirical results and experimental results to verify the ALE method. On the basis of the verification study, the effects of sediment property and target’s mass, impact velocity and penetration angle on penetration depth are also explored.

Acknowledgment

The authors show their gratitude to Dr YS Chen from National Deep Sea Center.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Additional information

Funding

The present work is sponsored by the National Natural Science Foundations (grant number 51490671) and (grant number 51809066).

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