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Nowadays the automotive market is reducing product development time and launching more technological vehicles, always focusing on having even more safety with better customer experience which generates big competitiveness and requires more accurate and faster development, the virtual simulations make it possible to meet this new reality with a high confidence level. This work comprises the validation of a methodology to analyze the design confidence level for flexibles associated with suspension kinematics. To validate the methodology, the scanned physical model was compared with the virtual simulations using the Simcenter 3D Flexible Pipe software. As inputs data for simulation, it is used geometrical, physical, and chemical information. Through the suspension kinematics study was establish possible movement situations to obtain the flexibles deformations attending to all suspension positions.

Through virtual dynamic simulations it is possible to gain quality, safety, reduce cost and development time. Eliminating prototypes components to avoid future problems with package and early degradation of automotive components. This article has the objective validate the simulation methodology linked with flexible tube and hoses that are under engine displacement action to increase the confidence level of the design. The methodology validation consists in compare scanned physical model and virtual simulation models. Using Simcenter 3D Flexible Pipe software as study base. As input parameters it was used geometrical, physical, and chemical data for the virtual model. Finally, the environment can apply the dynamic movement of the powertrain set in the validation of the package and the evaluated component.