超高性能混凝土（UHPC）材料與結構應用及文獻回顧

10.6653/MoCICHE.202210_49(5).0005

顏誠皜；洪崇展

超高性能混凝土 ； 材料特性 ； 工程應用

土木水利

49卷5期（2022 / 10 / 01）

43 - 47

繁體中文

超高性能混凝土憑藉其傑出力學與耐久性能掀起當代營建材料的革命。優異的力學性質有利於設計出更細長薄的結構，增加建築物的可用空間，並簡化鋼筋設計，可有效降低勞動成本，並提供更大的建築自由度，使建築師與工程師發揮更具創意之構造型式。此外，呼應永續工程，超高性能混凝土相較傳統工法可大幅縮減斷面與材料用量，並具有優異之耐久性，可有效減少長期維修，能減少碳排放量，因此可視為綠色營建材料。

1. 洪崇展,郭家維,黃丞毅(2020)。超高性能纖維混凝土於非韌性柱包覆補強工法之有效性。中國土木水利工程學刊，32，693-699。
   連結：
2. 洪崇展,戴艾珍,顏誠皜,溫國威,張庭維(2017)。世代多功能性混凝土材料─高性能纖維混凝土。土木水利，44，33-51。
   連結：
3. 袁宇秉,洪崇展,Li, Victor C(2020)。應用高韌性纖維混凝土（ECC）邁向永續基礎設施工程。中國土木水利工程學刊，32，713-720。
   連結：
4. AFGC(2002).,Paris:AFGC.
5. Bermudez, M,Hung, C.(2021).Shear Behavior of Steel Reinforced Ultra High Performance Concrete Members with Hybrid Fibers.EASEC16
6. Bermudez, M,Wen, K-W,Hung, C-C(2022).A Comparative Study on the Shear Behavior of UHPC Beams with Macro Hooked-End Steel Fibers and PVA Fibers.Materials,15,1485.
7. Caner, A.(1998).Behavior and design of link slabs for jointless bridge decks.PCI journal,43(3)
8. Chao, S,Shamshiri, M,Liu, X,Palacios, G,Schultz, A,Nojavan, A.(2021).Seismically Robust Ultra-High-Performance Fiber-Reinforced Concrete Columns.ACI Structural Journal,118,17-32.
9. Chao, S-H,Kaka, V,Shamshiri, M.(2019).Toward A Non-Prestressed Precast Long-Span Bridge Girder Using UHP-FRC.International Interactive Symposium on Ultra-High Performance Concrete
10. Cheng, Z,Zhang, Q,Bao, Y,Deng, P,Wei, C,Li, M(2021).Flexural behavior of corrugated steel-UHPC composite bridge decks.Engineering Structures,246,113066.
11. Do, TDD,Yen, K-J,Yen, C-H,Hung, C-C.(2022).Impact of tension stiffening on the tensile and flexural behavior of ECC ferrocement.Construction and Building Materials,329,127201.
12. Doiron, G,White, P.(2017).UHPC link slab solutions in North America.AFGC-ACI-fib-RILEM International Symposium on Ultra-High Performance Fibre-Reinforced Concrete
13. Dong, Y.(2018).Performance assessment and design of ultra-high performance concrete (UHPC) structures incorporating life-cycle cost and environmental impacts.Construction and Building Materials,167,414-425.
14. Fehling, E,Ismail, M.(2012).Experimental Investigation on UHPC Structural Elements Subject to Pure Torsion.Proceeding: Third International Symposium on Ultra High Performance Concrete 2012
15. Graybeal, B.(2014).,United States:Federal Highway Administration.
16. Gupta, A,Mendis, P,Ngo, T,Rebentrost, M.(2006).Modelling Localised Response of Steel Fibre Reinforced Ultra High-Strength Concrete Panels Under High Velocity Impact.Australasian Conference of Materials and Structural Mechanics
17. Haikal, G,Ramirez, JA,Jahanshahi, MR,Villamizar, S,Abdelaleim, O.(2019).,未出版
18. Hung, C,Wen, K.(2020).Investigation of shear strength of ultra-high performance concrete beams without stirrup.Proc, 17th World Conf on Earthquake Engineering, 17WCEE,Tokyo:
19. Hung, C-C,Chen, Y-S(2016).Innovative ECC jacketing for retrofitting shear-deficient RC members.Construction and building materials,111,408-418.
20. Hung, C-C,Chen, Y-T,Yen, C-H(2020).Workability, fiber distribution, and mechanical properties of UHPC with hooked end steel macrofibers.Construction and Building Materials,260,119944.
21. Hung, C-C,Chueh, C-Y.(2016).Cyclic behavior of UHPFRC flexural members reinforced with high-strength steel rebar.Engineering Structures,122,108-120.
22. Hung, C-C,El-Tawil, S.(2010).Hybrid Rotating/Fixed-Crack Model for High-Performance Fiber-Reinforced Cementitious Composites.ACI Materials Journal,107
23. Hung, C-C,El-Tawil, S,Chao, S-H.(2021).A Review of Developments and Challenges for UHPC in Structural Engineering: Behavior, Analysis, and Design.Journal of Structural Engineering,147,03121001.
24. Hung, C-C,Hsieh, P-L.(2020).Comparative study on shear failure behavior of squat high-strength steel reinforced concrete shear walls with various high-strength concrete materials.Structures,23,56-68.
25. Hung, C-C,Hu, F-Y(2018).Behavior of high-strength concrete slender columns strengthened with steel fibers under concentric axial loading.Construction and Building Materials,175,422-433.
26. Hung, C-C,Hu, F-Y,Yen, C-H.(2018).Behavior of slender UHPC columns under eccentric loading.Engineering Structures,174,701-711.
27. Hung, C-C,Hung, H-H.(2020).Potential of sodium sulfate solution for promoting the crack-healing performance for strain-hardening cementitious composites.Cement and Concrete Composites,106,103461.
28. Hung, C-C,Kuo, C-W,Shao, Y(2021).Cast-in-place and prefabricated UHPC jackets for retrofitting shear-deficient RC columns with different axial load levels.Journal of Building Engineering,44,103305.
29. Hung, C-C,Lee, H-S,Chan, SN.(2019).Tension-stiffening effect in steel-reinforced UHPC composites: constitutive model and effects of steel fibers, loading patterns, and rebar sizes.Composites Part B: Engineering,158,269-278.
30. Hung, C-C,Li, H,Chen, H-C(2017).High-strength steel reinforced squat UHPFRC shear walls: cyclic behavior and design implications.Engineering Structures,141,59-74.
31. Hung, C-C,Su, Y-F.(2016).Medium-term self-healing evaluation of engineered cementitious composites with varying amounts of fly ash and exposure durations.Construction and Building Materials,118,194-203.
32. Hung, C-C,Su, Y-F.(2013).On modeling coupling beams incorporating strain-hardening cement-based composites.Computers and Concrete,12,565-583.
33. Hung, C-C,Su, Y-F,Hung, H-H.(2017).Impact of natural weathering on medium-term self-healing performance of fiber reinforced cementitious composites with intrinsic crack-width control capability.Cement and Concrete Composites,80,200-209.
34. Hung, C-C,Su, Y-F,Su, Y-M(2018).Mechanical properties and self-healing evaluation of strain-hardening cementitious composites with high volumes of hybrid pozzolan materials.Composites Part B: Engineering,133,15-25.
35. Hung, C-C,Yen, C-H.(2021).Compressive behavior and strength model of reinforced UHPC short columns.Journal of Building Engineering,35,102103.
36. Hung, C-C,Yen, W-M,Yu, K-H.(2016).Vulnerability and improvement of reinforced ECC flexural members under displacement reversals: Experimental investigation and computational analysis.Construction and Building Materials,107,287-298.
37. Lei, V-Y,Nematollahi, B,Said, ABM,Gopal, BA,Yee, TS.(2012).Application of ultra high performance fiber reinforced concrete–The Malaysia perspective.International Journal of Sustainable Construction Engineering and Technology,3,26-44.
38. Li, J,Wu, Z,Shi, C,Yuan, Q,Zhang, Z(2020).Durability of ultra-high performance concrete–A review.Construction and Building Materials,255,119296.
39. Ngo, T,Mendis, P,Lam, N,Cavill, B.(2005).Performance of ultra-high strength concrete panels subjected to blast loading.The 2005 Science, Engineering and Technology Summit
40. Park, SH,Kim, DJ,Ryu, GS,Koh, KT.(2012).Tensile behavior of ultra high performance hybrid fiber reinforced concrete.Cement and Concrete Composites,34,172-184.
41. Randl, N,Steiner, T,Ofner, S,Baumgartner, E,Mészöly, T.(2014).Development of UHPC mixtures from an ecological point of view.Construction and Building Materials,67,373-378.
42. Royce, M.(2016).Utilization of Ultra-High Performance Concrete (UHPC) in New York.International Interactive Symposium on Ultra-High Performance Concrete
43. Saleh, E,Tarawneh, A,Naser, M,Abedi, M,Almasabha, G.(2022).You only design once (YODO): Gaussian Process-Batch Bayesian optimization framework for mixture design of ultra high performance concrete.Construction and Building Materials,330,127270.
44. Schmidt, M,Fehling, E.(2005).Ultra-high-performance concrete: research, development and application in Europe.ACI Spec Publ.,228,51-78.
45. Shao, X,Qu, W,Cao, J,Yao, Y(2018).Static and fatigue properties of the steel-UHPC lightweight composite bridge deck with large U ribs.Journal of Constructional Steel Research,148,491-507.
46. Shao, Y,Kuo, C-W,Hung, C-C(2021).Seismic performance of full-scale UHPC-jacket-strengthened RC columns under high axial loads.Engineering Structures,243,112657.
47. Sheheryar, M,Rehan, R,Nehdi, ML(2021).Estimating CO2 Emission Savings from Ultrahigh Performance Concrete: A System Dynamics Approach.Materials,14,995.
48. Shi, C,Wu, Z,Xiao, J,Wang, D,Huang, Z,Fang, Z.(2015).A review on ultra high performance concrete: Part I. Raw materials and mixture design.Construction and Building Materials,101,741-751.
49. Sturm, A,Visintin, P,Oehlers, D(2019).Rational design approach for the instantaneous and time-dependent serviceability deflections and crack widths of FRC and UHPFRC continuous and simply supported beams.Journal of Structural Engineering,145,04019138.
50. Sturm, A,Visintin, P,Seracino, R,Lucier, G,Oehlers, D.(2020).Flexural performance of pretensioned ultra-high performance fibre reinforced concrete beams with CFRP tendons.Composite Structures,243,112223.
51. Sturm, AB,Visintin, P,Oehlers, DJ.(2020).Blending fibres to enhance the flexural properties of UHPFRC beams.Construction and Building Materials,244,118328.
52. Toutlemonde, F,Bernadi, S,Brugeaud, Y,Simon, A.(2018).Twenty years-long French experience in UHPFRC application and paths opened from the completion of the standards for UHPFRC.UHPC 2018, 2nd International Conference on UHPC Materials and Structures
53. Voo, YL,Foster, SJ(2010).Characteristics of ultra-high performance ‘ductile’concrete and its impact on sustainable construction.The IES Journal Part A: Civil & Structural Engineering,3,168-187.
54. Wille, K,Naaman, AE,Parra-Montesinos, GJ(2011).Ultra-High Performance Concrete with Compressive Strength Exceeding 150 MPa (22 ksi): A Simpler Way.ACI materials journal,108
55. Xiao, J-L,Zhou, M,Nie, J-G,Yang, T-Y,Fan, J-S.(2021).Flexural behavior of steel-UHPC composite slabs with perfobond rib shear connectors.Engineering Structures,245,112912.
56. Yang, I-H,Joh, C,Lee, JW,Kim, B-S.(2013).Torsional behavior of ultra-high performance concrete squared beams.Engineering Structures,56,372-383.
57. Yu, R,Spiesz, P,Brouwers, H.(2015).Development of an eco-friendly Ultra-High Performance Concrete (UHPC) with efficient cement and mineral admixtures uses.Cement and Concrete Composites,55,383-394.
58. Zhang, M,Shim, V,Lu, G,Chew, C.(2005).Resistance of high-strength concrete to projectile impact.International Journal of Impact Engineering,31,825-841.
59. 王昱棋(2021)。國立成功大學土木工程學系。
60. 周笙展(2021)。國立成功大學土木工程學系。
61. 黃皇川(2019)。國立成功大學土木工程學系。