金屬三明治結構之水下爆震

Kuei-Hua Cheng; 鄭貴華

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/24977

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	洪振發
dc.contributor.author	Kuei-Hua Cheng	en
dc.contributor.author	鄭貴華	zh_TW
dc.date.accessioned	2021-06-08T05:59:27Z	-
dc.date.copyright	2007-08-01
dc.date.issued	2007
dc.date.submitted	2007-07-30
dc.identifier.citation	[1] Abbott, H.L., 1881, Report Upon Experiments and lnvestigations to Develop a System of Submarine Mines for Defending the Harbors of the United States, Professional Papers of thecorps of Engineers, No.23 [2] Ramsauer, C., 1923, Die Massenbewegung des Wassers bei Unterwasser Expplsionen, Annalen der Physik, Vo1.72, pp. 265-284. [3] Lamb, H., 1923, The Early Stages of a Submarine Explosion, Philosophical Magazine, Vol.45, pp. 257-265. [4] Butterworth, S., 1950, Report on the Theoretical Shape of the Pressure-Timecurve and on the Growth of the Gas Bubble, compendium on Underwater Explosions Research, vol.l, Office of Naval Research. [5] Cole, R.H., 1948, Underwater Explosions, Princeton University Press, Princeton, N.J.. [6] Keil, A.H., 1961, The Response of Ships to Underwater Explosions, The Annual Meeting of The Society of Naval Architects and Marine Engineers, New York, November 16-17. [7] Ramajeyathilagam, K., Vendhan, C.P., 2004, Deformation and rupture of thin rectangular plates subjected to underwater shock, International Journal of Impact Engineering, Vol.30, pp.699-719. [8] Ramajeyathilagam, K., Vendhan, C.P., Rao, V.B., 2000, Non-linear Transient Dynamic Response of Rectangular Plates under Shock Loading, International Journal of Impact Engineering, Vol.24, pp.999-1015. [9] Rajendran, R., Narasimhan, K., 2006, Deformation and fracture behaviour of plate specimens subjected to underwater explosion-a review, International Journal of Impact Engineering, Vol.32, pp.1945-1963. [10]Rajendran R., Satyanarayana KSBS., 1997, Interaction of finite amplitude acoustic waves with a plane plate, J Acoust Soc India, Vol.25, V5, pp.1–7. [11]Rajendran R., Narasimhan K., 2001, Linear elastic shock response of plane plates subjected to underwater explosion, Int J Impact Eng, Vol.25, pp.493–506. [12]Rajendran R., Narasimhan K., 2000, Underwater shock response of circular HSLA steel plates, Shock Vib, Vol.7, pp.251–62. [13]Rajendran R., 2001, Response of thin HSLA steel plates to underwater explosive shock loading. Ph.D. Thesis, IIT Bombay, Mumbai, India. [14]Kwon, Y.W. and Cunningham, R.E., 1997,comparison of USA-DYNA Finite Element Models for A Stiffened Shell Subject to Underwater Shock, Computer and Structures, Vol.66, No.1, pp.127-144. [15]Kwon, Y.W. and Fox, P.K., 1993, Underwater Shock Response of acylinder Subjected to a Side-on Explosions, Computers and Structures, Vol.48, No.4, pp.637-646. [16]余孟泉，1998，船體受水下爆震衝擊之結構動態反應研究，臺灣大學造船及海洋工程學研究所碩士論文。 [17]呂岳峰，2000，水下爆震三維船體顫震分析，臺灣大學造船及海洋工程學研究所碩士論文。 [18]洪振發，徐培譽，2003，嵌板受水下爆炸衝擊的非線性動態反應，J. SNAME-ROC, Vol.22, No.4, pp.201-212. [19]Dobratz, B.M., Crawford, P.C., 1985, LLNL Explosives Handbook.Lawrence Livermore National Laboratory. [20]Chen, W.D., SUN, Y., YU, S.Y., 2006, Journal of Nanjing University of Science and Technology, 30;4;499-502 [21]Keil, A.H., 1961,The Response of ship to Underwater Explosions. SNAME, pp. 366-410 [22]McFarland, D., Smith, BL., Bernhart, WD., 1972, Analysis of plates. New York: Sparton Books [23]Cowper, G.R., Symonds, P.S., 1957, Strain Hardening and Strain Rate Effects in the Impact Loading of Cantilever Beams, Brown University Division of Applied Mathematics Report, No.28 [24]Symonds, P.S., 1967, Survey of Methods of Analysis for Plastic Deformation of Structures under Dynamic Loading, Brown University, Division of Engineering Report.BU/NSRDC/1-67 [25]Schechter, R.S., Bort,R.L., 1981, The response of two fluid-coupled plates to an incident pressure pulse, ADA104801 [26]COLLISION AND GROUNDING, 2006,16th International Ship and Offshore Structures Congress,Vol.2 [27]Yao, X.L., Hou, M.L., etc, 2006, Numerical simulation research on counter impingement capability of Y-shape shipboard structure, Journal of Harbin Engineering University, Vol.27;6;pp.796-801 [28]LS-DYNA Keyword User’s Manual. Version 971, 2006, Livermore Software Technology Corporation [29]周宗燐，2005，水下爆震三維船體顫震分析，臺灣大學造船及海洋工程學研究所碩士論文。 [30]戴毓修，2000，載具結構及裝備抗震強度之研究，中正理工學院國防科學研究所博士學位論文。 [31]Taylor, GI., 1950, The pressure and impulse of submarine explosion waves on plates. Compendium Underwater Explosion Res ONR, 1:1155-74
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/24977	-
dc.description.abstract	過去水下爆炸現象以及結構受爆震衝擊後的動態反應等資料，必須靠昂貴且耗費時間的試驗才能獲得，此外，由於水下爆炸對於水下結構物衝擊的過程非常複雜，因此理論解析僅能適用於較簡化的結構模型之動態反應估算。近來由於電腦軟硬體快速發展，以致於合理且有效的數值分析技術可以比實驗更迅速取得許多有用的資料。傳統的船艦結構除特定目的油水艙採用雙層殼體外，一般採用單殼結構，近年來由於雷射電焊的精進，使肋骨較大的單層殼可考慮改成深度較小，重量較輕的三明治結構。本文對於不同夾心結構的三明治結構進行水下爆炸的爆震反應系列分析。在進行水下爆炸對結構物衝擊分析之前，先檢討分析模式與分析方法的可靠性，再進一步分析金屬三明治結構的爆震反應。本文主要分為三部分，先對水下爆炸的炸藥模型與水域網格對爆震波分析結果之影響進行基本研究，其次針對Ramajeyathilagam與Vendhan(2004)以空氣為背壓的嵌板之近距離爆炸試驗模型進行有限元素分析，建立一個0.55m x 0.45m x 0.002m的嵌板與0.6m x 0.6m x 0.5m的水域模型，進行與文獻試驗相同爆炸條件的分析，以檢討本文分析方式的正確性。再次探討雙層殼體夾層內介質於水下爆炸衝擊雙層殼板的動態反應影響。最後進行相同重量不同結構夾心型態之金屬三明治結構，在遭受到水下爆炸中爆震波衝擊的動態分析，比較其動態反應。於FEM數值分析過程，利用LS-DYNA程式中的ALE計算方式，來處理模型之水下爆炸衝擊、水域壓力變化與流固耦合關係。	zh_TW
dc.description.abstract	In the past, the information of impact responses of structures subjected to underwater explosion (UNDEX) were obtained from extremely expansive ship shock experiments, it needs also very long time to prepare the test and to evaluate the test results. The phenomena of ship structure subjected underwater explosion are very complicated, the theoretical approaches are available only for strongly simplified model. Due to the improvement of the computer technologies recently, the numerical methods provide the capabilities to predicate complex UNDEX problems, and can get more detailed information. The traditional ship structures are single hulls in general, only for specified purpose, eq. water tank, oil tank etc, the double hulls are taken into consideration. Because of the development of laser welding technology and the reduce of its investment cost, the laser welding has been adopted by the ship yards world wide progressively. The metal sandwich structures have been proposed to replace the traditional single hull structure with deep stiffness. In this thesis, metal sandwich structures with different types of core structures were studied. In this thesis, the rectangular plate subjected underwater explosion were carried out by FE-method, First. The plate model (with length width thickness =0.55m 0.45m 0.002m) and water domain (with length width depth =0.6m 0.6m 0.5m) were adopted from the experiment model from Ramajeyathilagam & Vendhan (2004). The results from FE-models and experiment are compared to verify the accuracy of the FE-model. And the influence of the core medium of the double hulls on the impact response of the sandwich structure were examined. Finally, different type of sandwich structures with same mass subjected underwater explosion are performed to compared their impact response and to compare the anti-shock performance.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T05:59:27Z (GMT). No. of bitstreams: 1 ntu-96-R94525016-1.pdf: 3627408 bytes, checksum: 4063b2fa07760c9459fd9c93c5df858f (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	摘要 I 第一章導論 1 1.1. 研究動機及目的 1 1.2. 文獻回顧 2 1.3. 本文內容 4 第二章水下爆震理論 5 2.1 水下爆炸現象 5 2.1.1 水下爆震波 6 2.1.2 氣泡運動與次衝擊波 8 2.1.3 水下爆炸能量分佈 9 2.2 利用有限元素法分析水下爆炸現象 10 2.2.1 理論基礎 11 2.2.2 流固耦合理論 13 2.2.3 ALE方法簡介 13 2.3 龍骨爆震因子 14 2.4 網格影響 16 2.4.1 炸藥選定的使用 17 2.4.2 網格大小的影響 22 第三章嵌板受水下爆震之分析 30 3.1 爆震波的衝擊嵌板後動態反應之簡易估算 30 3.2 有限元素模型簡介與分析過程 33 3.2.1 有限元素模型 34 3.2.2 炸藥劑量規劃 37 3.3 分析結果 38 3.3.1 永久變形與破壞 38 3.4 討論 48 3.4.1 邊界條件問題 48 3.4.2 只考慮主爆震波影響 48 3.4.3 應變率影響 48 第四章水下爆震對金屬三明治結構分析 51 4.1 雙層板透射與反射理論-無限平板理論 51 4.2 分析模型 54 4.2.1 夾層介質對水下爆炸雙層殼結構之爆震反應影響 56 4.2.2 不同雙層結構之爆震分析比較 66 4.3 分析結果 68 4.3.1 能量圖比較 69 4.3.2 加速度比較 71 4.4 討論與檢討 73 第五章結論與未來展望 74 參考文獻 76
dc.language.iso	zh-TW
dc.title	金屬三明治結構之水下爆震	zh_TW
dc.title	Impact Response of Metal Sandwich Structure Subjected to Underwater Explosion	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	陳永祥,王偉輝,吳重雄,梁卓中
dc.subject.keyword	水下爆炸,雙層殼結構,金屬三明治結構,有限元素法,LS-DYNA,任意拉格朗日-尤拉方法,	zh_TW
dc.subject.keyword	underwater explosion,double hulls,metal sandwich structure,FEM,LS-DYNA,Arbitrary Lagrangian-Eulerian,	en
dc.relation.page	79
dc.rights.note	未授權
dc.date.accepted	2007-07-31
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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