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Dr. Hussain Jabir
University of Wasit

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0 Reinforced Concrete
0 voided slabs
0 post heating
0 Hollow columns

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Journal article
Published: 04 December 2020 in Fibers
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Ultra-high performance (UHP) concrete is a special type of fibrous cementitious composite that is characterized by high strength and superior ductility, toughness, and durability. This research aimed to investigate the resistance of ultra-high performance fiber-reinforced concrete (UHPFRC) against repeated impacts. An adjusted repeated drop mass impact test was adopted to evaluate the impact performance of 72 UHPFRC disc specimens. The specimens were divided into six mixtures each of 12 discs. The only difference between the mixtures was the types of fibers used, while all other mixture components were the same. Three types of fibers were used: 6 mm micro-steel, 15 mm micro-steel, and polypropylene. All mixtures included 2.5% volumetric content of fibers, however with different combinations of the three fiber types. The test results showed that the mixtures with the 15 mm micro-steel fiber absorbed a higher number of impact blows until cracking compared to other mixtures. The mixture with pure 2.5% of 15 mm micro-steel fiber exhibited the highest impact resistance, with percentage increases over the other mixtures ranging from 25 to 140%. In addition, the Weibull distribution was used to investigate the cracking impact resistance of UHP at different levels of reliability.

ACS Style

Hussain A. Jabir; Sallal R. Abid; Gunasekaran Murali; Sajjad H. Ali; Sergey Klyuev; Roman Fediuk; Nikolai Vatin; Vladimir Promakhov; Yuriy Vasilev. Experimental Tests and Reliability Analysis of the Cracking Impact Resistance of UHPFRC. Fibers 2020, 8, 74 .

AMA Style

Hussain A. Jabir, Sallal R. Abid, Gunasekaran Murali, Sajjad H. Ali, Sergey Klyuev, Roman Fediuk, Nikolai Vatin, Vladimir Promakhov, Yuriy Vasilev. Experimental Tests and Reliability Analysis of the Cracking Impact Resistance of UHPFRC. Fibers. 2020; 8 (12):74.

Chicago/Turabian Style

Hussain A. Jabir; Sallal R. Abid; Gunasekaran Murali; Sajjad H. Ali; Sergey Klyuev; Roman Fediuk; Nikolai Vatin; Vladimir Promakhov; Yuriy Vasilev. 2020. "Experimental Tests and Reliability Analysis of the Cracking Impact Resistance of UHPFRC." Fibers 8, no. 12: 74.