Homogenization of the interfacial bonding of compound-cast AA7075/6060 bilayer billets by co-extrusion

Hui Chen; Danai Giannopoulou; Thomas Greß; Jonas Isakovic; Tim Mittler; Wolfram Volk; Noomane Ben Khalifa

doi:10.1007/s12289-021-01626-8

Homogenization of the interfacial bonding of compound-cast AA7075/6060 bilayer billets by co-extrusion

Hui Chen
, Danai Giannopoulou
, Thomas Greß
, Jonas Isakovic
, Tim Mittler
, Wolfram Volk
, Noomane Ben Khalifa

Chair of Metal Forming and Casting

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

A process chain of compound casting and co-extrusion of AA7075/6060 bilayer billets is introduced to manufacture hybrid components with strength in the core and good corrosion-resistance in the shell. Using optimized compound casting parameter, metallurgical bonding between the shell AA6060 and the core AA7075 can be achieved through remelting and recrystallization of the substrate AA7075. The locally unequal thermal conditions at the interface induces partially weak bonding. The bonding strength in greater distance from the casting gate is generally lower. Hot extrusion is applied to improve the interfacial bonding. Comparisons of the microstructure and the shear strength between as-cast billet and extrudate present the homogenization of the interfacial bonding through the process chain.

Original language	English
Pages (from-to)	1109-1119
Number of pages	11
Journal	International Journal of Material Forming
Volume	14
Issue number	5
DOIs	https://doi.org/10.1007/s12289-021-01626-8
State	Published - Sep 2021

Keywords

bond strength
co-extrusion
compound casting

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10.1007/s12289-021-01626-8

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title = "Homogenization of the interfacial bonding of compound-cast AA7075/6060 bilayer billets by co-extrusion",

abstract = "A process chain of compound casting and co-extrusion of AA7075/6060 bilayer billets is introduced to manufacture hybrid components with strength in the core and good corrosion-resistance in the shell. Using optimized compound casting parameter, metallurgical bonding between the shell AA6060 and the core AA7075 can be achieved through remelting and recrystallization of the substrate AA7075. The locally unequal thermal conditions at the interface induces partially weak bonding. The bonding strength in greater distance from the casting gate is generally lower. Hot extrusion is applied to improve the interfacial bonding. Comparisons of the microstructure and the shear strength between as-cast billet and extrudate present the homogenization of the interfacial bonding through the process chain.",

keywords = "bond strength, co-extrusion, compound casting",

author = "Hui Chen and Danai Giannopoulou and Thomas Gre{\ss} and Jonas Isakovic and Tim Mittler and Wolfram Volk and Khalifa, \{Noomane Ben\}",

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doi = "10.1007/s12289-021-01626-8",

language = "English",

volume = "14",

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TY - JOUR

T1 - Homogenization of the interfacial bonding of compound-cast AA7075/6060 bilayer billets by co-extrusion

AU - Chen, Hui

AU - Giannopoulou, Danai

AU - Greß, Thomas

AU - Isakovic, Jonas

AU - Mittler, Tim

AU - Volk, Wolfram

AU - Khalifa, Noomane Ben

PY - 2021/9

Y1 - 2021/9

N2 - A process chain of compound casting and co-extrusion of AA7075/6060 bilayer billets is introduced to manufacture hybrid components with strength in the core and good corrosion-resistance in the shell. Using optimized compound casting parameter, metallurgical bonding between the shell AA6060 and the core AA7075 can be achieved through remelting and recrystallization of the substrate AA7075. The locally unequal thermal conditions at the interface induces partially weak bonding. The bonding strength in greater distance from the casting gate is generally lower. Hot extrusion is applied to improve the interfacial bonding. Comparisons of the microstructure and the shear strength between as-cast billet and extrudate present the homogenization of the interfacial bonding through the process chain.

AB - A process chain of compound casting and co-extrusion of AA7075/6060 bilayer billets is introduced to manufacture hybrid components with strength in the core and good corrosion-resistance in the shell. Using optimized compound casting parameter, metallurgical bonding between the shell AA6060 and the core AA7075 can be achieved through remelting and recrystallization of the substrate AA7075. The locally unequal thermal conditions at the interface induces partially weak bonding. The bonding strength in greater distance from the casting gate is generally lower. Hot extrusion is applied to improve the interfacial bonding. Comparisons of the microstructure and the shear strength between as-cast billet and extrudate present the homogenization of the interfacial bonding through the process chain.

KW - bond strength

KW - co-extrusion

KW - compound casting

UR - https://www.scopus.com/pages/publications/85106015020

U2 - 10.1007/s12289-021-01626-8

DO - 10.1007/s12289-021-01626-8

M3 - Article

AN - SCOPUS:85106015020

SN - 1960-6206

VL - 14

SP - 1109

EP - 1119

JO - International Journal of Material Forming

JF - International Journal of Material Forming

IS - 5

ER -

Homogenization of the interfacial bonding of compound-cast AA7075/6060 bilayer billets by co-extrusion

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Keywords

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