大型複材結構低頻聲場預測研究

Peng-Kuei Chen; 陳鵬奎

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/64883

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳琪芳
dc.contributor.author	Peng-Kuei Chen	en
dc.contributor.author	陳鵬奎	zh_TW
dc.date.accessioned	2021-06-16T23:05:19Z	-
dc.date.available	2025-03-03
dc.date.copyright	2020-03-03
dc.date.issued	2020
dc.date.submitted	2020-02-24
dc.identifier.citation	[1] ‘https://kknews.cc/military/y2l4glk.html’ [2] ‘Project 971 Shchuka-B/Akula class SSN RFS Tigr(K-154) fiberglass sonar dome[https://twitter.com/saturnax1/status/1173162099276693506]’, 2019 [3] Chakravorty, P., and Rao, V.B.: ‘Some Aspects in the Design of Sonar domes’, Defence Science Journal, 1982, 32, (1), pp. 47-54 [4] Kuo, E.Y.: ‘Acoustic Field Generated by a Vibrating Boundary. I. General Formulation and Sonar‐Dome Noise Loading’, The Journal of the Acoustical Society of America, 1968, 43, (1), pp. 25-31 [5] Maidanik, G.: ‘Domed sonar system’, The Journal of the Acoustical Society of America, 1968, 44, (1), pp. 113-124 [6] Kopuz, S., and Lalor, N.: ‘Analysis of interior acoustic fields using the finite element method and the boundary element method’, Applied Acoustics, 1995, 45, (3), pp. 193-210 [7] Larbi, W., Deü, J.F., and Ohayon, R.: ‘A new finite element formulation for internal acoustic problems with dissipative walls’, International journal for numerical methods in engineering, 2006, 68, (3), pp. 381-399 [8] Deü, J.-F., Larbi, W., and Ohayon, R.: ‘Vibration and transient response of structural–acoustic interior coupled systems with dissipative interface’, Computer Methods in Applied Mechanics and Engineering, 2008, 197, (51-52), pp. 4894-4905 [9] D’Souza, K., Sett, S., Jung, W.-J., Shin, K.-K., and Lee, Y.-H.: ‘Modeling the Structural and Acoustic Behavior of a Sonar Dome with ABAQUS’, in Editor (Ed.)^(Eds.): ‘Book Modeling the Structural and Acoustic Behavior of a Sonar Dome with ABAQUS’ (2006, edn.), pp. [10] Brunner, D., Junge, M., and Gaul, L.: ‘A comparison of FE–BE coupling schemes for large‐scale problems with fluid–structure interaction’, International Journal for Numerical Methods in Engineering, 2009, 77, (5), pp. 664-688 [11] 張洋波: ‘聲納導流罩內聲場特性研究’, 聲學技術Technical Acoustics, 2014, 33 [12] 李楠, 謝會超, and 陳練: ‘國外海軍艦船複合材料聲納罩的應用與發展’, 艦船科學技術, 2017, 第39卷第11期, pp. 5 [13] 林澄貴: ‘潛艦聲納護罩設計與測試之研究’, 台船季刊, 2019, 40 [14] R.J.Urick: ‘Principles of underwater sound’, 1975 [15] 王栢村: ‘實驗模態分析─振動理論分析基礎’ [16] Multiphysics, C.: ‘Acoustic Module User's Guide’ [17] ‘中華人民共和國國家軍用標準GJB275-87，'聲納導流罩聲性能測量方法'’, 1987年10月1日實施 [18] 王紀會, 劉雨東, 劉彥森: ‘半球型聲納導流罩空腔內部聲場分析,’ 機械工程與自動化, 2010, 3 [19] 盧士一, 陳秋蓉, '有限元素法在聲振耦合分析應用,' 台灣聲學學會, 2005. [20] 李雅榮, 林輝政, 方濂, '水下聲源特性~船體振動部分,' 國科會國防科技學75 術合作案研究報告, 1987. [21] 錢德進, 繆旭弘, 賈地, ' 敷設尖劈的艦船聲納腔自噪音特性仿真研究,' System Simulation Technology & Application, 2012, 40
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/64883	-
dc.description.abstract	聲納罩通常安裝於船艏、龍骨或船體，主要用於安放導航、偵測系統或測距聲納，內部填充淡水或海水以維持形狀與內外壓力平衡。作為保護聲納的重要元件，採用橡膠或玻璃纖維強化塑膠(Fiber-reinforced plastic, FRP)，提供優化的結構與聲學性能以保證聲納系統效能，實現減重、耐腐蝕、降低製造與維護成本的優點。本研究使用複合材料聲納罩模型資料，及參考當前各國聲納護罩發展經驗，利用有限元素分析(Finite element analysis, FEA)軟體COMSOL Multiphysics建立聲固耦合(acoustic-structure coupling)數值模型進行聲納罩結構內部聲場響應分析。本文模擬從不同角度入射平面波所形成的聲納罩內部聲場。首先與參考文獻的數值計算結果比較，驗證本文數值模型之準確性，然後對低頻範圍進行模擬計算；分析結果發現結構共振頻率與聲壓響應頻率十分吻合，並影響了內部聲場模態；由不同頻率、不同聲波傳播方向的分析結果發現聲場模態的分佈、結構頻率響應、結構形狀與材料特性均會影響聲納系統的聲波接收效能。本研究以聲納罩內部聲壓與入射聲壓之比值做為指標探討聲納護罩的工作效能，將有助於後續聲納罩設計之參考。	zh_TW
dc.description.abstract	Sonar domes are located at the bow or on the keel or hull of surface ships and filled with fresh or seawater to maintain their shape and design pressure. Their purpose is to house electronic equipment for navigating, detection or ranging. As an important part of protecting sonar system, sonar domes are made of rubber, steel or Fiber-reinforced plastic(FRP), providing optimized structural performance to protect the sonar array, optimized acoustic performance to enhance sonar reception, enabling weight reduction, corrosion resistance, and significantly reduced manufacturing and maintenance costs. We utilize Finite Element analysis tool, COMSOL Multiphysics, and dome data to build an acoustic-structure coupling model to analyze the response of inner sound field of sonar domes and simulate interior acoustic field formed by different incident plane waves from the current experience of the development of sonar domes in various countries. We compared numerical solutions with analytical solutions to verified the numerical accuracy and then, we used FEA to solve for low frequency domain. The results of frequency response show that structure vibration has a strong influence on interior acoustic field and we found that detecting efficiency of sonar system is influenced by sound field modes, frequency response of structure, structure shape and material properties. We use the ratio of interior pressure level and incident pressure level to evaluate the work efficiency of sonar domes, which we hope that it can contribute to the design of sonar domes.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T23:05:19Z (GMT). No. of bitstreams: 1 ntu-109-R06525006-1.pdf: 4855758 bytes, checksum: 840027574f09f4c35ef0c6bbeb1e9ee6 (MD5) Previous issue date: 2020	en
dc.description.tableofcontents	目錄誌謝 i 摘要 ii ABSTRACT iii 第1章緒論 1 1.1 研究背景及目的 1 1.2 文獻回顧 2 1.3 論文架構 8 第2章研究方法 9 2.1 結構聲音傳播模式 9 2.2 聲學波動方程式[14] 10 2.3 聲固耦合有限元素法 10 2.4 簡諧頻率響應與模態分析[15] 12 第3章數值模式驗證 16 3.1 有限元素模型建立 16 3.2 數值算例 17 3.2.1 矩形空腔 17 3.2.2 沒水圓型薄球殼 20 3.3 網格獨立性測試 24 3.4 數值模型驗證結果與討論 26 第4章數值模擬分析 27 4.1 模型設定 27 4.2 數值計算結果 30 4.2.1 結構振動頻率響應 30 4.2.2 內部聲場與聲學性能模擬 36 4.3 數值模擬結果討論 49 第5章結論與建議 50 5.1 結論 50 5.2 未來展望 50 5.2.1 高頻率域分析 50 5.2.2 實際模型驗證 51 參考文獻 52 附錄A. 54 附錄B. 64 附錄C. 75
dc.language.iso	zh-TW
dc.title	大型複材結構低頻聲場預測研究	zh_TW
dc.title	Study on Interior Acoustic Fields of Large Composite Structure	en
dc.type	Thesis
dc.date.schoolyear	108-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	蘭宜康,張元櫻,彭巧明,王昭男
dc.subject.keyword	聲納罩,有限元素分析,聲固耦合,內部聲場,	zh_TW
dc.subject.keyword	sonar domes,finite element analysis,acoustic-structure coupling,interior acoustic field,	en
dc.relation.page	85
dc.identifier.doi	10.6342/NTU202000584
dc.rights.note	有償授權
dc.date.accepted	2020-02-25
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	工程科學及海洋工程學研究所	zh_TW
顯示於系所單位：	工程科學及海洋工程學系

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