Microstructure and mechanical properties of friction welded steel-aluminum hybrid components after T6 heat treatment

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OriginalspracheEnglisch
Seiten (von - bis)33-41
Seitenumfang9
FachzeitschriftMaterials Science and Engineering A
Jahrgang696
PublikationsstatusVeröffentlicht - 14 Apr. 2017

Abstract

In the present study, friction welded rods made of AW6082 aluminum alloy and 20MnCr5 steel were subjected to different T6 heat treatments of solution annealing and aging. The bond strength of the joints was determined using tensile tests and the intermetallic compound (IMC) layer thickness along the bond zone was measured by scanning electron microscopy (SEM) analyses. It is shown that bond strength strongly depended on the annealing temperature and duration. For an annealing temperature of 500 °C, a process window could be established that led to an increase in bond strength compared to the as-weld condition. The IMC-layer thickness was found to be distributed inhomogeneously along the bond zone and the mean IMC-layer thickness showed parabolic growth behavior. With increasing mean IMC-layer thickness, the bond strength decreased linearly. The fracture surfaces of tensile test specimens were analyzed by SEM and are discussed with respect to the corresponding bonding strengths and failure mechanisms. It is shown that the IMC-layer / steel interface seems to play an important role for bond strength.

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Microstructure and mechanical properties of friction welded steel-aluminum hybrid components after T6 heat treatment. / Herbst, Sebastian; Aengeneyndt, Hendrik; Maier, Hans Jürgen et al.
in: Materials Science and Engineering A, Jahrgang 696, 14.04.2017, S. 33-41.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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title = "Microstructure and mechanical properties of friction welded steel-aluminum hybrid components after T6 heat treatment",
abstract = "In the present study, friction welded rods made of AW6082 aluminum alloy and 20MnCr5 steel were subjected to different T6 heat treatments of solution annealing and aging. The bond strength of the joints was determined using tensile tests and the intermetallic compound (IMC) layer thickness along the bond zone was measured by scanning electron microscopy (SEM) analyses. It is shown that bond strength strongly depended on the annealing temperature and duration. For an annealing temperature of 500 °C, a process window could be established that led to an increase in bond strength compared to the as-weld condition. The IMC-layer thickness was found to be distributed inhomogeneously along the bond zone and the mean IMC-layer thickness showed parabolic growth behavior. With increasing mean IMC-layer thickness, the bond strength decreased linearly. The fracture surfaces of tensile test specimens were analyzed by SEM and are discussed with respect to the corresponding bonding strengths and failure mechanisms. It is shown that the IMC-layer / steel interface seems to play an important role for bond strength.",
keywords = "Bond strength, Fracture analysis, Friction welding, Heat treatment, Interface, Intermetallic compounds",
author = "Sebastian Herbst and Hendrik Aengeneyndt and Maier, {Hans J{\"u}rgen} and Florian N{\"u}rnberger",
year = "2017",
month = apr,
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doi = "10.1016/j.msea.2017.04.052",
language = "English",
volume = "696",
pages = "33--41",
journal = "Materials Science and Engineering A",
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TY - JOUR

T1 - Microstructure and mechanical properties of friction welded steel-aluminum hybrid components after T6 heat treatment

AU - Herbst, Sebastian

AU - Aengeneyndt, Hendrik

AU - Maier, Hans Jürgen

AU - Nürnberger, Florian

PY - 2017/4/14

Y1 - 2017/4/14

N2 - In the present study, friction welded rods made of AW6082 aluminum alloy and 20MnCr5 steel were subjected to different T6 heat treatments of solution annealing and aging. The bond strength of the joints was determined using tensile tests and the intermetallic compound (IMC) layer thickness along the bond zone was measured by scanning electron microscopy (SEM) analyses. It is shown that bond strength strongly depended on the annealing temperature and duration. For an annealing temperature of 500 °C, a process window could be established that led to an increase in bond strength compared to the as-weld condition. The IMC-layer thickness was found to be distributed inhomogeneously along the bond zone and the mean IMC-layer thickness showed parabolic growth behavior. With increasing mean IMC-layer thickness, the bond strength decreased linearly. The fracture surfaces of tensile test specimens were analyzed by SEM and are discussed with respect to the corresponding bonding strengths and failure mechanisms. It is shown that the IMC-layer / steel interface seems to play an important role for bond strength.

AB - In the present study, friction welded rods made of AW6082 aluminum alloy and 20MnCr5 steel were subjected to different T6 heat treatments of solution annealing and aging. The bond strength of the joints was determined using tensile tests and the intermetallic compound (IMC) layer thickness along the bond zone was measured by scanning electron microscopy (SEM) analyses. It is shown that bond strength strongly depended on the annealing temperature and duration. For an annealing temperature of 500 °C, a process window could be established that led to an increase in bond strength compared to the as-weld condition. The IMC-layer thickness was found to be distributed inhomogeneously along the bond zone and the mean IMC-layer thickness showed parabolic growth behavior. With increasing mean IMC-layer thickness, the bond strength decreased linearly. The fracture surfaces of tensile test specimens were analyzed by SEM and are discussed with respect to the corresponding bonding strengths and failure mechanisms. It is shown that the IMC-layer / steel interface seems to play an important role for bond strength.

KW - Bond strength

KW - Fracture analysis

KW - Friction welding

KW - Heat treatment

KW - Interface

KW - Intermetallic compounds

UR - http://www.scopus.com/inward/record.url?scp=85018509461&partnerID=8YFLogxK

U2 - 10.1016/j.msea.2017.04.052

DO - 10.1016/j.msea.2017.04.052

M3 - Article

AN - SCOPUS:85018509461

VL - 696

SP - 33

EP - 41

JO - Materials Science and Engineering A

JF - Materials Science and Engineering A

SN - 0921-5093

ER -

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