The oil crisis has prompted renewed interest in direct burning of oil shale as an alternative energy source. A major problem in this process is the large portion of ash produced. The cementing properties of this ash were investi-gated to determine its applicability as a building material. By means of XRD,IR,NMR and ICP,we have studied the effects of burning temperature on the reactivity of ash. Maximum reactivity was obtained with ash samples produced at 700 °C to 900 °C. In this range,the strength of oil-shale-based material,with properties similar to cement,which is composed of oil shale and several other kinds of solid wastes,can achieve the standard of 42.5# cement. Our study has provided an experimental foundation and theoretical base for a massive utilization of oil shale. The major problem in this process is the large part of ash produced. The cementing properties of this ash were investi-gated to determine its applicability as a building The means of XRD, IR, NMR and ICP, we have studied the effects of burning temperature on the reactivity of ash. Maximum reactivity was obtained with ash samples produced at 700 ° C to 900 ° C. In this range, the strength of oil-shale-based material, with properties similar to cement, which is composed of oil shale and several other kinds of solid wastes, can achieve the standard of 42.5 # cement. Our study has provided an experimental foundation and theoretical base for a massive utilization of oil shale.