%O cited By 0; Conference of 6th International Conference on Civil, Offshore and Environmental Engineering, ICCOEE 2020 ; Conference Date: 13 July 2021 Through 15 July 2021; Conference Code:253689 %J Lecture Notes in Civil Engineering %L scholars15884 %D 2021 %R 10.1007/978-981-33-6311-3₆₆ %K Basalt; Compressive strength; Concrete aggregates; Concrete construction; Concrete mixtures; Cracks; Durability; Fibers; Fires; Graphite fibers; Offshore oil well production; Reinforced plastics; Sandwich structures; Tensile strength, Compressive and tensile strengths; Concrete specimens; Fire performance; Mix proportions; Normal concretes; Physical and mechanical properties; Residual compressive strength; Standard grades, Fiber reinforced concrete %X Damage of concrete in fire varies according to the nature of fire, mix proportions and constituents of concrete. When concrete are caught in fire, it can suffer consequential damage. Lots of research has been conducted so far to assess the effect of fire towards concrete. Usage of fiber becomes one of the interest in this evaluation of fire performance because fiber not only enhance the mechanical properties such as, compressive and tensile strength, but fiber can provide additional durability which is preventing cracks. In this study, chopped basalt and carbon fiber are used as reinforcement in concrete and its performance are compared with normal concrete. This paper reported the performance of fiber-reinforced concrete of standard grade 20 and 40 when subjected to fire flame at 28 days. The effect of fire on fiber reinforced concrete covers changes taking place in cement paste, aggregates, fibers, as well as their interaction that result in changes of physical and mechanical properties of concrete specimens. A direct fire exposure test was developed to imitate real fire event. Concrete specimens were burnt at 1000 °C temperature for 90 min continuously. After burning, the specimens were cooled at ambient temperature before further testing. From the findings, it is found that G20 OPC specimens obtained the highest residual compressive strength. Likewise, G40 OPC + CF specimens also obtained high residual compressive strength. Apart from that, the occurrence of spalling and cracking is observed during the duration of the fire exposure and after. The study showed adding carbon fiber in concrete improved its properties and damages observed after fire exposure were minor as compared to basalt fiber. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2021. %P 573-579 %T Effect of fire flame exposure on basalt and carbon fiber-reinforced concrete %V 132 %I Springer Science and Business Media Deutschland GmbH %A S.N. Abd Razak %A L. Guillaumat %A N. Shafiq