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姓名 朱祖孝(Tzu-Shiau Ju)  查詢紙本館藏   畢業系所 機械工程學系
論文名稱 內埋光纖複合層板之結構強度有限元素分析
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摘要(中) 將光纖感測器埋入複合層板中使其具備監測功能,稱之為智能結構(smart structures)。本文主要探討其結構強度分析,首先採用Dasqupta[6]之數值方法,求得光纖與鄰層纖維不平行時所產生之樹脂區幾何尺寸。其次,利用有限元素法模擬結構受到外界擾動之內部應力變化,包含三軸向壓應力、熱應力與挫屈分析。藉由本文之研究可對內埋光纖之結構獲得更清晰的了解。
摘要(英) no
關鍵字(中) ★ 樹脂區
★ 有限元素
★ 複合層板
★ 光纖
關鍵字(英) ★ no
論文目次 摘要 Ⅰ
目錄 Ⅱ
圖表說明 Ⅲ
第一章 序論
1-1 前言 1
1-2 文獻回顧 2
1-3 研究動機與目的 5
第二章 基本理論
2-1複合基層板力學分析
2-1-1座標轉換與應力、應變之關係 7
2-1-2 板之構成方程式 9
2-2板之構成方程式 11
2-3挫屈分析 13第三章 有限元素法與樹脂區計算
3-1有限元素法基本概念 15
3-1-1元素之平衡方程式 16
3-1-2結構之平衡方程式 16
3-2樹脂區計算 17
第四章 結果與討論
4-1實驗驗證 22
4-2 X軸壓應力分析 23
4-3 Y軸壓應力分析 24
4-4 Z軸壓應力分析 25
4-5熱應力分析 26
4-6挫屈分析 28
第五章 結論與建議
5-1 結論 30
5-2 結論 30
參考文獻 31
參考文獻 1. Benchekchou B. and Ferguson N.S., ‘‘The effect of embedded optical fibers on the fatigue behavior of composite plates’’ Composite Structures 41, pp.113-120, 1998
2. C. Butter and G. Hocker., Applied Optics, 17,2867, 1978.
3. Case S.W. and Carman G.P., ‘‘Compression Strength of Composites Containing Embedded Sensors or Actuators’’ Journal of Intelligent Material Systems and Structures, Vol. 5,1994
4. Craig M.L. and Nelson D.V., ‘‘An Embedded Fiber Optic Sensor Method for Determining Residual Stress in Fiber-Reinforced Composite Materials’’ Journal of Intelligent Material Systems and Structures, Vol. 9, pp.788-799, 1998
5. Davidson R. and Roberts S.S.J., ‘‘Finite element analysis of composite laminates containing transversely embedded optical fiber sensors’’ the 1st Europen Conf. On smart structures and Materiala, pp.115-122,1992
6. Dasqupta A., Wan Y., Sirkis J.S. and Singh H., ‘‘Micro-mechanical investigation of an optical fiber embedded in a laminated composite’’ SPIE Vol 1370 Fiber Optic Smart Structures and Skins III, 1990.
7. Eaton N.C., Drew R. and Geiger H., ‘‘Finite element stress and strain analysis in composites with embedded optical fiber sensors’’ Smart Mater. Struct. 4., pp.-113-117,1995
8. Fiedler B., Hojo M., Ochiai S., Schulte K. and Ochi M., ‘‘Finite-element of initial matrix failure in CFRP under static tranverse tensile load’’ Composites science and technology, pp.95-105, 2001
9. Fox N., Sheard P. and Steadman S., ‘‘The influence of fiber optic sensors on the performance composite components’’ First European Conference on Smart Structures and Materials, 1992
10. Gopel W., Hesse J., Zemel J.N., ‘‘Sensors : A Comprehensive Survey’’ Vol. 6 VCH publishers Inc., New York, 1992
11. Gibson R.F., ‘‘PRINCIPLES OF COMPOSITE MATERIAL MECHANICS’’ pp.249-258
12. Hadzic R., John S. and Herszberg I., ‘‘Structural integrity analysis of embedded optical fibers in composite structures’’ Composite Structures 47, pp.759-765, 1999
13. Jensen D.W., Pascual J. and August J.A., ‘‘Performance of graphite/bismaleimide laminates with embedded optical fibers. Pare I : uniaxial compression’’ Smart Mater. Struct. 1, pp.31-35, 1992
14. Jensen D.W., Pascual J. and August J.A., ‘‘Performance of graphite/bismaleimide laminates with embedded optical fibers. Pare I : uniaxial tension’’ Smart Mater. Struct. 1, pp.24-30, 1992
15. Jensen D.W. and Pascual J., ‘‘Degradation of graphite/bismaleimide laminates with multiple embedded fiber-optic sensors’’ SPIE Vol 1370 Fiber Optic Smart Structures and Skins III, 1990.
16. Jones R.M., ‘‘MECHANICS OF COMPOSITE MATERIALS’’ pp.149-156, 1975
17. Lee D.C., Lee J.J. and Yun S.J., ‘‘The mechanical characteristics of smart composite structures with embedded optical fiber sensors’’ Composites Structures 32, pp.39-50, 1995
18. Melin L.G., Levin K., Nilsson S., Palmer S.J.P and Rae P.P., ‘‘A study of the displacement field around embedded fibre optic sensors’’ Composites : Part A 30, pp.1267-1275, 1999
19. Mackerle J., ‘‘Smart materials and structures : FEM and BEM simulations A bibliography(1997-1999)’’ Finite Element in Analysis and Design 37, pp.71-83, 2001
20. Okabe Y., Yashiro S., Kosaka T. and Takeda N., ‘‘Detection of tranverse cracks in CFRP composites using embedded fiber bragg grating sensors’’ Smart Mater. Struct. 9, pp.832-838, 2000
21. Ochoa O.O. and Reddy J.N., ‘‘Finite Element Analysis of Composite Laminates’’ pp.13-18, 1992
22. Roberts S.S.J. and Davidson R., ‘‘Short term fatigue behavior of composite materials containing embedded fiber optic sensors and actuators’’ First European Conference on Smart Structures and Materials, 1992
23. Surgeon M. and Wevers M., ‘‘Static and dynamic testing of a quasi-isotropic composite with embedded optical fibers’’ Composites : Part A 30, pp.317-324,1999
24. Sierakowaski R.L. and Vinson J.R., ‘‘The Behavior of Strructures Composited of Composites Materials’’ pp.30-56, 1986
25. Sirkis J.S. and Dasgupta A., ‘‘THE ROLE OF LOCAL INTERACTION MECHANICS IN FIBER OPTIC SMART STRUCTURES’’ MECHANICS, PP.343-359
26. Sirkis J.S. and Chang C.C., ‘‘Low Velocity Impact of Optical Fiber Embedded Laminated Graphite/Epoxy Panels. Part II : Micro-Scale’’ Journal of Composite Material, Vol. 28, No. 16, pp.1532-1551, 1994
27. Tay A and Wilson D.A., ‘‘Strain analysis of optical fibers embedded in composite materials using finite element modeling’’ SPIE Vol 1170 Fiber Optic Smart Structures and Skins II, 1989.
28. Udd E., ‘‘Fiber Optic Smart Structures’’ 1995
29. Wood K., Brown T., Rogowski R. and Jensen B., ‘‘Fiber optic sensors for health monitoring of morphing airframes : Bragg grating strain and temperature sensor’’ Smart Mater. Struct. 9, pp.163-169, 2000
30. 林志郎, ‘‘內埋式FBGs感測器在複材內部應力/應變量測之應用’’ 中華民國第二十五屆全國力學會議, pp.1209-1220
31. 邱錦武, 邱宗炫, 謝達理, 林盈佐., ‘‘光纖光柵應變感測系統簡介’’ 光學工程第五十九期, pp.24-32, 1997
32. 夏中和., ‘‘從光纖感測器到智慧型結構’’ 科儀新知第十九卷第二期, pp.87-96, 1997
33. 羅裕龍., ‘‘光柵光纖在感測器之發展與應用’’ 光訊67期, pp.32-35, 1997年8月
指導教授 葉維磬(Wei-Ching Yeh) 審核日期 2002-7-17
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