Functional Tool Surfaces with Smooth Diamond-Based Tool Coatings for the Wear-Free Forming of Aluminum Sheets

Peter Scholz; Christian Stein; Kai Weigel; Markus Höfer; Mariusz Frankiewicz; Michal Cwikla; Maurycy Kempa; Sarah Baron

doi:10.4028/p-phEln3

Paper Titles

Colorimetric Detection of Pb²⁺ Using Green Synthesized AgNPs
p.17

Dynamic Mechanical Properties and Corrosion Resistance of Epoxy Coatings Enhanced with MXene and Diverse Nano-Fillers
p.25

Influence of PTFE as Thin Top Layer on Hydrophobicity and Wear Behaviour of HVOF Sprayed TiC+50%NiCr Coating on SS410 Steel
p.33

Investigating the Corrosion Resistance of Ti-Al Coating on Structural Steel Components
p.41

Micro-Raman Spectroscopic Study of the Tribology of AlCrN Coated Cemented Tungsten Carbide Pins Dry Sliding on Hardened Steel Discs
p.51

Surface Wettability Response of Hydroxyapatite-Doped Coatings on Metallic Biomaterials: A Concise Review
p.61

Comparison and Sustainability Enhancement of Oxide Coatings by Reactive and Non-Reactive Radio Frequency Magnetron Sputtering Technique
p.73

Functional Tool Surfaces with Smooth Diamond-Based Tool Coatings for the Wear-Free Forming of Aluminum Sheets
p.81

Tribological Performance of AlCrN and TiAlN Coatings in Aluminum Forming Process at High Temperature
p.89

HomeSolid State PhenomenaSolid State Phenomena Vol. 370Functional Tool Surfaces with Smooth Diamond-Based...

Functional Tool Surfaces with Smooth Diamond-Based Tool Coatings for the Wear-Free Forming of Aluminum Sheets

Abstract:

This paper addresses the unique challenges in processing aluminum materials within metal forming technology, specifically focusing on complex wear conditions involving abrasion and adhesion. A promising research approach to avoid abrasive and adhesive tool wear and reduce the friction coefficient towards aluminum alloys is the use of sufficiently smooth CVD diamond coatings. To achieve this, two approaches are considered. First, wear resistance is enhanced by using tool inserts made of carbide or a tungsten alloy, directly coated with CVD diamond. Second, the friction coefficient is selectively influenced or reduced by refining the polished CVD diamond coating through laser ablation. The study investigates the impact of these surface treatments on friction coefficients during both dry and lubricated forming processes involving the aluminum alloy EN AW-5182. Comparative analyses of various surface treatments are conducted against reference tests using diamond-like carbon (DLC)-coated tools. Through application-oriented strip drawing tests, the paper systematically examines how different surface smoothing techniques affect the coefficient of friction. This research provides valuable insights into optimizing metal forming processes for aluminum alloys through tailored surface treatments, advancing our understanding of friction dynamics in these specific manufacturing conditions.

You might also be interested in these eBooks

Tribology in Manufacturing Processes and Advanced Surface Engineering (10th ICTMP)

View Preview

Functional Nanomaterials and Protective Coatings

View Preview

Info:

Periodical:

Solid State Phenomena (Volume 370)

Pages:

81-88

DOI:

https://doi.org/10.4028/p-phEln3

Citation:

Cite this paper

Online since:

March 2025

Authors:

Peter Scholz*, Christian Stein, Kai Weigel, Markus Höfer, Mariusz Frankiewicz, Michal Cwikla, Maurycy Kempa, Sarah Baron

Keywords:

Diamond Coating, Laser Beam Machining, Sheet Metal, Wear

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Abraham, T., Bialuch, I., Bräuer, G. et al. Deposition of Nanoscopically Smooth DLC Tool Coatings for Dry Forming of Aluminum Sheets. JOM 72, 2504–2510 (2020)