In this work, Inconel 718 nickel-based alloy was chosen for analyses the machinability and microstructure. CNC turning center was used for conducting the experimental work based on the L9 orthogonal array on heat treated and non-heat-treated material. The design of experiment is performed by using MINITAB 17 statistical software tool. From the experiment material removal rate and surface characteristics was computed in order to conclude the machinability of the nickel-based alloy. Both the results obtained from heated and nonheated materials were compared and evaluated. The microstructure of the heat treated and non-heat-treated nickel-based alloy material was analyzed with help of scanning electron microscope.
Inertial effects in the mechanism of fiber pullout during dynamic propagation of a bridged crack are critically examined. By reposing simple shear lag models of pullout as problems of dynamic wave propagation, the effect of frictional coupling between the fiber and the matrix is accounted for in a fairly straightforward way. The frictional sliding between the fiber and the matrix is described by a constant interfacial friction stress, the sign of which depends on the relative particle velocity of the fiber and the matrix. Analytical solutions are derived when the load or bridging traction on the fiber in the crack plane increases linearly in time. The results show that when the wave speed of the matrix exceeds a critical value, the frictional fiber pullout behavior transitions from a state of pure slip to a state where part of the sliding zone slips and the remaining sticks. When stick occurs, the fiber and the matrix within the stick zone slide past each other with an interfacial shear stress less than the shear stress required for slipping. Regions of slip and stick propagate and increase with time and influence the time-dependent relationship between the crack opening displacement and the bridging tractions.
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