暫態流體黏度量測法

Han-Ren Liu; 劉瀚仁

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/61633

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	王安邦(An-Bang Wang)
dc.contributor.author	Han-Ren Liu	en
dc.contributor.author	劉瀚仁	zh_TW
dc.date.accessioned	2021-06-16T13:07:56Z	-
dc.date.available	2013-08-14
dc.date.copyright	2013-08-14
dc.date.issued	2013
dc.date.submitted	2013-08-01
dc.identifier.citation	1. A Practical Approach to Rheology and Rheometry by Schramm, 2000, 2nd edition 2. Barr, G., A monograph of viscometry. Journal of Rheology, 1931. 2: p. 236. 3. Lim, W.K., et al., Falling Ball Viscometry. An Instrument for Precise Measurements. Analytical Chemistry, 1964. 36(13): p. 2482-2485. 4. Barr, G., The air-bubble viscometer. Philosophical Magazine, 1926. 1(2): p. 395-+. 5. Norcross, A. S., Instrum. Control Systems 32, 878 (1959). 6. Philippoff, W., Vibrational measurements with large amplitudes. Journal of Rheology, 1966. 10: p. 317. 7. Chandrasekhar, S. and R.J. Donnelly, The Hydrodynamic Stability of Helium II between Rotating Cylinders. I. Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1957. 241(1224): p. 9-28. 8. Petrie, C.J.S., Extensional viscosity: A critical discussion. Journal of Non-Newtonian Fluid Mechanics, 2006. 137(1–3): p. 15-23. 9. McKinley, G.H., How to extract the Newtonian viscosity from capillary breakup measurements in a filament rheometer. Journal of Rheology, 2000. 44: p. 653. 10. Bullard, E.C., Electromagnetic Induction in a Rotating Sphere. Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1949. 199(1059): p. 413-443. 11. J.R. Scott, Trans. Inst. Rubber Ind., 7,(1931) 169 12. J.R. Scott, Trans. Inst. Rubber Ind., 8,(1932) 481 13. Damrau, E.V.I. and M. Peleg, IMPERFECT SQUEEZING FLOW VISCOSIMETRY OF NEWTONIAN LIQUIDS – THEORETICAL AND PRACTICAL CONSIDERATIONS. Journal of Texture Studies, 1997. 28(2): p. 187-204. 14. Leider, P.J., Squeezing Flow between Parallel Disks. II. Experimental Results. Industrial & Engineering Chemistry Fundamentals, 1974. 13(4): p. 342-346. 15. Dias, E.O. and J.A. Miranda, Effect of fluid inertia on probe-tack adhesion. Physical Review E, 2012. 85(1): p. 016312. 16. A.B. Metzner, Rheol. Acta, 10 (1971) 434-444 17. J. Stefan and K. Sitzgber, Akad. Wiss. Math. Natur. Wien, 69 (1874) 713. 18. Field, J.S., M.V. Swain, and N. Phan-Thien, An experimental investigation of the use of random squeezing to determine the complex modulus of viscoelastic fluids. Journal of Non-Newtonian Fluid Mechanics, 1996. 65(2–3): p. 177-194. 19. Dealy, J.M., Extensional flow of non-newtonian fluids—A review. Polymer Engineering & Science, 1971. 11(6): p. 433-445. 20. Tirumkudulu, M., W.B. Russel, and T.J. Huang, On the measurement of “tack” for adhesives. Physics of Fluids, 2003. 15(6): p. 1588. 21. Tirumkudulu, M., W.B. Russel, and T.J. Huang, Measuring the “tack” of waterborne adhesives. Journal of Rheology, 2003. 47(6): p. 1399. 22. Poivet, S., et al., Force response of a viscous liquid in a probe-tack geometry: fingering versus cavitation. Eur Phys J E Soft Matter, 2004. 15(2): p. 97-116. 23. Chatraei, S.H., Lubricated squeezing flow: a new biaxial extensional rheometer. Journal of Rheology, 1981. 25: p. 433. 24. Sun, A., MEASURING RHEOLOGICAL CHARACTERISTICS AND SPREADABILITY OF SOFT FOODS USING A MODIFIED SQUEEZE‐FLOW APPARATUS. Journal of Texture Studies, 2009. 40(3): p. 275. 25. Sridhar, T., et al., Measurement of extensional viscosity of polymer solutions. Journal of Non-Newtonian Fluid Mechanics, 1991. 40(3): p. 271-280. 26. Spiegelberg, S.H., D.C. Ables, and G.H. McKinley, The role of end-effects on measurements of extensional viscosity in filament stretching rheometers. Journal of Non-Newtonian Fluid Mechanics, 1996. 64(2–3): p. 229-267. 27. F. H. Hammond, J., Polyken Probe Tack Tester, in ASTM Special Technical Publication No.3601964, ASTM: Atlantic City, N. J. p. 123. 28. Zosel, A., ADHESION AND TACK OF POLYMERS - INFLUENCE OF MECHANICAL-PROPERTIES AND SURFACE TENSIONS. Colloid and Polymer Science, 1985. 263(7): p. 541-553. 29. Zosel, A., ADHESIVE FAILURE AND DEFORMATION-BEHAVIOR OF POLYMERS. Journal of Adhesion, 1989. 30(1-4): p. 135-149. 30. 吳奕鴻.感壓膠測試系統建立與其力學特性之研究,國立台灣大學應用力學研究所,2011 31. Kuzma, D.C., Fluid inertia effects in squeeze films. Applied Scientific Research, 1968. 18(1): p. 15-20. 32. Sherwood, J.D., Squeeze flow of a power-law fluid between non-parallel plates. Journal of Non-Newtonian Fluid Mechanics, 2011. 166(5–6): p. 289-296.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/61633	-
dc.description.abstract	本文以探棒式黏性測量系統，進行擠壓/拉伸兩用式流變儀之開發與探討。吾人利用尺寸較小的探棒取代傳統所使用的平板，可以達到15-5μl低流體耗量與8秒以內完成測量的優點。本研究首先進行擠壓與拉伸流體的力學定量分析，證實在磨潤近似的條件下史考特理論適用於擠壓與拉伸的實驗結果，並說明如何校正荷重元的柔度與阻尼效應帶來的影響。實驗結果配合本文中提出的流變特性暫態量測法，可快速的計算出實驗流體的流變特性。測量結果發現，矽油的測得之黏度值與標準值相比誤差平均在5%以內；而對於非牛頓流體的流變特性，亦能在高剪應變速率區間中測出對應的流變趨勢，證實此一方法可以適用於牛頓流體與符合剪切稀釋特性的非牛頓流體之黏度測量上，成功發展出一套低耗量且快速的擠壓/拉伸兩用式流體黏度測量系統。除了黏度測量之外，本研究亦由力學觀念上解釋擠壓與拉伸黏性流體中發生的各種應力反應，作為日後在黏彈性體定量分析上的基礎。	zh_TW
dc.description.abstract	In this study, we established a probe tack tester to measure fluid rheological properties by this miniaturized squeezing & stretching system. Instead of traditional plate, I used a smaller probe which had the advantages of low fluid & time consumption. First, we studied the mechanism of squeezing & stretching test quantitatively, and we found the Scott theory can predict experiment results well under the lubrication conditions. And then we explain how to calibration the compliance and damper effect of the transducer. The experimental results with the transient measurement method, which proposed in this thesis, can calculated the rheological properties of the fluids. The measurement results found the error between the standard value and measured value of silicone oil viscosity within 5%, and for the rheological properties of the non-Newtonian fluid, the measured rheological trends also corresponding the standard value in the high shear strain range, it shows this method can be applied in the measurement of the viscosity of the Newtonian fluid and non-Newtonian fluid, with the advantages of low fluid & time consumption. In addition to the measurement of viscosity, mechanical concept is also explained of various experiments, as the based on the quantitative analysis of the viscoelastic squeezing and stretching viscous fluid.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T13:07:56Z (GMT). No. of bitstreams: 1 ntu-102-R99543091-1.pdf: 5892785 bytes, checksum: dddf1a54e0e405821c75b35905bf3250 (MD5) Previous issue date: 2013	en
dc.description.tableofcontents	口試委員會審定書 I 誌謝 II 中文摘要 III Abstract IV 目錄 V 圖目錄 VII 表目錄 XIII 符號表 XIV 第一章緒論 1 1.1 前言 1 1.2 文獻回顧 9 1.2.1 擠壓流動 9 1.2.2 拉伸流動 11 1.2.3 材料特性量測 13 1.2.4 探棒式黏性量測 15 1.3 研究動機 17 第二章實驗設備與方法 18 2.1 實驗條件 18 2.2 實驗設備 18 2.2.1 位移平台與驅動系統 19 2.2.2 量測與資料擷取系統 20 2.2.3 測試探棒與實驗流體 24 2.3 實驗方法 25 2.3.1 基礎力學理論解析 25 2.3.2 實驗校正方法 28 2.3.3 暫態量測流體黏度方法 35 第三章實驗結果與討論 38 3.1 牛頓流體 38 3.1.1 計算流體厚度與其變化速度 39 3.1.2 荷重元阻尼效應計算 44 3.1.3 矽油實驗結果基本介紹 46 3.1.4 矽油實驗結果分析 52 3.1.5 定義黏度量測取樣區間 60 3.1.6 矽油黏度量測 62 3.1.7 流動係數測試 65 3.2 非牛頓流體 67 3.2.1 CMC水溶液實驗結果基本介紹 68 3.2.2 CMC水溶液流變特性測量 72 3.3 黏度或流變特性測量結果整理 75 第四章結論 76 第五章未來展望 78 參考文獻 79
dc.language.iso	zh-TW
dc.subject	磨潤近似	zh_TW
dc.subject	暫態	zh_TW
dc.subject	探棒式測量系統	zh_TW
dc.subject	黏度	zh_TW
dc.subject	擠壓試驗	zh_TW
dc.subject	拉伸試驗	zh_TW
dc.subject	Transient	en
dc.subject	Lubrication approach	en
dc.subject	Stretching Test	en
dc.subject	Squeezing Test	en
dc.subject	Viscosity	en
dc.subject	Probe Tester	en
dc.title	暫態流體黏度量測法	zh_TW
dc.title	Transient method for viscosity measurement	en
dc.type	Thesis
dc.date.schoolyear	101-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	吳光鐘(Kuang-Chung Wu),廖英志(Ying-Chih Liao),徐通墀(Tung-Chih Hsu),莊孝根(Hsiao-Ken Chuang)
dc.subject.keyword	暫態,探棒式測量系統,黏度,擠壓試驗,拉伸試驗,磨潤近似,	zh_TW
dc.subject.keyword	Transient,Probe Tester,Viscosity,Squeezing Test,Stretching Test,Lubrication approach,	en
dc.relation.page	81
dc.rights.note	有償授權
dc.date.accepted	2013-08-01
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	應用力學研究所	zh_TW
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