Wear Analysis of Forging Tools Used in an Industrial Production Process—Hot Forging in Closed Dies of the “Head-Disk” of an Engine Valve Forging

Wear Analysis of Forging Tools Used in an Industrial Production Process—Hot Forging in Closed Dies of the “Head-Disk” of an Engine Valve Forging

The article performs an analysis of the durability of punches applied in the process of producing a valve forging from chromium-nickel steel. A forging of this type is made in two operations: coextrusion of a long shank, followed by finishing forging in closed dies of the valve head. The product obt...

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Bibliographic Details
Published in:Materials Vol. 14; no. 22; p. 7063
Main Authors: Hawryluk, Marek, Ziemba, Jacek, Janik, Marta, Górski, Piotr, Dudkiewicz, Łukasz, Głód, Kornelia, Krawczyk, Jakub
Format: Journal Article
Language:English
Published: Basel MDPI AG 21-11-2021
MDPI
Subjects:
Abrasive wear
Coextrusion
Die forging
Die heads
Dies
Dimensional analysis
Durability
Engine valves
Hot forging
Mechanical properties
Motor trucks
Nickel chromium steels
Nickel steels
Process parameters
Punches
Research methodology
Steel
Technology assessment
Thermal analysis
Tool life
Tool wear
Tribology
United Kingdom > UK
United States > US
Japan
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Summary:The article performs an analysis of the durability of punches applied in the process of producing a valve forging from chromium-nickel steel. A forging of this type is made in two operations: coextrusion of a long shank, followed by finishing forging in closed dies of the valve head. The product obtained in this way (after other additional finishing procedures) constitutes the key element of the combustion engine (resistant to high pressures and temperatures) in motor trucks. Unfortunately, a significant problem in this production process is a relatively low durability of the forging tools, especially the punch used in the second forging operation. The key element at this stage, deciding about the punch’s further operation, is the area of the so-called “calotte”. The short-term life of the tools results from very hard performance conditions present during the forging process (periodical high mechanical and thermal loads, long path of friction). The latter cause intensive abrasive wear as well as high adhesion of the forging material to the tool surface. Based on the performed studies, including the following: technology analysis, numerical modelling, macro analyses combined with 3D scanning of tool sections as well as microstructural tests and hardness measurements, it was established that it is crucial to properly select the process parameters (charge and tool temperature, tribological conditions), as even slight changes introduced into them significantly affect the operation time of the forging tools. Mastering and proper implementation of the analyzed forging technology requires numerous further studies and tests, which will enable its perfection and thus increase the durability of the tools as well as the quality of the produced items.
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content type line 23
ISSN:1996-1944
1996-1944
DOI:10.3390/ma14227063