Reinforced concrete design manual generally ignores the contribution from concrete tensile strength, this will underestimate the capacity of maximum bending moment of reinforced concrete structure. This study will develop a mechanical theory numerical analysis model, using the MATLAB mathematical software implemented with the constitutive relations of concrete and reinforcement bar to analyze the tensile and compressive strains of reinforcement bar of a simple supported beam under two-point load. The calculated strains are compared with the experimental results measured form SOFO fiber sensors attached to the reinforcement bars in a reinforced concrete beam. The calculated moments along the beam are identical to the theoretical solution, this indicate this numerical analysis model is functioning well. Furthermore, for the pure bending section, the calculated compressive strains are in good agreement with the measured strains. However the calculated tensile strains are somewhat offset from the measured values. In addition, FLAC3D, a finite difference software, is used to analyzed the same instrumented beam, in which Mohr Coulomb is used to model concrete and linear elasticity is used to model reinforcement bar. When applied load is smaller than 1150kg, the calculated strains from FLAC3D are in good agreement with the results from mechanical theory numerical analysis model as well as experimental results.