Fabrication of lightweight 3D interpenetrated NiTi@Mg composite with superior bending properties
A NiTi@Mg interpenetrating phase composite with high strength and lightweight was prepared by additive manufacturing (AM) and infiltration technology,and the interface bonding,three-point bending properties and cyclic compressive properties of NiTi@Mg composites were investigated. The results show that the metallurgically bonded interface is formed at the NiTi/Mg interfaces. The bending strength and compressive strength of the NiTi@Mg composite are 2.5 and 1.7 times higher than those of the NiTi scaffold,respectively. During the bending deformation process,a large number of dislocations are observed to accumulate in the soft Mg area at the interface. Furthermore,the finite element model showed that the stress accumulation area,where the bending crack is initiated,is located at the interface of NiTi and Mg. The strengthening mechanism of NiTi@Mg composites is attributed to the twinning strengthening of Mg and heterogeneous structure strengthening.
metal compositesNiTi@Mgbending propertiesfinite element simulationstrengthening mechanism
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