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Summary & Details

Development of Thermal Management and Noise/Vibration Control Material Model Technology by Model-Based Research (MBR) (2nd Report)

モデルベースリサーチ（MBR）による熱マネ・NV制御材料モデル技術の開発（第2報）

Delivery: Available on this site

Format: PDF

Price: Non-members (tax incl.)：￥1,100 Members (tax incl.)：￥880

Publication code: 20225223

Paper/Info type: Proceedings (Spring)

No.50-22

Pages: 1-6(Total 6 p)

Date of publication: May 2022

Publisher: JSAE

Language: Japanese

Event: 2022 JSAE Annual Congress (Spring)

Detailed Information

Author(J)	1) 山川啓介, 2) 山本崇史, 3) 桂大詞, 4) 井上実, 5) 畠山望, 6) 三浦隆治, 7) 岡島淳之介, 8) 稲葉賢二, 9) 石澤由紀江, 10) 遊川秀幸, 11) 伊東博之, 12) 石元孝佳, 13) 大下浄治
Author(E)	1) Keisuke Yamakawa, 2) Takashi Yamamoto, 3) Daiji Katsura, 4) Minoru Inoue, 5) Nozomu Hatakeyama, 6) Ryuji Miura, 7) Junnosuke Okajima, 8) Kenji Inaba, 9) Yukie Ishizawa, 10) Hideyuki Yukawa, 11) Hiroyuki Ito, 12) Takayoshi Ishimoto, 13) Joji Ohshita
Affiliation(J)	1) マツダ, 2) 広島大学／工学院大学, 3) マツダ, 4) マツダ, 5) 広島大学／東北大学, 6) 広島大学／東北大学, 7) 広島大学／東北大学, 8) 広島大学, 9) 広島大学, 10) マツダ／広島大学, 11) 東洋シート, 12) 工学院大学／広島大学, 13) 広島大学
Affiliation(E)	1) Mazda, 2) Hiroshima University/Kogakuin University, 3) Mazda, 4) Mazda, 5) Hiroshima University/Tohoku University, 6) Hiroshima University/Tohoku University, 7) Hiroshima University/Tohoku University, 8) Hiroshima University, 9) Hiroshima University, 10) Mazda/Hiroshima University, 11) Toyo Seat, 12) Kogakuin University/Hiroshima University, 13) Hiroshima University
Abstract(J)	革新的な多機能材料を効率的に開発するために、モデルベースリサーチ（MBR）の考え方に基づいて、これまでに多孔質材料の吸遮音機能と伝熱機能を設計する微視構造設計モデル技術を開発した。今回、本モデルで構成素材の動的粘弾性を考慮した防振機能を設計可能とした。本技術とその検証結果について報告する。 Translation
Abstract(E)	In order to efficiently develop innovative multifunctional materials, based on the concept of model-based research (MBR), we have previously developed a microstructure design model technology to design the sound insulation, sound absorption and heat transfer functions of porous materials. In this study, we have made it possible to design the vibration isolation function by considering the dynamic viscoelasticity of the constituent materials in this model. We report on this technology and its validation results.

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