![]() ![]() A review is undertaken in this paper for the different types of rapid prototyping techniques Subsequently it creates awareness among the peoples of recently developing RP method of manufacturing in product design, developments and its applications. The common goal can be attained by the engineers in less time by RAPID PROTOTYPING TECHNIQUE and this paper provides a better platform for researchers, new learners and product manufacturers for various applications of RP models. Across the world, Engineering has the common language and common goal-" Improving the Quality of Life " of mankind without any boundary restrictions. They make excellent visual aids for communicating ideas with co-workers or customers apart from design testing. The edges and surfaces of a complex solid model and their information are used for defining a product which is further manufactured as a finished product by CNC machining. The term " Rapid Prototyping " (RP) refers to a class of technologies that can automatically construct physical models from computer-Aided Design (CAD) data or is a group of techniques used to quickly fabricate a scale model of a physical part or assembly using three-dimensional computer aided design (CAD) data. Also, modeling of flow is able to quantify the anisotropy generated in the part during its fabrication process. Traditional approach of treating the material property as isotropy overestimates the stiffness of the part. Simulation results are able to predict the observed mechanical behavior of fiber filled plastic components when the anisotropy of the material is taken into consideration. A comparison is made between the results from non linear isotropic and non linear anisotropic analysis with experimental results to understand the mechanical performance of the part. In this paper, a Non Linear Anisotropic buckling analysis is carried out on CRC push rod component of hydraulic clutch actuation systems by coupling Moldflow with ANSYS. By using this approach Design engineer can explore different design scenarios that will produce cheaper parts, while ensuring sufficient strength in highly loaded areas. In order to enable product designers to incorporate the strength variations of fiber filled, injection-molded components into mechanical analyses of those components by coupling of Moldflow injection molding simulation tools together with finite element analysis (FEA) software. ![]() The injection moluding process for fiber-filled parts can cause great variation in strength throughout a part, the effects of the injection process should be considered in the design of such a part. The orientation direction and the degree of orientation of the fibers determine the mechanical properties of the molded part. The key to unlocking the potential of these plastics lies in the orientation of the fibers. The combination of low weight and high stiffness makes fiber-filled plastics ideal for high-performance applications. Fiber-filled plastic materials are commonly used in metal replacement applications. ![]()
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