{"id":3437,"date":"2025-12-18T03:13:30","date_gmt":"2025-12-18T09:13:30","guid":{"rendered":"https:\/\/www.emag.com\/blog\/en\/?p=3437"},"modified":"2025-12-18T03:13:30","modified_gmt":"2025-12-18T09:13:30","slug":"precision-machining-of-thin-walled-workpieces","status":"publish","type":"post","link":"https:\/\/www.emag.com\/blog\/en\/precision-machining-of-thin-walled-workpieces\/","title":{"rendered":"Precision machining of thin-walled workpieces on the VL 4 lathe with PICEA clamping system"},"content":{"rendered":"

The machining of thin-walled workpieces is a complex task in manufacturing technology. Hardened rings and gears in particular exhibit considerable shape deviations after heat treatment. These components typically have elliptical, potato-shaped or triangular contours instead of the required circular shape. During subsequent lathe machining, conventional clamping systems often fail to achieve the required roundness tolerances.<\/strong><\/p>\n

The central challenge lies both in the deviation of the clamping diameter and in the interaction between workholding technology and cutting forces. While traditional diaphragm chucks, collet chucks or centering and face chucks can guarantee a mechanical fixation, out-of-round workpieces inevitably deform, leaving \u00a0free arc segments between the clamping points. At these points, the lathe tool presses the thin-walled component outwards, which leads to additional shape deviations after spring-back. Even with optimized workholding technology, conventional processes often reach their limit at roundness values of 20 to 30 \u00b5m.<\/strong><\/p>\n

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The VL 4 as a precision platform<\/h3>\n

The VL 4 lathe forms the ideal basis for the use of such high-precision clamping systems. The machine is part of EMAG’s modular VL series and is designed for vertical machining – a key advantage when handling sensitive, thin-walled components.
\nWith its integrated pick-up automation concept, the VL4 ensures a fully automatic workpiece flow: Loading and unloading take place directly via the main spindle, minimizing non-productive times.<\/p>\n

\"EMAG

At the EMO 2025 trade fair, trade visitors can find out more about the EMAG VL 4 turning machine with integrated STERMAN PICEA clamping system for the precision machining of thin-walled workpieces.<\/p><\/div>\n

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Design and function of the STERMAN PICEA clamping system<\/h3>\n

The PICEA clamping system was developed by STERMAN specifically for the machining of out-of-round, thin-walled rings. It is based on a hybrid technology:<\/p>\n

\"PICEA

The PICEA clamping system on the EMAG VL 4 enables precision clamping of thin-walled workpieces through mechatronic centering and hydraulic face clamping.<\/p><\/div>\n