Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/16006
標題: 以穿透應力波法檢測填充門板之瑕疵
Detecting the flaws in the doors filled with polyurethane foaming agent using the stress wave through transmission method
作者: 孫裕凱
Sun, Yu-Kai
關鍵字: flaw
瑕疵
stress wave through transmission
impact-echo method
穿透應力波法
敲擊回音法
出版社: 土木工程學系所
引用: 1. ASTM C 597 (1992). "Standard Test Method for Pulse Velocity Through Concrete," Annual Book of ASTM Standards, Vol. 04.02., 1992. 2. 陳宗禔 ,“纖維強化複合材料結構損傷修補後之超音波特性研究”,中正理工學院兵器系統工程研究所碩士論文,2000。 3. 曾逸仁,徐明福,黃斌 (2006)“超音波法應用於台灣傳統大木構件非破壞檢測適用性之研究”,建築學報,52期,pp.37-58,2005。 4. Komloš, K., Popovics, S., Nürnbergerová, T., Babál, B. and Popovics, J.S. (1996).〝Ultrasonic Pulse Velocity Test of Concrete Properties as Specified in Various Standards,〞Cement and Concrete Composites Volume: 18, June, 1996, pp. 357-364. 5. ASTM C 1383 (1998). "Standard Test Method for Measuring the P-Wave Speed and the Thickness of Concrete Plates Using the Impact-Echo Method" Annual Book of ASTM Standards, Vol. 04.02., 1998. 6. Popovics, S. (1987).“A Hypothesis Concrete the Effects of Macro-Porosity on Mechanical Properties of Concrete”, Fracture of Concrete and Rock, SEM-RILEM International Conference, June 1987,Houston Texas, pp.170-174. 7. 鄭家齊,「混凝土結構修補品質之檢測評估」,第四屆公共工程非破壞檢測技術研討會,台北,第257-276 頁,2005。 8. 林宏義,“建築物外飾材施工品質之非破壞檢測”,朝陽科技大學營建工程系碩士論文,2005。 9. 李世偉,「利用超音波檢測結構物鋁門窗框是否密實」,碩士論文,朝陽科技大學營建工程系碩士論文,台中,2004。 10. 陳俊菁,「應用紅外線攝溫影像術檢測磁磚黏貼完整性」,碩士論文,朝陽科技大學營建工程系,台中,2004。 11. Moore, P. O. (2001). “Infrared and Thermal Testing,” American Society for Nondestructive Testing, Columbus. 12. 賴耿陽,紅外線工學基礎應用,臺灣復文興業股份有限公司,台南,1995。 13. Weil, G. J., and Rowe, T. J(. 1998). “Nondestructive testing and repair of the concrete roof shell at the Seattle Kingdome.” NDT&E International, 31(6), pp 389-400. 14. Wei, C. Y., and Woodbury, H. H.(1990). and Wang, S. C. H., “A Novel CID Structure for Improved Breakdown Voltage.” IEEE TRANSACTION ON ELEECTRON DEVICES, 37(3), 611-617. 15. 蔡錫鐃, “非破壞檢測實驗.”,文京出版社,台北市, 1998。
摘要: 本研究之目的為探討應用應力波法於發泡填充門板的品質檢測。目前在此類門板製作時,所填充之發泡材料密實狀況無法運用簡單方法驗證得知,依現行方法必須進行破壞性抽樣檢測以確保產品之品質,本研究盼能應用應力波之非破壞檢測方法來進行品質檢測。經本研究獲得之成果,單就填充發泡材之填充狀況,以應力波波速檢測應為可行,無論使用敲擊回音或是超音波法,其對於整體均質性檢測及較大之缺陷檢測均可獲得良好之結果,唯超音波法易受現場操作差異之影響,以及需使用耦合液,對其在應用上易產生不便,因此建議使用敲擊回音法進行此類檢測。
The purpose of this study is to explore the application of stress wave method in the quality check of foam-filled doors. In present production of such doors, the verification of density of filling foam material can only be carried out by the methods of destructive sampling in order to ensure product quality. There is a need to apply the nondestructive test technique to evaluation of the filled foam condition. The experimental results of this study show that the measurement of the stress wave speed through the thickness of the foam-filled doors should be a feasible method for finding the condition of filled foam in plastic door either executed by the impact-echo or ultrasound methods. Both test methods are capable of detecting the overall foam filling quality and large defects. However, the operation of ultrasonic measurement needs the coupling fluid and this makes it inconvenient when in applications. The impact-echo method for evaluation of the foam filling quality is recommended in this study.
URI: http://hdl.handle.net/11455/16006
其他識別: U0005-1808200917024800
文章連結: http://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-1808200917024800
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