Metallurgical Abstracts on Light Metals and Alloys vol.55
Effect of die coating on surface crack depth of hot extruded 7075 Aluminum alloy
Tatsuya Funazuka*, Kuniaki Dohda**, Norio Takatsuji*, Chengliang Hu*** and Ngernbamrung Sukunthakan****
*Faculty of Engineering, University of Toyama, 3190 Gohuku, Toyama, 9308555, Japan
**Department of Mechanical Engineering, Northwestern University, Evanston, Illinois, 60201, USA
***Institute of Forming Technology & Equipment, School of Material Science and Engineering, Shanghai Jiao Tong University, Shanghai, 200030, China
****Metal and Manufacturing Process Research Group, National Metal and Materials Technology Center, Pathumthani, 12120, Thailand
[in printing]
https://doi.org/10.1007/s40544-022-0649-y
E-mail: funazuka[at]eng.u-toyama.ac.jp
Key Words: hot extrusion, 7075 aluminum alloy, die coating, tearing
The aluminum alloys belonging to the 7000 series are high-strength alloys used in a wide variety of products for weight reduction. They are primarily used in the field of transportation and aerospace. Among these, the A7075 alloy has the highest strength and is expected to be applicable in a wide range of fields, such as aircraft components and sports equipment. However, it has high deformation resistance and is prone to surface defects, which is called tearing. Tearing typically occurs at high temperatures and high ram speeds and adversely affects productivity. The localized melting of Zn and additive compounds, due to the heat generated during the process, is considered to cause tearing. In this study, the effect of friction, heat, and tearing at the tool-metal interface was mitigated by improving the die surface quality. The reduced friction eliminated recrystallization by preventing the temperature from increasing to the rank of recrystallization. In addition, an AlCrN coating was adopted instead of nitriding to improve the die surface quality. The tearing size and heat generated when using the AlCrN coating were found to be limited. Moreover, the grain size observed in the tearing region on the extruded surface was small. Thus, the AlCrN coating is considered effective for reducing friction at the interface and preventing the recrystallization of the extruded surface. Furthermore, the localization of the melting of the Zn and additive compounds decreased. From the above results, it can be inferred that a die coating can reduce the tearing sensitivity and increase the productivity of the A7075 alloy.
Microstructure observation of AlCrN and Nitriding dies by EBSD (Extrusion conditions: billet temperature 450 °C, ram speed 1.0 mm/s).