Thermadapt shape memory polymer and application method thereof

The invention claimed is: 1. A thermadapt shape memory polymer prepared by a preparation method comprising the following steps: (1) synthesizing an epoxy oligomer with hydroxyl side-groups by reacting an epoxy resin and an alcohol amine; (2) synthesizing a silane crosslinking agent with terminated alkoxyl groups by reacting a silane coupling agent and a diamine; (3) synthesizing the thermadapt shape memory polymer by reacting the epoxy oligomer with hydroxyl side-groups with the silane crosslinking agent with terminated alkoxyl groups. 2. The thermadapt shape memory polymer of claim 1 , wherein: the epoxy resin includes one or more of bisphenol A epoxy resin, bisphenol F epoxy resin, or hydrogenated epoxy resin; the alcohol amine comprises one or more of an ethanolamine, a 3-aminopropanol and a 2-(2-aminoethoxy)ethanol; the diamine is one or more of 4,4′-methylenedianiline, 4,4′-diaminodiphenylsulfone and 4,4′-oxydianiline; and the silane coupling agent is an isocyanate silane coupling agent. 3. The thermadapt shape memory polymer of claim 2 , wherein: the isocyanate silane coupling agent is one or more of 3-isocyanatopropyltrimethoxysilane and 3-isocyanatopropyltriethoxysilane. 4. The thermadapt shape memory polymer of claim 1 , wherein: the epoxy resin reacts with the alcohol amine in amide solvent under nitrogen atmosphere and; the silane coupling agent reacts with the diamine in the presence of chlorohydrin under nitrogen atmosphere. 5. The thermadapt shape memory polymer of claim 1 , wherein: the reaction temperature of the epoxy resin and the alcohol amine is 120° C. and the reaction time is 10-12 h; the reaction temperature of the silane coupling agent and the diamine is 80° C. and the reaction time is 4-6 h; and the reaction temperature of the epoxy oligomer with hydroxyl side-groups and the silane crosslinking agent with terminated alkoxyl groups is 80° C. and the reaction time is 10-12 h. 6. The thermadapt shape memory polymer of claim 1 , wherein: the mass ratio of the epoxy resin to the alcohol amine is 100:(15-25); the mass ratio of the silane coupling agent and the diamine is 100: (190˜230); and the mass ratio of the epoxy oligomer with hydroxyl side-groups to the silane crosslinking agent with terminated alkoxyl groups is 100:(20-60). 7. The thermadapt shape memory polymer of claim 1 , wherein: in the step (3), the thermadapt shape memory polymer are synthesized as follows: dissolving the epoxy oligomer with hydroxyl side-groups and the silane crosslinking agent with terminated alkoxyl groups in amide solvent and crosslinking the epoxy oligomer with hydroxyl side-groups and the silane crosslinking agent with terminated alkoxyl groups to form a network, and subsequently drying to obtain the thermadapt shape memory polymer. 8. The thermadapt shape memory polymer of claim 1 , prepared by a preparation method further comprising the following steps: (4) heating the thermadapt shape memory polymer to a temperature above its glass transition temperature and deforming to a fixed memory shape; heating the fixed memory shape to 180-200° C. for 1-2 h; after that, cooling the shape memory polymer to room temperature to obtain a thermadapt shape memory polymer with a reconfigurable permanent shape; (5) heating the thermadapt shape memory polymer with a reconfigurable permanent shape obtained in step (1) to a temperature above its glass transition temperature and then forming the polymer material into a temporary shape, then cooling to room temperature and obtaining a shape memory polymer material with a temporary shape; and (6) reheating the shape memory polymer material with a temporary shape above its glass transition temperature to obtain a polymer material with a reconfigurable permanent shape and complete the shape recovery of the thermadapt shape memory polymer. 9. The thermadapt shape memory polymers of claim 8 , wherein: the temperature above the glass transition temperature in steps (4) or (5) is over the glass transition temperature by 10-20° C. 10. The thermadapt shape memory polymers of claim 8 , wherein the thermadapt shape memory polymers are made into the reconfigurable memory shape or the temporary shape by applying external force.