▎ 摘　　要

NOVELTY - The metamaterial has adjacent layers that are bonded by adhesive material. The adjacent layers are made of rhombus base. An element structure of the bottom layer is arranged in a quasi-periodic order. The element is formed in rhombus protrusion shape structure, where length of the rhombus can be adjusted between 0.1-50 mm and thickness of the rhombus can be adjusted between 0.1-10 mm. Top primitives are arranged in periodic or quasi-periodic order. A bottom diamond-shaped element is a mixture of powder and resin with microwave absorption properties. A top diamond-shaped element is made of metal or non-metal material with higher conductivity, where powder with microwave absorption properties is selected from the group consisting of graphene, carbon nanotubes, carbonyl iron powder and ferrite. USE - Rhombus based double-layer heterogeneous order structure microwave infrared compatible metamaterial. ADVANTAGE - The material has high conductivity, and reduces infrared emission rate and improves microwave absorption performance. DETAILED DESCRIPTION - The resin is selected as an organic resin that is selected from polyurethane and epoxy resin. The metal or non-metallic material with higher conductivity is selected from aluminum, copper, indium tin oxide. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic diagram of a rhombus based double-layer heterogeneous order structure microwave infrared compatible metamaterial. (Drawing includes non-English language text).