Stephan Tremmel scite author profile

Machine learning (ML) and artificial intelligence (AI) are rising stars in many scientific disciplines and industries, and high hopes are being pinned upon them. Likewise, ML and AI approaches have also found their way into tribology, where they can support sorting through the complexity of patterns and identifying trends within the multiple interacting features and processes. Published research extends across many fields of tribology from composite materials and drive technology to manufacturing, surface engineering, and lubricants. Accordingly, the intended usages and numerical algorithms are manifold, ranging from artificial neural networks (ANN), decision trees over random forest and rule-based learners to support vector machines. Therefore, this review is aimed to introduce and discuss the current trends and applications of ML and AI in tribology. Thus, researchers and R&D engineers shall be inspired and supported in the identification and selection of suitable and promising ML approaches and strategies.

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Mxene nanosheets as an emerging solid lubricant for machine elements – Towards increased energy efficiency and service life

Marian

Tremmel

Wartzack

et al. 2020

Applied Surface Science

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Designing surface textures for EHL point-contacts - Transient 3D simulations, meta-modeling and experimental validation

Marian

Grützmacher

Rosenkranz

et al. 2019

Tribology International

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Halide-Free Synthesis and Tribological Performance of Oil-Miscible Ammonium and Phosphonium-Based Ionic Liquids

Westerholt

Weschta

Bösmann

et al. 2015

ACS Sustainable Chem. Eng.

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Due to their low vapor pressures, nonflammability, high thermal stabilities, and excellent tribological properties ionic liquids (ILs) are highly attractive lubricant base oils and additives. However, for practical applications of ILs in lubrication, two requirements are often limiting, the required miscibility with standard mineral oils (≥5 wt %) and the complete absence of corrosive halide ions in the ionic liquid. Moreover, the need for full compatibility with standard oil additives reduces the number of potential IL-based lubricant additives even further. In this contribution, an economic halide-free synthesis route to oil-miscible ionic liquids is presented, and very promising tribological properties of such ILs as base oil or additive are demonstrated. Therefore, sliding tests on bearing steel and XPS analysis of the formed surface films are shown. Corrosion test results of different bearing metals in contact with our halide-free ILs and (salt) water prove their applicability as real life lubricants. In the sustainable chemistry and engineering context, we present a halide-free design approach for ionic performance chemicals that may contribute to significant energy savings due to their enhanced lubrication properties.

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Effective usage of 2D MXene nanosheets as solid lubricant – Influence of contact pressure and relative humidity

Marian

Song

Wang

et al. 2020

Applied Surface Science

102

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Stephan Tremmel

Current Trends and Applications of Machine Learning in Tribology—A Review

Mxene nanosheets as an emerging solid lubricant for machine elements – Towards increased energy efficiency and service life

Designing surface textures for EHL point-contacts - Transient 3D simulations, meta-modeling and experimental validation

Halide-Free Synthesis and Tribological Performance of Oil-Miscible Ammonium and Phosphonium-Based Ionic Liquids

Effective usage of 2D MXene nanosheets as solid lubricant – Influence of contact pressure and relative humidity

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