參考文獻 |
TOUNSI and E. A. ADDA-BEDIA,“Simplified Method for Prediction of Transient Hygroscopic Stresses in Polymer Matrix Composites with Symmetric Environmental Conditions”, Applied Composite Materials, Vol.10, pp.1-18(2003).
Ch. Mitropoulos , “The Kelvin equation ”,Colloid and Interface Science ,Vol.317, No2, pp. 643-648(2008).
Barbieri L., Corradi A., Lancellotti I., “Thermal and Chemical Behavior of Different Glasses Containing Steel Fly Ash and Their Transformation into Glass-Ceramics”, Journal of the European Society, Vol. 22, pp. 1759-1765, (2002)
Bernd Wiebusch, Carl Franz Seyfried , “Utilization of sewage sludge ashes in the brick and tile industry”,Water Science and Technology,Vol.36, pp. 251-258(1997).
C. R. Cheeseman, C. J. Sollars, S. McEntee, “Properties, microstructure and leaching of sintered sewage sludge ash”,Resources, Conservation and Recycling ,Vol.40, pp. 13-25(2003).
Caijun Shi, Keren Zheng, “A review on the use of waste glasses in the production of cement and concrete”, Resources conservation and recycling, Vol.52, pp.234-247,(2007)
Carla N. Thomas, William L. Bauerle, Tom O. Owino, John P. Chastain, Stephen J. Klaine, “ Influence of brick air scrubber by-product on growth and development of corn and hybrid poplar”,Bioresource Technology ,Vol.98, pp. 1085-1094(2007).
Chih-Huang Weng, Deng-Fong Lin, Pen-Chi Chiang, “ Utilization of sludge as brick materials”,Advances in Environmental Research ,Vol.7, pp. 679-685(2003).
Christoph Franzen , Peter W. Mirwald, “Moisture sorption behaviour of salt mixtures in porous stone”,Chemie der Erde ,Vol 69 , pp. 91-98(2009).
Gottlieb.-G. Lindner , Hiromoto Nakazawa, Shigenobu Hayashi, “Hollow nanospheres, allophones ‘All-organic’ synthesis and characterization”, Microporous and Mesoporous Materials, Vol.21, No.7, pp.381-386,1998
Hirotaka Maeda, Yukari Hashimoto, Emile Hideki Ishida,“Solidification mechanism of allophane by hydrothermal reaction”,Applied Clay Science, Vol.44, pp. 71-74(2009).
Jesper Arfvidsson, Malcolm J. Cunningham,“A transient technique for determining di?sion coecients in hygroscopic materials”, Building and environment, Vol.35, pp.239-249(2000).
Jiang He, Akira Hoyano, “Experimental study of cooling effects of a passive evaporative cooling wall constructed of porous ceramics with high water soaking-up ability ”,Building and Environment,(2009).
K.P. Galvin, “Aconceptually simple derivation of theKelvin equation”, Chemical Engineering Science, No. 16, pp. 4659-4660(2005).
Kiyoshi Okada, Asami Ooyama, Toshihiro Isobe, Yoshikazu Kameshima, Akira Nakajima, Kenneth J.D. MacKenzie,“Water retention properties of porous geopolymers for use in cooling applications”,Journal of the European Ceramic Society, Vol.29, , pp. 1917-1923(2009).
Kiyoshi Okada, Shunsuke Matsui, Toshihiro Isobe, Yoshikazu Kameshima ,Akira Nakajima,“Water-retention properties of porous ceramics prepared from mixtures of allophane and vermiculite for materials to counteract heat island effects”,CERAMICS INTERATIONAL,Vol 34.,Pages 345-350,2008
M. El-Sabaawi, and D. C. T. Pei, “Moisture Isotherms of Hygroscopic Porous Solids”,Industrial & Engineering Chemistry Fundamentals ,Vol 16 , pp. 321-326(2002).
M. Erol, S. Küçükbayrak, A. Ersoy-Meriçboyu, “Characterization of sintered coal fly ashes”,Fuel ,Vol 87 , pp. 1334-1340(2008).
M. M. Reda Taha, A. S. El-Dieb and N. G. Shrive,“Sorptivity: a reliable measurement for surface absorption of masonry brick units”, Material and structures, Vol.34, pp.438-445(2001).
M. Prat,“Recent advances in pore-scale models for drying of porous media”, Chemical Engineering Journal, Vol.86, pp.153-164(2003).
M. Valášková, G. Simha Martynková, B. Smetana, S. Študentová,“Influence of vermiculite on the formation of porous cordierites”,Applied Clay Science(2009).
Marc Olivier Abadie, Ka´ tia Cordeiro Mendonc-a,“Moisture performance of building materials: From material characterization to building simulation using the Moisture Buffer Value concept”,Building and Environment, Vol 44, pp.388-401(2009)
P. Garcés, M. Pérez Carrión, E. García-Alcocel, J. Payá, J. Monzó, M.V. Borrachero, “ Mechanical and physical properties of cement blended with sewage sludge ash”,Waste Management ,Vol.28, pp. 2495-2502(2008).
R. Sh. Mikhail,A. M. Kamel ,“The Pore Structure of Cadmium Oxide ”,The Journal of Physical Chemistry,Vol.73,No.7,pp. 2213-2216(2002).
XingrunWang, Yiying Jin ∗, ZhingyuWang, Rasool Bux Mahar, Yongfeng Nie,“A research on sintering characteristics and mechanisms of dried sewage sludge”,Vol.160,pp.489-494
Yoshio Onodera, Takashi Iwasaki, Abhijit Chatterjee, Takeo Ebina, Toshio Satoh, Takashi Suzuki, Hitoshi Mimura, “Bactericidal allophanic materials prepared from allophane soil I. Preparation and characterization of silverrphosphorus–silver loaded allophanic specimens”, Applied clay science, Vol.18 ,No.10, pp.123-134,2001
Youming Chen,Zaikang Chen,“Transfer Function Method to Calculate Moisture Absorption and Desorption in Buildings”, Building and environment, Vol.33, No. 16, pp. 206-207(2005).
王一萍,「無機材料的製備與性能研究」,碩士論文,武漢理工大學材料學院,2007
伍祖璁,黃錦鐘譯「粉末冶金學」高立圖書公司,台北,1995
朱明瑜,「添加廢玻璃砂於排水瀝青混凝土成效之影響」,碩士論文,國立成功大學土木工程研究所,2008
林月婷,「下水污泥焚化灰燒製輕質骨材與應用於混凝土材料之性質研究」,碩士論文,國立中央大學環境工程研究所,2003。
尚建麗,「環保型調濕材料的調濕性能試驗研究」,新型建築材料,2007
汪建民等「陶瓷技術手冊」,中華民國粉末冶金協會,1994
黃沛增,「被動式綠色調濕材料」,碩士論文,西安建築科技大學,2007
李國勝,「海泡石礦物材料的顯微結構與自動調濕性能研究」,碩士論文,河北工業大學,2005
何李科,「水鋁英石橡膠納米複合材料的制備」,碩士論文,北京化工大學,2008
余岳峰,「下水汙泥焚化灰渣燒成輕質骨材特性之研究」,碩士論文,中央大學環境工程研究所,2000
張添晉、鄭啟璞、連奕偉,「廢玻璃資源回收管理與再利用技術」,永續產業發展雙月刊,2003。
黃琇蘭,「添加沸石及皂土對焚化飛灰燒結特性之影響」,碩士論文,國立中央大學環境工程研究所,1999
駱榮富,許鈞凱,潘友鴻,「利用陶瓷事業廢物於透水磚之製作」,中國陶瓷科學期刊,pp.258-266,1999。
陳宜晶,「利用添加劑提昇淨水污泥燒結之材料品質研究」碩士論文,國立逢甲大學環境工程研究所,1999
歐陽順,「多孔性廢物燒製調濕建材之研究」,碩士論文,國立中央大學營建工程系,2008。
侯博震,「廢玻璃應用於在生瀝青混凝土之研究」,碩士論文,國立雲林科技大學,2003
斐清清,「幾種常用建材的等溫吸放濕試驗研究」,湖南大學學報,第26卷,第4期,1999
劉最亮,傅樂峰,鄭柏存,「自調濕功能水泥基材料」,上海建材,pp21-22,第2期,2007
黃翔,范影,狄育慧,「用於牆體表面的多孔調濕材料實驗研究」,西安工程科技學院學報,vol.20,No. 6,2006
關增峰,趙敬源,劉加平,「生土建築團護結構表面吸放濕過程實驗研究」,長安大學學報,Vol. 20 No4,2003
馮磊,陳超,「SiO2氣凝膠調濕性能的實驗研究」,建築材料學報,Vol.9 ,No5,2006
葉耀婷,「矽酸鹽類材料之調濕性能探討」,碩士論文,元智大學化學工程與材料科學學系,2007。
張秀梅,「調濕牆體材料及其調濕性能的研究」,碩士論文,天津大學環境工程研究所,2005
服部和彦、福水浩史、野上正行,アロフェン系調湿建材に関する研-調湿建材の材料設計(2006)。
福水 浩史,横山 茂,北村 和子,「アロフェン系調湿建材に関する研究─調湿建材の材料設計─」(2006)
調湿建材性能評価委員会,「調湿建材の調湿性能評価基準」(平成18年3月)。
伊藤 隆,林 茂雄,山本 佳嗣,新島 聖治,「陶磁器素地の調湿機能について」
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