Japanese threadfin bream (Nemipterus japonicus) minced meat foams added with methyl cellulose (MC) at a concentration of 0.5%, 1.0%, and 1.5% w/w with foam thickness of 0.5 mm were subjected to foam-mat drying (FMD) at two drying temperatures (70 and 80°C). The objective of this study was to investigate the drying kinetics of the minced fish meat foams at different drying temperatures and MC concentrations. The effect of FMD conditions on the physical properties of powdered samples was also investigated. The drying data were fitted to a selected thin-layer drying models based on moisture ratio. The Page model was found to be the best model (R 2 = 0.9930, χ 2 = 0.0005 and RMSE = 0.0202) to describe the drying curves of threadfin bream foams. The L*, a*, b*, and whiteness values of FMD fish powder were significantly affected by all the factors including the interaction (p < .05). An increase in particle size from 116.22 to 131.80 μm was observed as the drying temperature and MC concentration increased. The powder showed good-fair flowability and are within the acceptable range. Both drying temperatures yielded fish powder with satisfactory physical characteristics. Practical applicationsDrying is a method of food preservation that removes the water from the food. Using foam-mat drying, the minced fish meat is converted into fish powder at a lower drying temperature and shorter drying time. Mathematical modeling of the drying process of threadfin bream foams helps to predict the behavior of moisture removal from the foams and the process design, increasing the use of Japanese threadfin bream in the food industry. The fish powder obtained by this method has greater bulk density, which reduces packaging and transportation costs. The fish powder can be incorporated into other products to add value.