Abstract: A porous material of a medical implant material, the material body of which is a hierarchical porous material with multilevel pore cavities graded according a pore size of the material. The permeability of the hierarchical porous material is more than 0.5×10?9 m2. The hierarchical porous material can fully ensure blood flow, achieve transmission of adequate nutrients and growth factors, migration of cells, and remove cell fragments and stimulate tissue growth, and has various functions, thus fully satisfying the requirements of human tissue regeneration.

Abstract: A porous material having a hierarchical pore structure, wherein a size and shape of interconnection parts of at least one level pore cavities is consistent with a size and shape of interconnection parts between the level pore cavities and the previous level pore cavities thereof, and an average value of equivalent diameters of the interconnection parts is larger than 45% of that of a diameter of small pore cavities of two adjacent pore cavities of the interconnection parts. The method for preparing the porous material includes: mixing a raw material powder with a pore-forming agent used for preparing the smallest level pores to formulate a slurry; uniformly filling the slurry into a polymeric material frame, and drying and crushing to form mixed grains; then uniformly mixing the mixed grains with the pore-forming agent used for preparing the upper-level pore cavities, forming a compact green body and sintering.

Abstract: The present invention provides a porous non-metallic material including a material body, the material body is composed of pore cavities and cavity walls formed by surrounding the pore cavities in three-dimensional space. The pore cavities are uniformly distributed, and each pore cavity is three-dimensionally interconnected. The pore cavities are uniformly distributed means that the pore cavities are uniformly distributed under any unit-level volume on the porous material. The present invention provides a specific and clear measurement method for pore cavities distribution uniformity of the porous material, that is, the pore distribution uniformity of the porous material and the hierarchical structure thereof is measured on the scale of the small unit-level volume. Such porous structure is highly uniform, thereby ensuring the uniformity of the properties of the porous material.

Abstract: A porous material of a medical implant material, the material body of which is a hierarchical porous material with multilevel pore cavities graded according a pore size of the material. The permeability of the hierarchical porous material is more than 0.5×10?9 m2. The hierarchical porous material can fully ensure blood flow, achieve transmission of adequate nutrients and growth factors, migration of cells, and remove cell fragments and stimulate tissue growth, and has various functions, thus fully satisfying the requirements of human tissue regeneration.

Abstract: A porous material having a hierarchical pore structure, wherein a size and shape of interconnection parts of at least one level pore cavities is consistent with a size and shape of interconnection parts between the level pore cavities and the previous level pore cavities thereof, and an average value of equivalent diameters of the interconnection parts is larger than 45% of that of a diameter of small pore cavities of two adjacent pore cavities of the interconnection parts. The method for preparing the porous material includes: mixing a raw material powder with a pore-forming agent used for preparing the smallest level pores to formulate a slurry; uniformly filling the slurry into a polymeric material frame, and drying and crushing to form mixed grains; then uniformly mixing the mixed grains with the pore-forming agent used for preparing the upper-level pore cavities, forming a compact green body and sintering.