參考文獻 |
1. Auchey, F.L. and P.K. Dutta, “Use of Recycled High Density Polyethylene Fibers as Secondary Reinforcement in Concrete Subjected to Severe Environment,” Proc., the International Society of Offshore and Polar Engineers (ISOPE), Golden, Colo., Vol.4, pp.287-291 (1996).
2. Balaguru, P., “Evaluation of New Synthetic Fiber for Use in Concrete,” Civil Engineering Report, No. 88-10, pp. 93 (1988).
3. Balaguru, P. and M.G. Dipsia, “Properties of Fiber Reinforced High-Strength Lightweight Concrete,” ACI Materials Journal, Vol.90, No.5, pp.399-405 (1993).
4. Balaguru, P.N. and S.P. Shah, Fiber-Reinforced Cement Composites, McGraw-Hill, Inc., 1992.
5. Bernd, W. and F.S. Carl, “Utilization of Sewage Sludge Ash in the Brick and Tile Industry,” Water Science and Technology, Vol. 36, pp.251-258 (1997).
6. Bhatty, J.I. and K.J. Reid, “Compressive Strength of Municipal Sludge Ash Mortars,” ACI Materials Journal, Vol.86, pp.394-400 (1989).
7. Bindiganavile, V. and N. Banthia, “Polymer and Steel Fiber-Reinforced Cementitious Composites under Impact Loading-Part1: Bond-Slip Response,” ACI Materials Journal, Vol.98, pp.10-16 (2001).
8. Blankenhorn, P.R., M.R. Silsbee, B.D. Blankenhorn, M. DiCola, and K. Kessler, “Temperature and Moisture Effects on Selected Properties of Wood Fiber-Cement Composites,” Cement and Concrete Research, Vol.29, pp.737-741 (1999).
9. Chang, D.I. and W.K. Chai, “Flexural Fracture and Fatigue Behavior of Steel-Fiber-Reinforced Concrete Structures,” Nuclear Engineering and Design, Vol.156, pp.201-207 (1995).
10. Fisher, A.K., F. Bullen, and D. Beal, “The Durability of Cellulose Fibre Reinforced Concrete Pipes in Sewage Applications,” Cement and Concrete Research, Vol. 31, pp. 543-553 (2001).
11. Fu, X. and D.D.L. Chung, “Sensitivity of the Bond Strength to the Structure of the Interface between Reinforcement and Cement, and the Variability of this Structure,” Cement and Concrete Research, Vol.28, pp.787-793 (1998).
12. Fu, X., W. Hou, C. Yang, D. Li, and X. Wu , “Studies on High-Strength Slag and Fly Ash Compound Cement,” Cement and Concrete Research, Vol.30, pp.1239-1243 (2000).
13. Gao, J., W. Sun, and K. Morino, “Mechanical Property of Steel Fiber-Reinforced, High-Strength, Lightweight Concrete,” Cement and Concrete Composite, Vol.19, pp.307-313 (1997).
14. Gardner, N. J. and M.J. Lockman, “Design Provisions for Drying Shrinkage and Creep of Normal-Strength Concrete,” ACI Materials Journal, Vol.98 pp.159-167 (2001).
15. Groom, J.L., D.V. Holmquist, and K.Y. Yarbrough, “Use of Waste Nylon Fibers in Portland Cement Concrete to Reduce Plastic Shrinkage Cracking ,” Proc., Recovery and Effective Reuse of Discarded Materials and By-Products for Construction of Highway Facilities, Denver, pp.179-183 (1993).
16. Hannant, D.J., Fiber Cements and Fiber Concrete, John Wiley & Sons, Ltd., Chichester, United Kingdom, p.53 (1978).
17. James, R. and G. Chairman, “Erosion of Concrete in Hydraulic Structure,” Reported by ACI Committee 210, ACI Manual Practice, part 1 (1998).
18. Keyvani, S.A. and N. Saeki, “Behavior of Fiber Concrete Composites Using Recycled Steel Shaving,” Journal of Solid Waste technology And Management, Vol.24, pp.1-8 (1997).
19. Khajuria, A. and P. Balaguru, “Behavior of New Synthetic Fiber Reinforced Concrete,” Civil Engineering Department Report, No.89-13, p.89 (1989).
20. Kim, P.J., C.H. Wu, Z. Lin, V.C. Li, B. deLhoneux, and S.A.S. Akers, “Micromechanics-Based Durability Study of Cellulose Cement in Flexure,” Cement and Concrete Research, Vol.29, pp.201-208 (1999).
21. Krstulovic-Opara, N. and M.J. Al-Shannag, “Compressive Behavior of Slurry Infiltrated Mat Concrete,” ACI Materials Journal, Vol.96, pp.367-377 (1999).
22. Krstulovic-Opara, N. and S. Malak, “Micromechanical Tensile Behavior of Slurry Infiltrated Continuous-Fiber-Mat Reinforced Concrete(SIMCON),” ACI Materials Journal, Vol.94, pp.373-384 (1997).
23. Li, G. and X. Zhao, “Properties of Concrete Incorporating Fly Ash and Ground Granulated Blast-Furnace Slag,” Cement Concrete Composites, Vol.25, pp293-299 (2002).
24. Li, Y. and S. Hu, “the Microstructure of the Interfacial Transition Zone between Steel and Cement Paste,” Cement and Concrete Research, Vol.31, pp.385-388 (2001).
25. Lim, Y.M., H. Wu, and V.C. Li, “Development of Flexural Composite Properties and Dry Shrinkage Behavior of High-Performance Fiber Reinforced Cementitious Composites at Early Ages,” ACI Materials Journal, Vol.96, pp.20-26 (1999).
26. Lorenzis, L.D., B. Miller, and A. Nanni, “Bond of Fiber-Reinforced Polymer Laminates to Concrete,” ACI Materials Journal, Vol.98, pp.256-264 (2001).
27. Lu, W., X. Fu, and D.D.L. Chung, “Shotcrete A Comparative Study of the Wettability of Steel, Carbon, and Polyethylene Fibers by Water,” Cement and Concrete Research, Vol.28, pp.783-786 (1998).
28. Malhotra, V.M., G.G. Carette, and A. Bilodeau, “Mechanical Properties and Durability of Polypropylene Fiber Reinforced High-Volume Fly Ash Concrete for Shotcrete Applications,” ACI Materials Journal, Vol.91, pp.478-486 (1994).
29. Mesbah, H.A. and F. Buyle-Bodin, “Efficiency of Polypropylene and Metallic Fibres on Control of Shrinkage and Cracking of Recycled Aggregate Mortars,” Construction and Building Materials, Vol.13, pp.439-447 (1999).
30. Mindess, S. and J.F. Young, Concrete, Prentice-Hall Inc., New Jersey (1981).
31. Monzo, J., J. Paya, M.V. Borrachero, and A. Corcoles, “Use of Sewage Sludge Ash(SSA)-Cement Admixtures in Mortars,” Cement Concrete Research, Vol.26, pp.1389-1398 (1996).
32. Naaman, A.E., D. Otter, and H. Najm, “Elastic Modulus of SIFCON in Tension and Compression,” ACI Materials Journal, Vol.88, pp.603-612 (1991).
33. Naaman, A.E., S. Garcia, M. Korkmaz, and V.C. Li, “Investigation of the Use of Carpet Waste PP Fibers in Concrete,” Proc., Mat. Engrg. Conf., K. Chong, ed., ASCE, New York, USA, pp.782-791 (1996).
34. Najm, H.S. and A.E. Naaman, “Prediction Model for Elastic Modulus of High-Performance Fiber Reinforced Cement-Based Composites,” ACI Materials Journal, Vol.92, pp.304-314 (1995).
35. Ochi, T., S. Okubo, and K. Fukui, “Development of Recycled PET Fiber and Its Application as Concrete-Reinforced Fiber,” Cement and Concrete Composites, Vol.29, pp.448-455 (2007).
36. Okafor, F.O., O.J. Eze-Uzomaka, and N. Egbuniwe, “The Structural Properties and Optimum Mix Proportions of Palmnut Fiber-Reinforced Mortar Composite,” Cement and Concrete Research, Vol.26, pp.1045-1055 (1996).
37. Park, S.B., and B.I. Lee, “Experimental Study on the Engineering Properties of Carbon Fiber Reinforced Cement Composites,” Cement and Concrete Research, Vol.21, pp.589-600 (1991).
38. Park, S.B., and B.I. Lee, “Mechanical Properties of Carbon Fiber-Reinforced Polymer Impregnated Cement Composites,” Cement and Concrete Composite, Vol.15, pp.153-163 (1993).
39. Park, S.B., E.S. Yoon, and B.I. Lee, “Effects of Processing and Materials Variations on Mechanical Properties of Lightweight Cement Composites,” Cement and Concrete Research, Vol.29, pp.193-200 (1999).
40. Pei, W., D. Wang, X. Hu, Y. Zhao, Y. Xu, and J. Wu, “Performance Characteristics of Subdenier Monofilament Polypropylene Fiber Reinforced Mortars,” Journal of Applied Polymer Science, Vol.94, pp.2251-2256 (2004).
41. Poskova, T. and C. Meyer, “Low-Cycle Fatigue of Plain and Fiber-Reinforced Concrete,” ACI Materials Journal, Vol.94, pp.373-385 (1997).
42. Poston, R.W., K. Kesner, J.E. McDonald, A.M. Vaysburd, and P.H. Emmons, “Concrete Repair Material Performance-Laboratory Study,” ACI Materials Journal, Vol.98, pp.137-147 (2001).
43. Ramarkrishnam, V., “Materials and Properties of Fiber Concrete,” Proceedings of the International Symposium on Fiber Reinforced Concrete, Dec. 1987,Madras, India, Vol.1, pp.2.3-2.23 (1987).
44. Rao, G. A., “Long-Term Drying Shrinkage of Mortar-Influence of Silica Fume and Size of Fine Aggregate,” Cement and Concrete Research, Vol. 31, pp.171-175 (2001).
45. Redon, C. and J.L. Chermant, “Compactness of the Cement Microstructure Versus Crack Bridging in Mortars Reinforced with Amorphous Cast Iron Fibers and Silica Fumes,” Applied Composite Materials, Vol.8, pp.149-161 (2001).
46. Robins, P., S. Austin, J. Chandler, and P. Jones, “Flexural Strain and Crack Width Measurement of Steel-Fiber-Reinforced Concrete by Optical Grid and Electrical Gauge Methods,” Cement and Concrete Research, Vol.31, pp.719-729 (2001).
47. Roy, D.M. and G.M. Idon, “Hydration, Structure, and Properties of Blast Furnace Slag Cements, Mortars and Concrete,” ACI Journal, Technical paper, No.79-43, pp. 444-457 (1982).
48. Sarigaphuti, M., S.P. Shah, and K.D. Vinson, “Shrinkage Cracking and Durability Characteristics of Cellulose Fiber Reinforced Concrete,” ACI Materials Journal, Vol.90, pp.309-318 (1993).
49. Shao, Y. and S.P. Shah, “Mechanical Properties of PVA Fiber Reinforced Cement Composites Fabricated by Extrusion Processing,” ACI Materials Journal, Vol.94, pp.555-564 (1997).
50. Silva, D.A., A.M. Betioli, P.J.P. Gleize, H.R. Roman, L.A. Gómez, and J.L.D. Ribeiro, “Degradation of Recycled PET Fibers in Portland Cement-Based Materials,” Cement Concrete Research, Vol.35, pp.1741-1746 (2005).
51. Singh, S.P. and S.K. Kaushik, “Flexural Fatigue Analysis of Steel Fiber-Reinforced Concrete,” ACI Materials Journal, Vol.98, pp.306-312 (2001).
52. Soroushian, P. and S. Ravanbakhsh, “High-Early-Strength Concrete: Mixture Proportioning with Processed Cellulose Fiber for Durability,” ACI Materials Journal, Vol.96, pp.593-599 (1999).
53. Sun, W., H. Chen, X. Lou, and H. Qian, “The Effect of Hybrid Fibers and Expansive Agent on the Shrinkage and Permeability of High-Performance Concrete,” Cement and Concrete Research, Vol.31, pp.595-601 (2001).
54. Tan, K. and X. Pu, “Strengthening Effects of Finely Ground Fly Ash, Granulated Blast Furnace Slag, and Their Combination,” Cement and Concrete Research, Vol.28, pp1819-1825 (1998).
55. Tay, J.H., “Sludge Ash as Filler for Portland Cement Concrete,” Journal of Environmental Engineering, ASCE, Vol.113, pp.345-351 (1987).
56. Tay, J.H. and K.Y. Show, “Municipal Wastewater Sludge as Cementitious and Blended Cement Materials,” Cement Concrete Composites, Vol.16, pp.39-48 (1994).
57. Tay, J.H. and K.Y. Show, “Reuse of Wastewater Sludge in Manufacturing Non-Conventional Construction Materials - an Innovative Approach to Ultimate Sludge Disposal,” Water Science and Technology, Vol.26, pp.1165-1174 (1992).
58. Tay, J.H. and W.K. Yip, “Sludge Ash as Lightweight Concrete Material,” Journal of Environmental Engineering, ASCE, Vol.115, pp.56-64 (1989).
59. Toledo, R.D. and M.A. Sanjuan, “Effect of Low Modulus Sisal and Polypropylene Fiber on the Free and Restrained Shrinkage of Mortar at Early Age,” Cement and Concrete Research, Vol.29, pp.1597-1604 (1999).
60. Toutanji, H., S. McNeil, and Z. Bayasi, “Chloride Permeability and Impact Resistance of Polypropylene-Fiber-Reinforced Silica Fume Concrete,” Cement and Concrete Research, Vol.28, pp.961-968 (1998).
61. Wainwright, P.J. and N. Rey, “The Influence of Ground Granulated Blast Furnace Slag(GGBS) Additions and Time Delay on The Bleeding of Concrete,” Cement Concrete Composites, Vol.22, pp253-257 (2000).
62. Wang, Y., “Properties of Concrete Reinforced with Recycled Carpet Waste Fibers,” Brittle matrix composites 5, Woodhead Publishing, Cambridge, U.K., pp.134-142 (1997).
63. Wang, Y., A. Zureick, B. Cho, and D.E. Scott, “Properties of Fibre Reinforced Concrete Using Recycled Fibres from Carpet Industrial Waste,” Journal of Materials Science, Vol.29, pp.4191-4199 (1994).
64. Wen, S. and D.D.L. Chung, “Piezoresistivity in Continuous Carbon Fiber Cement-Matrix Composite,” Cement and Concrete Research, Vol.29, pp.445-449 (1999).
65. Xu, G., S. Magnani, and D. Hannant, “Tensile Behavior of Fiber-Cement Hybrid Composites Containing Polyvinyl Alcohol Fiber Yarns,” ACI Materials Journal, Vol.95, pp.667-674 (1998).
66. Xu, Y., and D.D.L. Chung, “Effect of Carbon Fibers on the Vibration-Reduction Ability of Cement,” Cement and Concrete Research, Vol.29, pp.1107-1109 (1999).
67. Zhang, C., A. Wang, and M. Tang, “The Filling Role of Pozzolanic Material,” Cement and Concrete Research, Vol. 26, pp.943-947 (1996).
68. Zhang, J. and V.C. Li, “Influences of Fibers on Drying Shrinkage of Fiber-reinforced Cementitous Composite,” Journal of Engineering Mechanics, Vol. 127, pp.37-44 (2001).
69. Zhang, J. and H. Stang, “Applications of Stress Crack Width Relationship in Predicting the Flexural Behavior of Fiber-Reinforced Concrete,” Cement and Concrete Research, Vol.28, pp.439-452 (1998).
70. Zhu, W., and P.J.M. Bartos, “Assessment of Interfacial Microstructure and Bond Properties in Aged GRC Using a Novel Microindentation Method,” Cement and Concrete Research, Vol.27, pp.1701-1711 (1997).
71. Zollo, R.F., “Fiber-Reinforced Concrete: an Overview after 30 Years of Development,” Cement and Concrete Composites, Vol.19, pp107-122 (1997).
72. 石田制一等編著,賴耿陽譯著,現代工業材料總覽,復漢出版社,台南(1988)。
73. 李智強,「纖維材料對於污泥灰渣砂漿工程性質之研究」,碩士論文,國立中央大學環境工程研究所,中壢(2002)。
74. 吳岳澤,「污泥灰渣全資源化水泥砂漿之研究」,碩士論文,國立中央大學環境工程研究所,中壢(2006)。
75. 宋佩宣,「纖維材料及纖維混凝土加強原理(中)」,現代營建,第110期,第61-66頁(1989)。
76. 巫漢添、李騰芳、林忠仁、陳彥夙,「聚丙烯纖維混凝土與砂漿的工程性質暨防裂成效(下)」,現代營建,第247期, 第59-67頁(2000)。
77. 巫漢添、李騰芳、林忠仁、陳彥夙,「聚丙烯纖維混凝土與砂漿的工程性質暨防裂成效(上)」,現代營建,第246期, 第68-76頁(2000)。
78. 沈永年,「高性能混凝土水化作用機理之研究」,博士論文,國立台灣工業技術學院營建工程技術研究所,台北(1997)。
79. 周至遠,「高溫對玻璃纖維混凝土影響之研究」,碩士論文,私立中原大學土木工程研究所,台南(2004)。
80. 林炳炎,飛灰、矽灰、高爐爐石用在混凝土中,三民出版社,台北(1993)。
81. 洪志武,「纖維直徑分布對混凝土強度之影響」,碩士論文,國立成功大學土木工程研究所,台南(2002)。
82. 張大鵬,「高強度/高性能混凝土之應用與考量(上)」,營建資訊,第180期,第32-41頁(1998)。
83. 陳清泉,陳振川,袁宏續,詹穎雯,「爐石為水泥熟料與填加料對混凝土特性影響之文獻及國外現況調查研究」,財團法人台灣營建研究中心研究報告,第61頁,台北(1987)。
84. 傅國柱,「還原渣取代部分水泥之研究」,碩士論文,國立中央大學土木工程研究所,中壢(2002)。
85. 曾迪華、潘時正、李釗,「下水污泥灰渣特性及應用於水泥砂將之初步研究」,第九屆下水道技術研討會論文集,第239-253頁,台北(1999)。
86. 曾迪華、潘時正、李智強、李釗,「研磨加工改良下水污泥灰渣卜作嵐活性及砂漿性質」,第十屆下水道技術研討會論文集,第103-112頁,台北(2000)。
87. 黃兆龍,「高爐熟料的角色功能與應用技術」,中華民國八十二年混凝土技術研討會-高爐水泥混凝土之應用論文集,第307-426頁,台北(1993)。
88. 黃兆龍,洪文方,「爐石在混凝土的應用-固態廢棄物處理研究方案之二」,財團法人台灣營建研究中心研究報告,第21頁,台北(1985)。
89. 黃尊謙,「都市垃圾焚化飛灰鎔融處理取代部分水泥之研究」,碩士論文,國立中央大學環境工程研究所,中壢(1999)。
90. 楊錦懷、陳昶良,「纖維加強混凝土應用於預鑄構件接頭之剪力行為」,Journal of the Chinese Institute of Civil and Hydraulic Engineering, Vol.10, pp.205-214 (1998).
91. 熊田喜代志撰,賴耿陽譯,纖維試驗法,綜合出版社,台南(1971)。
92. 潘時正,「下水污泥灰渣特性及應用於水泥砂漿之研究」,博士論文,國立中央大學環境工程研究所,中壢(2002)。
93. 潘時正、曾迪華、李釗,「下水污泥灰渣特性及再利用於水泥材料之評估」,國立中央大學環境工程學刊,第五期,第115-129頁(1998)。 |