Crater shape as a possible record of the impact environment of metallic bodies: Effects of temperature, impact velocity and impactor density

Ogawa, Ryo; Nakamura, Akiko M.; Suzuki, Ayako, I; Hasegawa, Sunao

https://hdl.handle.net/20.500.14094/90008358

このアイテムのアクセス数:153件（2026-02-06 17:01 集計）

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メタデータID	90008358
アクセス権	open access
出版タイプ	Accepted Manuscript
タイトル	Crater shape as a possible record of the impact environment of metallic bodies: Effects of temperature, impact velocity and impactor density
著者	Ogawa, Ryo ; Nakamura, Akiko M. ; Suzuki, Ayako, I ; Hasegawa, Sunao
著者名 Ogawa, Ryo
著者ID A0022 研究者ID 1000040260012 KUID https://kuid-rm-web.ofc.kobe-u.ac.jp/search/detail?systemId=f72f241cf9e5ef33520e17560c007669 著者名 Nakamura, Akiko M. 中村, 昭子ナカムラ, アキコ所属機関名理学研究科
著者名 Suzuki, Ayako, I
著者名 Hasegawa, Sunao
言語	English (英語)
収録物名	Icarus
巻(号)	362
ページ	114410
出版者	Elsevier
刊行日	2021-07-01
公開日	2023-08-01
抄録	Metallic bodies that were the cores of differentiated bodies are sources of iron meteorites and are considered to have formed early in the terrestrial planet region before migrating to the main asteroid belt. Surface temperatures and mutual collision velocities differ between the terrestrial planet region and the main asteroid belt. To investigate the dependence of crater shape on temperature, velocity and impactor density, we conducted impact experiments on room- and low-temperature iron meteorite and iron alloy targets (carbon steel SS400 and iron-nickel alloy) with velocities of 0.8-7 km s(-1). The projectiles were rock cylinders and metal spheres and cylinders. Oblique impact experiments were also conducted using stainless steel projectiles and SS400 steel targets which produced more prominent radial patterns downrange at room temperature than at low temperature. Crater diameters and depths were measured and compiled using non-dimensional parameter sets based on the π-group crater scaling relations. Two-dimensional numerical simulations were conducted using iSALE-2D code with the Johnson-Cook strength model. Both experimental and numerical results showed that the crater depth and diameter decreased with decreasing temperature, which strengthened the target, and with decreasing impact velocity. The decreasing tendency was more prominent for depth than for diameter, i.e., the depth/diameter ratio was smaller for the low temperature and low velocity conditions. The depth/diameter ratios of craters formed by rock projectiles were shallower than those of craters formed by metallic projectiles. Our results imply that the frequency distribution of the depth/diameter ratio for craters on the surface of metallic bodies may be used as a probe of the past impact environment of metallic bodies.
キーワード	Impact processes
	Asteroids
	Meteorites
	Iron meteorite
	Crater
カテゴリ	理学研究科
カテゴリ	学術雑誌論文
権利	© 2021 Elsevier Inc.
権利	This manuscript version is made available under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International license.
関連情報	DOI https://doi.org/10.1016/j.icarus.2021.114410

資源タイプ	journal article
ISSN	0019-1035　OPACで所蔵を検索　 CiNiiで学外所蔵を検索
NCID	AA00224921　OPACで所蔵を検索　 CiNiiで表示

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