β Scribed by Yuan Meini; Yang Yanqing; Huang Bin; Wu Yaojin
No coin nor oath required. For personal study only.
The finite element model, which considered the interfacial reaction layer was developed to evaluate interfacial shear strength of titanium matrix composites (TMCs) and analyze the effect of interface reaction on interfacial mechanical properties. The results show that the interfacial shear strength of SiC/Timetal-834 evaluated is about 500 MPa, and that the interfacial shear strength increases as the interfacial reaction enhances. Moreover, the relationship between the thickness of the interfacial reaction layer and the interfacial shear strength is built.
π SIMILAR VOLUMES
C coating of the SiC fiber critically influences the interfacial microstructure and properties of titanium matrix composites, and thus affects the overall composite properties. In this work, the interfacial microstructure and debond strength of SiC(C)/Ti-6Al-4V and SiC/Ti-6Al-4V composites was studi
## Abstract The chemical reactions at the interface between an anhydrideβcured epoxy resin and an aminosilane treated fiber have been investigated using Fourier transform infrared methods (FTβIR). The results indicate that chemical bonds are formed in the interfacial region between the matrix and t
Imperfect bonding between constituents is studied where displacements, electric and magnetic static potentials are considered to have a jump proportional to the normal component of the mechanical traction, electric displacement and magnetic flux. This condition may model various interface damages or