Abstract
High strength requirement of Thermo-mechanically treated (TMT) rebars is crucial in the
construction of flyovers, bridges and high rise buildings because of the good combination of the
mechanical properties. The yield strength is expected to be between 450 MPa and 550 MPa after the
hot rolling process depending on prescribed standards. A series of experimental trials during a hot
rolling process were carried out in a steel plant in which parameters such as the water flow rate and
the processing time were varied to study their effect on the evolving mechanical properties of the
rebars. Four “heats”(A “heat” is a batch of molten steel, referred to as tap to tap cycle and involves
furnace charging with scrap, melting, deslagging, tapping molten steel and furnace turn-around.
Furnace turn-around is the period following completion of tapping until the furnace is recharged for
the next “heat”) were done to produce Y 12 mm reinforced bars (rebars). For every “heat” done,
tensile tests were carried out on the samples every after 15 minutes to establish the yield strength of
the rebar. At least eight samples were tested in every “heat”. It was observed that some samples
showed low values of yield strength (< 450 MPa) which falls short of the minimum guaranteed
yield strength. It was further noted that the water flow rate in the water cooling chamber was far
below 600 m⁄h for this size of rebar in some cases. A series of these tests were conducted and the
water flow rate adjusted in order to arrive at the optimum flow rate corresponding to the expected
yield strength and microstructure. The quenching time in the water cooling chamber was in the
range 0.1 to 0.5 seconds and the results obtained both for the tensile tests and microstructure after
several adjustments to the flow rate in particular yielded optimum results consistent with prescribed
standards.