Abstract
One of the main objectives of production engineering is to reproducibly manufacture (complex) defect-free parts. To achieve this, it is necessary to employ an appropriate process or tool design. While this will generally prove successful, it cannot, however, offset stochastic defects with local variations in material properties. Closed-loop process control represents a promising approach for a solution in this context. The state of the art involves using this approach to control geometric parameters such as a length. So far, no research or applications have been conducted with closed-loop control for microstructure and product properties. In the project on which this paper is based, the local martensite content of parts is to be adjusted in a highly precise and reproducible manner. The forming process employed is a special, property-controlled flow-forming process. A model-based controller is thus to generate corresponding correction values for the tool-path geometry and tool-path velocity on the basis of online martensite content measurements. For the controller model, it is planned to use a special process or microstructure (correlation) model. The planned paper not only describes the experimental setup but also presents results of initial experimental investigations for subsequent use in the closed-loop control of α’-martensite content during flow-forming.
Highlights
As customer requirements increase, the demands on materials, tools and processes within manufacturing companies are rising [1]
The objective of the first experimental investigations is to identify a correlation between the process parameters of a flow-forming process and the resulting deformationinduced α’-martensite content of the formed seamless tubes in metastable austenitic steel AISI 304L (X2CrNi18-9, 1.4307)
This can be observed for each forming zone and is probably caused by a smaller number of overrollings. This deviation rises as the total wall thickness reduction Δwt increases, due to the work hardening of the material
Summary
The demands on materials, tools and processes within manufacturing companies are rising [1]. It is necessary to optimize the correlation between the material requirements and the material properties of a produced part. Using these material characteristics, it is possible to consider both the expected loads and the desired integrated functions and implement these on a local basis, thereby promoting material resource efficiency. The objective of the first experimental investigations is to identify a correlation between the process parameters of a flow-forming process and the resulting deformationinduced α’-martensite content of the formed seamless tubes in metastable austenitic steel AISI 304L (X2CrNi18-9, 1.4307)
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