The objectives of this study included the rice flour milling test for the rice bread making and the rice bread making test with 35% rice flour and cooked rice (on flour basis) substituted. About the rice flour milling test, the effects of different rice varieties, rice tempering and milling conditions on the pasting properties, particle size distribution and damaged starch content of rice flours were investigated. Ten domestic rice (commercial japonica rice, TK9 & TK9II; commercial waxy rice, CW; commercial common rice, CR & CRII; commercial chalky rice, CCR; commercial high amylose rice, CHA; japonica chalky rice, TK9IIc; broken rice, BR; indica rice, IR64) were grounded by three mills (MA, MB and MC) with five settings (MA1, MA2, MB1, MB2, MB3 and MC) were used in this study. CW, CR, CCR, CHA and IR64 rice flours were used for bread making test of 35% rice flour or cooked rice substituted bread. The bread making test included making rice breads (1) with different rice flours by the same processes, (2) with different rice flours and keeping the same specific volume, (3) with different amylose content rice flours blending with CW and CHA, (4) with different amylose content rice flours blending with CW, CR and CHA, and (5) with cooked rice. The quality of fresh made and aged breads were evaluated by texture profile analysis (TPA). The results of milling test indicated that the rice flours milled by MA were low in damaged starch content (3.96–6.73%) with large particle size (148.4–225.7 μm); the rice flours milled by MB were high in damaged starch content (13.52 – 38.37 %) with medium particle size (58.6–114.1 μm); the rice flour milled by MC were medium in damaged starch content (12.77 – 25.70%) with small particle size (47.1-53.8 μm). Compared damaged starch content of rice flours, CW was the highest and CHA was the lowest. There is no correction between rice varieties and particle size. The influence of tempering treatment on the damaged starch content of rice flour was significant on the MB, which the lowest moisture content of rice granules had the lowest damaged starch content of rice flour. While, the damaged starch contents of rice flours milled by MC were not influenced by the tempering. The results of baking test indicated that the ideal rice flours for bread making should contain low damaged starch content and have the amylose content between 10–15%. The higher damaged starch content resulted in the smallest specific volume of rice bread. The amylose content of rice flour was positive with the hardness of rice bread, but no correction with the specific volume of bread. With the same bread making process, the TPA values of CCR bread was the most similar to the control, which was made with wheat flour. Although the hardening rates of all rice breads were higher than the control, blending the rice flour with low amylose content could improve the storage quality of aged rice bread with low initial hardness of rice bread. Cooked rice breads, made with special rice specie by modified processing processes, had soft texture and rich in special sweet taste, which were favored by most panelists. To the results of sensory evaluation, rice breads made with rice flour and cooked rice got close or higher scores on all subjects, indicating that the rice breads made in this studies have great potentials for the marketing.