A novel adaptation of the T-peel bimetal bond test based on the thin film bonding theory using cold roll bonded AlSn/steel bimetal laminates

Laurie Da Silva; Stuart Laidlaw; Colin  Chisholm; Mahmoud  El-Sharif

doi:10.3233/978-1-61499-668-2-161

A novel adaptation of the T-peel bimetal bond test based on the thin film bonding theory using cold roll bonded AlSn/steel bimetal laminates

Laurie Da Silva, Stuart Laidlaw, Colin Chisholm , Mahmoud El-Sharif

Design, Manufacturing And Engineering Management

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

1 Citation (Scopus)

Abstract

The cold roll bonding (CRB) of aluminium/tin alloys to steel is a key industrial manufacturing process used to generate bimetallic composites for engine components. Joining steel and AlSn alloys in the solid state allows for the superior tribological wear and strength characteristics required in automotive bearings. The bond strength of these bimetal composites is crucial, as delamination of fundamental engine components can have detrimental, and often catastrophic, consequences. To evaluate bond strength it is vital that the bimetal manufacturing industry identify a suitable bond test. Researchers in CRB often use the shear (ASTM-D3165-07) or T-peel (ASTM-D1876) test to evaluate bimetals. However, the machining of shear test specimens becomes increasingly difficult with thin laminates and the T-Peel test is designed to evaluate adhesive bonding and not solid state metallic welds. This work offers a novel adaptation of the T-peel test allowing for more accurate evaluation of bond strength, based on the thin film bonding theory.

Original language	English
Title of host publication	Advances in Manufacturing Technology XXX
Editors	Yee Mey Goh, Keith Case
Place of Publication	Amsterdam
Publisher	IOS Press
Pages	161-166
Number of pages	6
ISBN (Print)	9781614996675
DOIs	https://doi.org/10.3233/978-1-61499-668-2-161
Publication status	Published - 8 Sept 2016
Event	14th International Conference on Manufacturing Research - Loughborough University , Loughborough , United Kingdom Duration: 6 Sept 2016 → 8 Sept 2016

Publication series

Name	Advances in Transdisciplinary Engineering
Publisher	IOS Press
Volume	3
ISSN (Print)	2352-751X

Conference

Conference	14th International Conference on Manufacturing Research
Abbreviated title	ICMR 2016
Country/Territory	United Kingdom
City	Loughborough
Period	6/09/16 → 8/09/16

Keywords

cold roll bonding
bimetal
bond test
thin films

Access to Document

10.3233/978-1-61499-668-2-161

Cite this

Da Silva, L., Laidlaw, S., Chisholm , C., & El-Sharif , M. (2016). A novel adaptation of the T-peel bimetal bond test based on the thin film bonding theory using cold roll bonded AlSn/steel bimetal laminates. In Y. M. Goh, & K. Case (Eds.), Advances in Manufacturing Technology XXX (pp. 161-166). (Advances in Transdisciplinary Engineering; Vol. 3). IOS Press. https://doi.org/10.3233/978-1-61499-668-2-161

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title = "A novel adaptation of the T-peel bimetal bond test based on the thin film bonding theory using cold roll bonded AlSn/steel bimetal laminates",

abstract = "The cold roll bonding (CRB) of aluminium/tin alloys to steel is a key industrial manufacturing process used to generate bimetallic composites for engine components. Joining steel and AlSn alloys in the solid state allows for the superior tribological wear and strength characteristics required in automotive bearings. The bond strength of these bimetal composites is crucial, as delamination of fundamental engine components can have detrimental, and often catastrophic, consequences. To evaluate bond strength it is vital that the bimetal manufacturing industry identify a suitable bond test. Researchers in CRB often use the shear (ASTM-D3165-07) or T-peel (ASTM-D1876) test to evaluate bimetals. However, the machining of shear test specimens becomes increasingly difficult with thin laminates and the T-Peel test is designed to evaluate adhesive bonding and not solid state metallic welds. This work offers a novel adaptation of the T-peel test allowing for more accurate evaluation of bond strength, based on the thin film bonding theory.",

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author = "{Da Silva}, Laurie and Stuart Laidlaw and Colin Chisholm and Mahmoud El-Sharif",

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Da Silva, L, Laidlaw, S, Chisholm , C & El-Sharif , M 2016, A novel adaptation of the T-peel bimetal bond test based on the thin film bonding theory using cold roll bonded AlSn/steel bimetal laminates. in YM Goh & K Case (eds), Advances in Manufacturing Technology XXX. Advances in Transdisciplinary Engineering, vol. 3, IOS Press, Amsterdam, pp. 161-166, 14th International Conference on Manufacturing Research, Loughborough , United Kingdom, 6/09/16. https://doi.org/10.3233/978-1-61499-668-2-161

A novel adaptation of the T-peel bimetal bond test based on the thin film bonding theory using cold roll bonded AlSn/steel bimetal laminates. / Da Silva, Laurie; Laidlaw, Stuart; Chisholm , Colin et al.
Advances in Manufacturing Technology XXX. ed. / Yee Mey Goh; Keith Case. Amsterdam: IOS Press, 2016. p. 161-166 (Advances in Transdisciplinary Engineering; Vol. 3).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

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N2 - The cold roll bonding (CRB) of aluminium/tin alloys to steel is a key industrial manufacturing process used to generate bimetallic composites for engine components. Joining steel and AlSn alloys in the solid state allows for the superior tribological wear and strength characteristics required in automotive bearings. The bond strength of these bimetal composites is crucial, as delamination of fundamental engine components can have detrimental, and often catastrophic, consequences. To evaluate bond strength it is vital that the bimetal manufacturing industry identify a suitable bond test. Researchers in CRB often use the shear (ASTM-D3165-07) or T-peel (ASTM-D1876) test to evaluate bimetals. However, the machining of shear test specimens becomes increasingly difficult with thin laminates and the T-Peel test is designed to evaluate adhesive bonding and not solid state metallic welds. This work offers a novel adaptation of the T-peel test allowing for more accurate evaluation of bond strength, based on the thin film bonding theory.

AB - The cold roll bonding (CRB) of aluminium/tin alloys to steel is a key industrial manufacturing process used to generate bimetallic composites for engine components. Joining steel and AlSn alloys in the solid state allows for the superior tribological wear and strength characteristics required in automotive bearings. The bond strength of these bimetal composites is crucial, as delamination of fundamental engine components can have detrimental, and often catastrophic, consequences. To evaluate bond strength it is vital that the bimetal manufacturing industry identify a suitable bond test. Researchers in CRB often use the shear (ASTM-D3165-07) or T-peel (ASTM-D1876) test to evaluate bimetals. However, the machining of shear test specimens becomes increasingly difficult with thin laminates and the T-Peel test is designed to evaluate adhesive bonding and not solid state metallic welds. This work offers a novel adaptation of the T-peel test allowing for more accurate evaluation of bond strength, based on the thin film bonding theory.

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Da Silva L, Laidlaw S, Chisholm C, El-Sharif M. A novel adaptation of the T-peel bimetal bond test based on the thin film bonding theory using cold roll bonded AlSn/steel bimetal laminates. In Goh YM, Case K, editors, Advances in Manufacturing Technology XXX. Amsterdam: IOS Press. 2016. p. 161-166. (Advances in Transdisciplinary Engineering). doi: 10.3233/978-1-61499-668-2-161

A novel adaptation of the T-peel bimetal bond test based on the thin film bonding theory using cold roll bonded AlSn/steel bimetal laminates

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