To study the eccentric compression behavior of ultra-high performance fiber reinforced concrete (UHPFRC) columns, six UHPFRC columns and one high-strength concrete (HSC) column were tested. Variation parameters include load eccentricity, volume of steel fibers and stirrup ratio. The crack pattern, failure mode, bearing capacity, and deformation of the specimens were studied. The results showed that the UHPFRC columns had different failure modes. The large eccentric compression failure mode was the longitudinal tensile reinforcements yielded and many horizontal cracks appeared in the tension zone. The small eccentric compression failure mode was the longitudinal compressive reinforcements yielded and vertical cracks appeared in the compressive zone. Because of the bridging effect of steel fibers, the number of cracks significantly increased, and the width of cracks decreased. The load-deflection curves of the UHPFRC columns showed gradually descending without sudden dropping, indicating that the specimens had better deformation. The finite element (FE) analysis was performed to stimulate the damage process of the specimens with monotonic loading. The concrete damaged plasticity (CDP) model was adopted to characterize the behaviour of UHPFRC. The contribution of the UHPFRC tensile strength was considered in the bearing capacity, and the theoretical calculation formulas were derived. The theoretical calculation results were consistent with the test results. This research can provide the experimental and theoretical basis for UHPFRC columns in engineering applications.

1 FHWA, "Ultra-high performance concrete: A state-of-the-art report for the bridge community" FHWA 2013

2 Fehling, E., "Ultra-High Performance Concrete UHPC:Fundamentals, Design, Examples" Ernst and Sohn 2014

3 Rossi, P., "Ultra high-performance concrete" 23 (23): 46-52, 2001

4 Association Française du Génie Civil, "Ultra High Performance Fibre-Reinforced Concretes"

5 Aoxiang Hu, "Tensile characteristics of ultra-high-performance concrete" Thomas Telford Ltd. 70 (70): 314-324, 2018

6 Doo-Yeol Yoo, "Structural performance of ultra-high-performance concrete beams with different steel fibers" Elsevier BV 102 : 409-423, 2015

7 Japan Society of Civil Engineers, "Recommendations for design and construction of ultra-high strength fiber reinforced concrete structures (Draft)"

8 Chinese Standardization Technical Committee of Concrete, "Reactive powder concrete" China Stand Press 2015

9 Chong Wang, "Preparation of Ultra-High Performance Concrete with common technology and materials" Elsevier BV 34 (34): 538-544, 2012

10 Ramachandra Murthy A, "Prediction of flexural behaviour of RC beams strengthened with ultra high performance fiber reinforced concrete" 국제구조공학회 65 (65): 315-325, 2018

11 F. de Larrard, "Optimization of ultra-high-performance concrete by the use of a packing model" Elsevier BV 24 (24): 997-1009, 1994

12 Magureanu, C., "Mechanical properties and durability of ultra-high-performance concrete" 109 (109): 177-184, 2012

13 Korea Concrete Institute, "KCI-M-12-003: Design Recommendations for Ultra-high Performance Concrete"

14 An Le Hoang, "Influence of steel fiber content and aspect ratio on the uniaxial tensile and compressive behavior of ultra high performance concrete" Elsevier BV 153 : 790-806, 2017

15 Kazemi, S., "Influence of specimen size and fiber content on mechanical properties of ultra-high-performance fiber-reinforced concrete" 109 (109): 75-684, 2012

16 Prabhat Ranjan Prem, "Influence of curing regime and steel fibres on the mechanical properties of UHPC" Thomas Telford Ltd. 67 (67): 988-1002, 2015

17 In-Hwan Yang, "Flexural response predictions for ultra-high-performance fibre-reinforced concrete beams" Thomas Telford Ltd. 64 (64): 113-127, 2012

18 Jianan Qi, "Flexural response of high-strength steel-ultra-high-performance fiber reinforced concrete beams based on a mesoscale constitutive model: Experiment and theory" Wiley 19 (19): 719-734, 2018

19 Shiming Chen, "Flexural behaviour of rebar-reinforced ultra-high-performance concrete beams" Thomas Telford Ltd. 70 (70): 997-1015, 2018

20 M.A. Al-Osta, "Flexural behavior of reinforced concrete beams strengthened with ultra-high performance fiber reinforced concrete" Elsevier BV 134 (134): 279-296, 2017

21 Muhammad Safdar, "Flexural behavior of reinforced concrete beams repaired with ultra-high performance fiber reinforced concrete (UHPFRC)" Elsevier BV 157 : 448-460, 2016

22 Shenchun Xu, "Experimental investigation of seismic behavior of ultra-high performance steel fiber reinforced concrete columns" Elsevier BV 152 : 129-148, 2017

23 M. Singh, "Experimental and numerical study of the flexural behaviour of ultra-high performance fibre reinforced concrete beams" Elsevier BV 138 : 12-25, 2017

24 Zemei Wu, "Effects of steel fiber content and shape on mechanical properties of ultra high performance concrete" Elsevier BV 103 : 8-14, 2016

25 Heinz, D., "Effect of heat treatment method on the properties of UHPC" 2012

26 Schachinger, I., "Effect of curing temperatures at an early age on the long-term strength development of UHPC" 205-212, 2008

27 Ali Alsalman, "Development of ultra-high performance concrete with locally available materials" Elsevier BV 133 : 135-145, 2017

28 Katrin Habel, "Development of the mechanical properties of an Ultra-High Performance Fiber Reinforced Concrete (UHPFRC)" Elsevier BV 36 (36): 1362-1370, 2006

29 Yu Su, "Development of novel ultra-high performance concrete: From material to structure" Elsevier BV 135 : 517-528, 2017

30 R. Yu, "Development of an eco-friendly Ultra-High Performance Concrete (UHPC) with efficient cement and mineral admixtures uses" Elsevier BV 55 : 383-394, 2015

31 Belarbi, A., "Constitutive laws of concrete in tension and reinforcing bars stiffened by concrete" 91 (91): 465-474, 1994

32 Hyun-Oh Shin, "Confinement of ultra-high-performance fiber reinforced concrete columns" Elsevier BV 176 : 124-142, 2017

33 Graybeal, B. A., "Compressive behavior of ultra-high performance fiber reinforced concrete" 104 (104): 146-152, 2007

34 Pierre Richard, "Composition of reactive powder concretes" Elsevier BV 25 (25): 1501-1511, 1995

35 Ministry of Housing and Urban-Rural Development of China, "Code for design of concrete structures" Chinese Architecture and Building Press 2010

36 Milad Mohammadi Hosinieh, "Behavior of ultra-high performance fiber reinforced concrete columns under pure axial loading" Elsevier BV 99 : 388-401, 2015

37 "Abaqus 6.11, Abaqus Analysis User’s Manual Dassault Systemes"

38 "ASTM C1609-12, Standard Test Method for Flexural Performance of Fiber-Reinforced Concrete (Using Beam with Third-Point Loading)"

39 J. Lubliner, "A plastic-damage model for concrete" Elsevier BV 25 (25): 299-326, 1989

40 류두열, "A Review on Structural Behavior, Design, and Application of Ultra-High-Performance Fiber-Reinforced Concrete" 한국콘크리트학회 10 (10): 125-142, 2016