Controlling distortion is of key importance during the case hardening process for the production of gear components. By effective control of distortion and the variation of distortion, significant costs in post heat treatment machining processes can be avoided. In some cases, it is even possible to eliminate all post-machining operations. In other cases, it may be possible to avoid the press-quenching of individual components, resulting in huge cost-benefits.
New vacuum furnace designs allow the treatment of small batches in a single layer of parts (“2D-treatment”) which allows for easy automated loading and unloading of the fixture-trays. By using the small batch concept, a continuous flow of parts can be established (“One Piece Flow”). There is no need to wait until enough parts are collected to build a large batch with multiple layers (“3D-treatment”). This compact furnace unit can be implemented into the heart of the production chain and provides heat-treatment processes which can be fully synchronized with the green and hard machining-operations.
When performing case hardening, the components are Low Pressure Carburized (LPC) at high temperatures followed by gas quenching. The treatment in single layers offers an optimum in quality regarding
– temperature homogeneity,
– quench homogeneity and
– distortion control.
The paper shows new results of distortion control from several studies on different gear components. In addition, latest results of distortion control from serial gear production is presented.
- Edition:
- 18#
- Published:
- 09/01/2018
- Number of Pages:
- 16
- File Size:
- 1 file , 920 KB
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