摘要:This paper is devoted to hydrostatic compression testing of glass microspheres and spheroplastics (syntactic foam) based on them. Despite a significant share of the void, for example, with a volume fraction of glass microspheres in the syntactic foam of 0.5, the share of the void will be equal to 0.447. The opposition to hydrostatic compression of this material is surprising.The authors consider that the whole point here is to determine the signs and criteria of destruction of these materials. That is why tests were conducted to determine the strength of spheroplastics and a set of glass microspheres with modeling in the composition of an aqueous emulsion.
其他摘要:This paper is devoted to hydrostatic compression testing of glass microspheres and spheroplastics (syntactic foam) based on them. Despite a significant share of the void, for example, with a volume fraction of glass microspheres in the syntactic foam of 0.5, the share of the void will be equal to 0.447. The opposition to hydrostatic compression of this material is surprising.The authors consider that the whole point here is to determine the signs and criteria of destruction of these materials. That is why tests were conducted to determine the strength of spheroplastics and a set of glass microspheres with modeling in the composition of an aqueous emulsion.
