Determination of cryogenic interfacial parameters in carbon/epoxy composites and low-temperature failure mechanism via a hybrid experiment-simulation-machine learning method
Yicheng Jiang, Wenjin Zhang, Xueqin Luo, Qianying Cen, Biao Xu, Ling Liu, Zhanjun Wu
Topics & Concepts
Materials scienceMicroscale chemistryCohesive zone modelComposite materialMultiscale modelingFinite element methodFracture (geology)Tree traversalMesoscale meteorologyMicromechanicsThermal conductivityDelamination (geology)CrackingThermalInverseShear strength (soil)Stress (linguistics)Composite numberDeformation (meteorology)Reliability (semiconductor)Thermal expansionFracture mechanicsShear (geology)Fracture toughnessArtificial neural networkGraph traversalMechanism (biology)Inverse problemDissipationFailure mode and effects analysisFlexural strengthDissipative systemIntergranular fractureStructural engineeringCarbon fibersInverse methodFailure mechanismThermal barrier coatingMaterial propertiesMolecular dynamicsFiber-reinforced polymer compositesEpoxy Resin Curing ProcessesMechanical Behavior of Composites