Optimization of Textured Surface in 2D Parallel Bearings Governed by the Reynolds Equation Including Cavitation and Temperature

Guzek, Agata; Podsiadło, Paweł; Stachowiak, Gwidon

doi:10.2474/trol.8.7

Cited by 23 publications

(15 citation statements)

References 54 publications

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“…They show that in presence of surface texturing, the average temperature of the lubricating film reduces. In work of Guzek et al [32], upon an optimization of the surface texturing parameters in parallel bearings, they numerically solved the Reynolds equation, considering mass-conserving cavitation and viscosity changes due to temperature change. They showed that the decrease in viscosity due to the temperature rise can reduce the load carrying capacity.…”

Section: Introductionmentioning

confidence: 99%

The Influence of Surface Texturing on the Frictional Behaviour in Starved Lubricated Parallel Sliding Contacts

Bijani

Deladi²,

Rooij

et al. 2019

Lubricants

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Starvation occurs when the lubricated contact uses up the lubricant supply, and there is not enough lubricant in the contact to support the separation between solid surfaces. On the other hand, the use of textures on surfaces in lubricated contacts can result in a higher film thickness. In addition, a modification of the surface’s geometrical parameters can benefit the tribological behaviour of the contacts. In this article, for parallel sliding surfaces in starved lubricated conditions, the effect of surface texturing upon the coefficient of friction is investigated. It is shown that surface texturing may improve film formation under the conditions of starvation, and as a result, the frictional behaviour of the parallel sliding contact. Furthermore, the effect of starved lubrication on textured surfaces with different patterns in the presence of a cavitation effect, and its influence on frictional behaviour, is investigated. It is shown that surface texturing can reduce the coefficient of friction, and that under certain conditions, the texturing parameter could have an influence on the frictional behaviour of parallel sliding contacts in the starved lubrication regime.

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Section: Introductionmentioning

confidence: 99%

The Influence of Surface Texturing on the Frictional Behaviour in Starved Lubricated Parallel Sliding Contacts

Bijani

Deladi²,

Rooij

et al. 2019

Lubricants

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“…Note that the present focus is on the design of the interface and not on the analysis of a prescribed texture (see the work of Gropper et al for a review of commonly prescribed texture geometries and related analysis approaches). One advantage of existing design studies is their ability to address the problem directly through a complete mesoscale analysis in the lack of a clear scale separation that is necessary for the application of the homogenization theory . Another advantage is that, considering the large number of design variables that are typically needed in topology optimization, they can restrict the design space to achieve optimal designs in a numerically more efficient manner .…”

Section: Introductionmentioning

confidence: 99%

“…One advantage of existing design studies is their ability to address the problem directly through a complete mesoscale analysis in the lack of a clear scale separation that is necessary for the application of the homogenization theory. [17][18][19][20] Another advantage is that, considering the large number of design variables that are typically needed in topology optimization, they can restrict the design space to achieve optimal designs in a numerically more efficient manner. [21][22][23] On the other hand, an ability to endow interfaces with very finely distributed intricate geometries using modern manufacturing methods provides an opportunity to question and explore the possibilities of unrestricted microscopic interface geometry design via homogenization-based topology optimization.…”

Section: Introductionmentioning

confidence: 99%

Microscopic design and optimization of hydrodynamically lubricated dissipative interfaces

Çakal

Temizer

Terada

et al. 2019

Numerical Meth Engineering

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Summary A homogenization‐based topology optimization framework is developed, which can endow hydrodynamically lubricated interfaces with a micro‐texture, to achieve optimal macroscopic responses by addressing both dissipative and nondissipative physics at the interface. With respect to the homogenization aspects of the problem, the thermodynamic consistency of the two‐scale formulation is explicitly analyzed and verified. With respect to the topology optimization aspects, a variational approach to sensitivity analysis is pursued. Subsequently, these are employed in micro‐texture design studies, which address microscopic and macroscopic objectives. The influence of dissipation on the optimization results is demonstrated through extensive numerical investigations, which also highlight the importance of working in a sufficiently flexible design space that can deliver nearly optimal micro‐texture geometries.

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“…To texture the inlet, the first texture row is simply elongated towards the inlet. Only partially textured pads and angular sector shaped textures with flat bottom profile are considered, as this type of texture pattern most closely reassembles a stepped configuration, which has been shown to have the most beneficial impact on the bearing performance [7,8].…”

Section: Bearing Geometry and Film Thicknessmentioning

confidence: 99%

Numerical analysis and optimization of surface textures for a tilting pad thrust bearing

Gropper

Harvey

Wang

2018

Tribology International

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A B S T R A C TA numerical model based on the Reynolds equation to study textured tilting pad thrust bearings considering massconserving cavitation and thermal effects is presented. A non-uniform and adaptive finite volume method is utilized and two methods are compared and selected regarding their efficiency in handling discontinuities; specifically placing additional nodes closely around discontinuities and directly incorporating discontinuities in the discrete system. Multithreading is applied to improve the computational performance and three root-finding methods to evaluate the bearing equilibrium are compared; namely Newton-Raphson method, Broyden's method with Sherman-Morrison formula and a continuation approach with fourth-order Runge-Kutta method. Results from the equivalent untextured bearing are utilized to accelerate the computation of the textured bearing and results are validated by comparison with CFD data.

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Optimization of Textured Surface in 2D Parallel Bearings Governed by the Reynolds Equation Including Cavitation and Temperature

Cited by 23 publications

References 54 publications

The Influence of Surface Texturing on the Frictional Behaviour in Starved Lubricated Parallel Sliding Contacts

The Influence of Surface Texturing on the Frictional Behaviour in Starved Lubricated Parallel Sliding Contacts

Microscopic design and optimization of hydrodynamically lubricated dissipative interfaces

Numerical analysis and optimization of surface textures for a tilting pad thrust bearing

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