In order to determine the effects of different mineral admixtures including fly ash(FA),blast furnace slag(BFS) and metakaolin(MK) on hydration product phases from the nanoscale structure perspective,nanoindentation characteristics of the samples with similar 28-day strengths have been investigated.The results indicate that the volume fractions of porosity in porosity and hydration product phases of the samples with the same kind of mineral admixture are almost equal to each other,and are greater than that of the sample without mineral admixture.Mineral admixtures especially MK can decrease remarkably the volume fractions of CH in porosity and hydration product phases,and there exists a good linear relationship between the(Al+Si)/Ca molar ratio of cementitious materials chemical compositions and the volume fraction of HD C-S-H gel in C-S-H gel.Therefore,it is possible to predict the volume fraction change of HD C-S-H gel in C-S-H gel by simply calculating the(Al+Si)/Ca molar ratio of cementitious materials with similar 28-day strengths under the constant water-binder ratio. In order to determine the effects of different mineral admixtures including fly ash (FA), blast furnace slag (BFS) and metakaolin (MK) on hydration product phases from the nanoscale structure perspective, nanoindentation characteristics of the samples with similar 28-day strengths have been investigated. The results indicate that the volume fractions of porosity in porosity and hydration product phases of the samples with the same kind of mineral admixture are almost equal to each other, and are greater than that of the sample without mineral admixture. Mineral admixtures especially MK can be reduced remarkably the volume fractions of CH in porosity and hydration product phases, and there exists a good linear relationship between the (Al + Si) / Ca molar ratio of cementitious materials chemical compositions and the volume fraction of HD CSH gel in CSH gel . Wherefore, it is possible to predict the volume fraction change of HDCSH gel in CSH gel by simply calculating the (Al + Si) / Ca molar ratio of c ementitious materials with similar similar 28-day strengths under the constant water-binder ratio.