Cold Roll Cladding of Carbon Steels

Christoph Etzlstorfer; Alois Leitner; Enno Arenholz; Ernst Kozeschnik

doi:10.4028/www.scientific.net/KEM.809.100

Paper Titles

Influence of the Process Parameters on the Penetration Depth of the Reinforcing Phase during Composite Peening for the Production of Functionally Graded Metal Matrix Composites
p.73

Influence of Distinct Manufacturing Processes on the Microstructure of Ni-Based Metal Matrix Composites Submitted to Long Thermal Exposure
p.79

Investigation of the Creep Resistance of a Spray-Compacted Si-Particle Reinforced Al-Based MMC (Dispal^® S270)
p.87

High-Speed Laser Melt Injection of Tungsten Carbide in Highly Conductive Copper Alloys
p.94

Cold Roll Cladding of Carbon Steels
p.100

Heat Exchange Structures Based on Copper/CNT Composite
p.106

Effect of Processing Conditions on Bonding Strength at Al(Si)/Diamond Interfaces
p.115

Agglomerated Tungsten Carbide: A New Approach for Tool Surface Reinforcement
p.121

Investigation of Statistical Distribution of C/C-SiC Composite’s Mechanical Properties
p.131

HomeKey Engineering MaterialsKey Engineering Materials Vol. 809Cold Roll Cladding of Carbon Steels

Cold Roll Cladding of Carbon Steels

Abstract:

Cladding of steel is mainly carried out by hot rolling. This process is very labor-intensive and, therefore, expensive. Cold plating has been used successfully to produce bimetals and could also be an alternative manufacturing process for cladded carbon steel composites. So far, however, only thin narrow IF-steels sheets were successfully cold plated. Different pretreatments and process windows have been used to successfully produce a cold roll-cladded composite of various steel grades on a cold rolling test facility. While joining two similar steels was relatively easy, the combination of different steel alloy compositions was more difficult. Higher necessary forces and edge cracks complicated the experiments. A slight warming of the sheets before joining had a positive effect on the production of the composite. From today's perspective, the required high rolling forces do not allow scaling up to large-scale production.

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Periodical:

Key Engineering Materials (Volume 809)

Pages:

100-105

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.809.100

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Online since:

June 2019

Authors:

Christoph Etzlstorfer*, Alois Leitner, Enno Arenholz, Ernst Kozeschnik

Keywords:

Carbon Steel, Cold Rolling, Plating, Roll Bonding, Steel Production

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References

[1] C. Schindler, Nickellegierungen und hochlegierte Sonderedelstähle im warmwalzplattierten Verbundwerkstoff - die kostengünstige Alternative,, in Nickelwerkstoffe und hochlegierte Sonderedelstähle, Renningen, Expert Verlag, 2012, pp.156-185.