Abstract
Cold extruded components are characterized by residual stresses, which originate from the experienced manufacturing process. For industrial applications, reproducibility and homogeneity of the final components are key aspects for an optimized quality control. Although striving to obtain identical deformation and surface conditions, fluctuation in the manufacturing parameters and contact shear conditions during the forming process may lead to variations of the spatial residual stress distribution in the final product. This could lead to a dependency of the residual stress measurement results on the relative axial and circumferential position on the sample. An attempt to examine this problem is made by the employment of design of experiments (DoE) methods. A statistical analysis of the residual stress results generated through X-Ray diffraction is performed. Additionally, the ability of cold extrusion processes to generate uniform stress states is analyzed on specimens of austenitic stainless steel 1.4404 and possible correlations with the pre-deformed condition are statistically examined. Moreover, the influence of the coating, consisting of oxalate and a MoS2 based lubricant, on the X-Ray diffraction measurements of the surface is investigated.
Highlights
Residual stresses can influence the component behavior in positive and negative fashions [1]
With the samples differing to this degree in the initial state, the question arises, if a correlation between the residual stresses before and after extrusion exists
This was addressed by means of a statistical analysis
Summary
Residual stresses can influence the component behavior in positive and negative fashions [1]. Compressive residual stresses generally lead to components being more resilient to fatigue, while tensile stresses can cause premature failures [2, 3]. This effect becomes more relevant as the design of engineering components includes reduced safety margins [4]. Local shearing effects complicate measurements of the residual stresses. Despite these difficulties, the measurement of the residual stress state is of paramount importance for both research and industrial applications. For quality control in production lines, removing material to measure the residual stresses below the surface would damage
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