Introduction: Resistance exercise (RE) can significantly increase the magnitude of excess post-exercise oxygen consumption (EPOC), and which was affected by intensity, rest interval (RI) and training volume. Previous studies have demonstrated that high intensity and short RI could significantly increase the energy expenditure (EE) and EPOC following RE, but the interaction between intensity and RI on metabolic responses to RE is not clear yet. To investigate the effects of equal work resistance exercise with different intensity and rest interval (RI) on metabolic response during and after RE. Methods: Eight university males who regularly performed RE participated in this study. After completing one repetition maximum (1RM) test, subjects performed 4 treatments in a counterbalanced order: high intensity and long rest (HL: 75% 1RM, 10rep; RI: 2min); high intensity and short rest (HS: 75% 1RM, 10rep; RI: 1min); low intensity and long rest. (LL: 50% 1RM, 15rep; RI: 2min) and low intensity and short rest (LS: 50% 1RM, 15rep; RI: 1min) RE (upright row and half squat which were performed on smith machine). The oxygen consumption (VO_2), respiratory exchange ratio (RER), ventilation volume, (VE) and heart rate (HR) were measured during (Exe1 and Exe2) and after RE (R30, R60, R60 and R120). Statistical analysis of two-way analyze of variance with repeated measures was applied to analyze the differences of EE, EPOC and RER. Statistical significance was set at α = .05. Results: VO_2, EE, and EPOC during and after RE were significantly higher in HS than in HL, LS, and LL. In addition, HL and LS were significantly higher than LL (p ＜ .05), but no difference was observed between HL and LS (p ＞ .05). The RER at R60, R90 and R120 were significantly lower than Rest (p ＜ .05). Moreover, the EPOC of HS, HL, LS and LL lasted for 120 min after RE. At other physiological index, there were significant differences in HR at Eex2 (HS ＞ LS, LL), R30 (HL ＞ LL) and R60 (HS ＞ LS) among treatments. In addition, there were significant differences in VE at Eex1, Exe2 (HS ＞ HL, LS, LL; HL ＞ LL; LS ＞ LL) and R30 (HS ＞ HL, LS, LL; LS ＞ LL) among treatments (p ＜ .05). Conclusion: The results indicated that equal work RE with higher intensity or shorter RI produce higher EE and EPOC. However, the EE and EPOC levels of LS were no differences with HL.