Characterization of tribological conditions within direct hot stamping

Schwingenschlögl, Patrik; Merklein, Marion

doi:10.1016/j.jmatprotec.2019.116535

Cited by 11 publications

(3 citation statements)

References 18 publications

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“…In hot stamping processes, the tool damage caused by wear and friction during the high-temperature forming process is a hindrance in terms of productivity and tool lifetime [4], and stems from the unavoidable contact between the tool and the processed blanks [6]. Unfortunately, conventional lubricants cannot be employed to counter these phenomena, as the temperature range of the manufacturing process is far outside the working range of most lubricants [7].…”

Section: Introductionmentioning

confidence: 99%

High-temperature tribological performance of functionally graded Stellite 6/WC metal matrix composite coatings manufactured by laser-directed energy deposition

Ostolaza,

Zabala,

Arrizubieta

et al. 2023

Friction

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Wear-driven tool failure is one of the main hurdles in the industry. This issue can be addressed through surface coating with ceramic-reinforced metal matrix composites. However, the maximum ceramic content is limited by cracking. In this work, the tribological behaviour of the functionally graded WC-ceramic-particle-reinforced Stellite 6 coatings is studied. To that end, the wear resistance at room temperature and 400 °C is investigated. Moreover, the tribological analysis is supported by crack sensitivity and hardness evaluation, which is of utmost importance in the processing of composite materials with ceramic-particle-reinforcement. Results indicate that functionally graded materials can be employed to increase the maximum admissible WC content, hence improving the tribological behaviour, most notably at high temperatures. Additionally, a shift from abrasive to oxidative wear is observed in high-temperature wear testing.

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Section: Introductionmentioning

confidence: 99%

High-temperature tribological performance of functionally graded Stellite 6/WC metal matrix composite coatings manufactured by laser-directed energy deposition

Ostolaza,

Zabala,

Arrizubieta

et al. 2023

Friction

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“…The formed parts have the advantages of high bending strength, lightweight and high complexity, and are widely applied in the automotive field. The application of hot stamping technology has greatly improved the rigidity and strength of the car body's overall structure [4][5][6]. H13 hot-working die steel, owing to the advantages of high hot strength, toughness and hardenability, have been widely applied in casting dies, extrusion dies, and Hot stamping dies [7,8].…”

Section: Introductionmentioning

confidence: 99%

Effect of CeO₂ on high-temperature wear resistance of WC/Fe-based coatings

Han

Lin

Xiao

et al. 2020

Surface Engineering

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In this study, the WC reinforced Fe-based composite coatings with various CeO 2 contents were fabricated on the H13 hot-working die steel by laser cladding. The high-temperature wear resistance of composite coatings was analysed by friction-abrasion testing machine, white light interferometer, and scanning electron microscope (SEM). The microstructure and microhardness were investigated by SEM and Vickers hardness tester. The influence mechanism of CeO 2 on microstructure and wear resistance was explained. The results showed that appropriate CeO 2 could effectively refine the microstructure of coatings, and affect the crystal morphology. The microhardness of composite coatings was about 4-5 times that of the die steel substrate. Affected by microstructure and microhardness, the Febased composite coatings with CeO 2 exhibited a higher high-temperature wear resistance than the substrate.

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“…Since then, carmakers have been planning actions in order to meet the worldwide requirements to reduce greenhouse gas emissions [1]. Simultaneously, the safety of the new vehicles produced should be improved [10,14,38]. Among all strategies to combine sustainability-including environmentally friendly processes and products-and safety, the lightweight-design methods have been identified among the most efficient [3,14].…”

Section: Advanced-high Strength Steelmentioning

confidence: 99%

The effect of hot-stamping process on the local electrochemical behaviour of the 22 MnB5 steel coated with hot-dip aluminium-silicon

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Characterization of tribological conditions within direct hot stamping

Cited by 11 publications

References 18 publications

High-temperature tribological performance of functionally graded Stellite 6/WC metal matrix composite coatings manufactured by laser-directed energy deposition

High-temperature tribological performance of functionally graded Stellite 6/WC metal matrix composite coatings manufactured by laser-directed energy deposition

Effect of CeO₂ on high-temperature wear resistance of WC/Fe-based coatings

The effect of hot-stamping process on the local electrochemical behaviour of the 22 MnB5 steel coated with hot-dip aluminium-silicon

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Characterization of tribological conditions within direct hot stamping

Cited by 11 publications

References 18 publications

High-temperature tribological performance of functionally graded Stellite 6/WC metal matrix composite coatings manufactured by laser-directed energy deposition

High-temperature tribological performance of functionally graded Stellite 6/WC metal matrix composite coatings manufactured by laser-directed energy deposition

Effect of CeO2 on high-temperature wear resistance of WC/Fe-based coatings

The effect of hot-stamping process on the local electrochemical behaviour of the 22 MnB5 steel coated with hot-dip aluminium-silicon

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Effect of CeO₂ on high-temperature wear resistance of WC/Fe-based coatings