Approaches for Preventing Tool Wear in Sheet Metal Forming Processes

Trzepieciński, Tomasz

doi:10.3390/machines11060616

Cited by 8 publications

(3 citation statements)

References 188 publications

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“…In [105] was given a model which uses a combination of machine learning, computational design, and optimization techniques to generate manufacturable sheet metal parts. Coatings used different techniques such as laser, chemical vapor deposition (CVD), and physical vapor deposition (PVD), which significantly increase tool life by providing wear resistance, reduced friction, and improved surface finish in the process of sheet metal forming [106]. Sheet metal forming (SMF) is a critical technology for manufacturing lightweight, thin-walled, complex-shaped components, and numerical simulation and theoretical modelling have been increasingly used to enhance the performance of new SMF technologies [107].…”

Section: Ann and MLmentioning

confidence: 99%

Towards the Digital Model of Tool Lifecycle Management in Sheet Metal Forming

Majstorovic,

Vukadinovic,

Zivkovic

2023

Journal of Machine Engineering

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Sheet metal forming is a critical process in the manufacturing industry, which involves shaping sheet metal into desired configurations and structures. The use of digital tools in the lifecycle management of sheet metal forming tools has become increasingly important to ensure the efficiency and effectiveness of the process. The digital model of tool lifecycle management (TLM) in sheet metal forming provides a complete approach to manage the entire lifecycle of tools used in sheet metal forming. It enables optimization of tool design, simulation of the tooling process, real-time monitoring of tool conditions, and retirement and replacement of tools. This approach improves efficiency, reduces costs, and ensures optimal performance in sheet metal forming. The paper presents an elaborate analysis of the development of TLM models concerning the progress in ICT modelling and its implementation in the field of sheet metal forming. Furthermore, the paper includes an exemplary TLM model for an industrial enterprise.

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Section: Ann and MLmentioning

confidence: 99%

Towards the Digital Model of Tool Lifecycle Management in Sheet Metal Forming

Majstorovic,

Vukadinovic,

Zivkovic

2023

Journal of Machine Engineering

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“…On the other hand, the literature shows a more limited number of studies related to the application in metal forming tools. Only a few works have been devoted to evaluating the effect of textures on the tribological performance of these tools, with the main ones described in the review presented by Trzepiecinski et al [20]. In all the examples reported in these references, the surface textures were produced through specific processes conducted after the manufacturing of the tool, aiming to obtain textures with regular and well-defined shapes.…”

Section: Introductionmentioning

confidence: 99%

The role of manufacturing-induced texture on the tribological performance of cold work tool steels

de Oliveira Lopes,

Tolotti de Almeida,

Johnson

et al. 2024

Surf. Topogr.: Metrol. Prop.

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Manufacturing operations produce surface characteristics that, although stochastic, can significantly affect functionality, especially in forming tools, impacting contact and lubrication conditions during operation. This study investigates the influence of stochastic microtextures resulting from milling on the tribological performance of cold work tool steels with two different carbon contents (0.8 and 2 wt%). Different surface textures were observed resulting from the different C contents, with 3D roughness parameters indicating rougher surfaces for the 2.0% wt. C steel. Tribological behavior was assessed using the strip drawing test to analyze friction, wear coefficients, and wear mechanisms. Surface analysis before and after testing was executed employed SEM, EDX, and CLSM, with CLSM also used to determine 3D roughness parameters of the worn tracks. Post-test macrographic analyses and 2D roughness measurements were conducted on the pulled sheets. Tribological test data revealed lower friction and wear coefficients for the 2.0 wt.% C tool steel, with susceptibility to abrasion wear, while the 0.8 wt.% C tool exhibited a higher tendency towards adhesion wear. Post-test analysis suggested smoother surfaces for the 2.0 wt.% C steel compared to the 0.8 wt.% C steel. Macrographic analysis showed no visible wear marks on sheets tested with the 2.0 wt.% C steel, contrasting with wear grooves visible on sheets pulled against the 0.8 wt.% C steel. Additionally, 2D roughness measurements indicated higher roughness after pulling against the 0.8 wt.% C tool compared to the 2.0 wt. C tool. Overall, the study demonstrates that manufacturing-induced textures without the need of post-manufacturing texturing influence the tribological performance of the evaluated steels, opening an avenue to be explored to improve the tribological performance of forming tools.

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“…Sheet metal forming (SMF) is the basic process for obtaining a finished product with a complex shape. When designing the deep drawing process for a product or a semifinished product from sheet metal, the mechanisms specific to this technology need to be taken into account to guarantee the appropriate surface roughness of the drawpiece and high durability of the tool [1]. In the cylindrical drawpieces formed, there is the so-called drawing zone (in the flange part of the drawpiece) and the stretching zone in the bottom of the drawpiece [2].…”

Section: Introductionmentioning

confidence: 99%

An Investigation into the Friction of Cold-Rolled Low-Carbon DC06 Steel Sheets in Sheet Metal Forming Using Radial Basis Function Neural Networks

Trzepieciński,

Szwajka,

Szewczyk

2023

Applied Sciences

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This article presents the friction test results for cold-rolled low-carbon DC06 steel sheets, which are commonly processed into finished products using sheet metal forming methods. A strip drawing test with flat dies was used in the experimental tests. The strip-drawing test is used to model the friction phenomena in the flange area of the drawpiece. The tests were carried out using a tester that enabled lubrication with a pressurised lubricant. The friction tests were carried out at different nominal pressures, oil pressures, and friction conditions (dry friction and oil lubrication). Oils destined for deep-drawing operations were used as lubricants. Neural networks with radial base functions (RBFs) were used to explore the influence of individual friction parameters on the value of the coefficient of friction (COF). Under lubrication with both oils considered, the value of the COF increased with decreasing oil pressure. This confirms the correctness of the concept of the device for reducing friction in the flange area of the drawpiece. The developed concept of pressurised lubrication is most effective at relatively small nominal pressures of 2–4 MPa. This range of nominal pressures corresponds to the actual nip pressures when forming deep-drawing steel sheets. Under conditions of dry friction, the values obtained for the COF rise above 0.3, while under lubrication conditions, even without pressure-assisted lubrication, the COF does not exceed 0.2. As the nominal pressure increases, the effectiveness of the lubrication exponentially decreases. It was found that the Sq parameter carries the most information regarding the value of the COF. The RBF neural network with nine neurons in the hidden layer (RBF-8-9-1) and containing the Sq parameter as the input was characterised by an R2 of 0.989 and an error of 0.000292 for the testing set.

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Approaches for Preventing Tool Wear in Sheet Metal Forming Processes

Cited by 8 publications

References 188 publications

Towards the Digital Model of Tool Lifecycle Management in Sheet Metal Forming

Towards the Digital Model of Tool Lifecycle Management in Sheet Metal Forming

The role of manufacturing-induced texture on the tribological performance of cold work tool steels

An Investigation into the Friction of Cold-Rolled Low-Carbon DC06 Steel Sheets in Sheet Metal Forming Using Radial Basis Function Neural Networks

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