题名

以數值模擬預測樓版表面材衝擊音衰減特性之研究

并列篇名

A Prediction Model for Impact Sound Insulation of Floor Coverings by Finite Element Method.

DOI

10.6377/JA.200703.0113

作者

曾品杰(Ping-Chieh Tzeng);江哲銘(Che-Ming Chiang);鍾松晉(Sung-Chin Chung);謝宛均(Wan-Chun Hsieh)

关键词

樓版衝擊音 ; 有限元素法 ; 樓版表面材 ; 衝擊音衰減 ; 數值模擬 ; Floor Impact Sound ; Finite Element Method FEM ; Floor Coverings ; Reduction of Transmitted Impact Noise ; Numerical Simulation

期刊名称

建築學報

卷期/出版年月

59期(2007 / 03 / 01)

页次

113 - 125

内容语文

繁體中文
中文摘要

建築物朝高層化、密集化發展的同時,樓版衝擊音逐漸成為集合住宅中之重要課題。現今台灣建築物趨於飽和,在節能與環保理念抬頭之下,舊建築再利用的比例愈來愈高,然而建築物主結構體剛性不易改變,裝修材料勢必為改善音環境之最佳手段。為此本研究先於實驗室中檢驗樓版表面材料之衝擊音衰減特性,並運用數值模擬方法,建立樓版表面材特性對於樓版衝擊音之預測模式,作為使用者或設計者參考之依據。數值模擬與實測結果互相比對顯示,不同頻域之音壓值波形趨勢相當接近,數值迴歸分析結果相關係數與判定係數分別為0.916與0.839,顯示本研究以有限元素法所建立之數值解析模式,對於預測輕量衝擊源造成樓版衝擊音之可行性。
英文摘要

Floor Impact Sound has been a key issue in the housing since the buildings were developed towards higher and lighter. With the trend to the sustainable environment, the reuse of old buildings will be popular. As to reform the structure is a lot difficult, however, to improve the acoustic environment by change of coverings will be the primary solution for reuse of old buildings. Regarding this study, tests on the characteristics of floor coverings were made, and a prediction model by CAE tools (FEM-ANSYS) is built to simulate the floor impact sound of composite steel deck floors. Through the analysis between test and simulated values, the correlation coefficients of R and R2, 0.916 and 0.839, have been got. It identifies the accuracy and effectiveness of this model to predict the floor impact sound caused by tapping machine.
主题分类 工程學 > 土木與建築工程
参考文献
  1. (2004)。93 營建統計年報。
  2. Acoustical Materials Association of Japan(1982).Handbook in Noise and Vibration Countermeasures.
  3. ANSYS, Inc. Theory Conference(2000).
  4. ANSYS, Inc. Theory Conference(2000).Swanson Analysis Systems.
  5. Beranek, L. L.(1960).Noise and Vibration Control.
  6. Beranek, L. L.(1960).McGraw-Hill Book Company.Noise and Vibration Control.
  7. Chiang, C.M.(1993).Noise and Vibration in Building.
  8. Chiang, C.M.,Lin F.M,Chung C.M.(2001).Prediction of the Reduction of Impact Vibration in Raised Access Floors.Building Acoustics.
  9. Craggs, A..A Finite element model for acoustically lined small rooms.Journal of Sound and Vibration.
  10. Cremer, L.,Heckl M.,Ungar E.E.(1988).Structure-Borne Sound.
  11. Cremer, L.,Heckl M.,Ungar E.E.(1988).Structure-Borne Sound, Springer-Verlag Berlin.Germany:
  12. ISO 140/8.(1997).Acoustics-Measurement of Sound Insulation in buildings and building elements. Part 8: Laboratory measurements of the reduction of transmitted impact noise by floor coverings on a heavy weight standard floor. International Orgarnzation for Standardization.
  13. ISO 140/8.(1997).Acoustics-Measurement of Sound Insulation in buildings and building elements. Part 8: Laboratory measurements of the reduction of transmitted impact noise by floor coverings on a heavy weight standard floor. International Organization for Standardization.
  14. ISO 7 17/2(1996).Acoustics-Rating of Sound Insulation in Buildings and of Building Elements. Part 2: Impact Sound Insulation, International Organization for Standardization.
  15. ISO 717/2(1996).Acoustics- Rating of Sound Insulation in Buildings and of Building Elements. Part 2: Impact Sound Insulation, International Organization for Standardization.
  16. Kinsler, Lawince E.(1982).Fundamentals of Acoustics.
  17. Kinsler, Lawrence E.(1982).Fundamentals of Acoustics.
  18. Lam, Y.W.(2000).An Overview of Modeling Techniques for Small and Large Performance Spaces.Acoustics Research Center.
  19. Lam, Y.W.(2000).An Overview of Modeling Techniques for Small and Large Performance Spaces.Acoustics Research Center.
  20. Lin, F.M.,Chiang C.M.,Chen S.F.(2001).Prediction and Reduction Evaluation of Floor Vibration Induced by Foot Steps.Building Acoustics.
  21. Pritz, T.(1996).Dynamic Young`s Modulus and Loss Factor of Floor Covering Materials.Applied Acoustics.
  22. Pritz, T.(1994).Dynamic Young`s Modulus and Loss Factor of Plastic Foams for Impact Sound Isolation.Journal of Sound and Vibration.
  23. Statistical Yearbook of Construction and Planrnng Agency Ministry of Interior(2004).Construction and Planning Agency Ministry of Interior.
  24. Tzeng P.C.,Chiang C.M.,Lin F.M.,Chuang S.C.,Huang Y.J.(2003).The Influence of Impact Vibration by Varying Factors of Composite Steel Deck Floors.
  25. Tzeng, P.C.,Chiang C.M.,Lin F.M.,Chuang S.C.,Huang YJ.(2003).The Influence of Impact Vibration by Varying Factors of Composite Steel Deck Floors.The Eighth Western Pacific Acoustics Conference,Melbourne, Australia:
  26. 日本音響材料協會(1982)。振動對策ハンドブーク。東京:技報堂。
  27. 東京(1993)。建築物噪音與振動。台北:胡氏圖書。
被引用次数
  1. 蘇嘉瑩、鍾啓民、鍾松晉、曾品杰、江哲銘(2008)。板狀均質天花板對樓版衝擊音隔音量預測模式之建立。建築學報,66,189-206。
  2. 鍾松晉(2010)。以表面裝修構造改善樓板輕量衝擊源之隔音性能實驗研究。建築學報,74(S),15-32。
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