The present invention relates to a cosmetic product having an impregnation member embossed and engraved by melting the surface thereof. More specifically, the present invention relates to a cosmetic product having an impregnation member embossed and engraved by melting the surface thereof, wherein the impregnation member is embossed and engraved on the surface by compressing the surface of the impregnation member onto a heated embossed and engraved metal mold and then melting the surface, and the open cell structure of the impregnation member's surface is melted to convert the same into an open cell structure having a size of 1/2 or less, and thus, the impregnation member prevents the contents from being wasted by excessively smearing the contents more than necessary if the impregnation member is put with a puff for the use of the content, and the contents can be uniformly and thinly smeared on the puff to efficiently use the content.
