Tractive rolling contact mechanics of graded coatings

The contact problem of a driving tyred wheel, pressed and rolling over an elastically similar half-plane, is considered. Although applicable to a wide range of shrink-fitted assemblies, the simplified model is solved to study the practical case of an elastically similar steel tyre mounted on a locomotive steel wheel subjected to tractive rolling. The behaviour of the system at the tyre—substrate interface is studied using closed-form solutions to calculate the state of stress within the tyre. Conditions leading to incipient slip and/or plasticity are identified and mapped for different loads and geometries.

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A Tribometric Device for the Rolling Contact of Soft Elastomers

10.21203/rs.3.rs-1181940/v1 ◽

2021 ◽

Author(s):

Brodie Hoyer ◽

Rong Long ◽

Mark E. Rentschler

Keyword(s):

Contact Mechanics ◽

Fundamental Problem ◽

Finite Thickness ◽

Medical Robotics ◽

Adhesive Contact ◽

Rolling Contact ◽

Experimental Investigations ◽

Pdms Substrate ◽

Textured Surfaces ◽

Tribometric Device

Abstract Rolling contact experimentation is a viable and instructive method for exploring the adhesive contact between surfaces. When applied to soft elastomeric or engineered surfaces, the results of such experiments can provide insights relevant to medical robotics, soft gripping applications, and reversible dry adhesives for bandages or wearable devices. We have designed and built a tribometric device to capture normal and tangential forces between a rolling indenter and substrate correlated with contact area imaging. The device was validated using an experimental setup involving a rigid, nominally smooth acrylic cylinder rolling against a flat polydimethylsiloxame (PDMS) substrate, the results of which matched favorably with accepted contact mechanics theories. The second test involved an indenter with a rigid core and thin (3 mm) smooth shell of a highly deformable, viscoelastic polyvinyl chloride (PVC) rolling on the same PDMS substrate. This test deviated significantly from analytical predictions, highlighting the effects of finite-thickness effects, viscoelasticity, and interfacial slip. This device will facilitate experimental investigations of the rolling contact mechanics between textured surfaces and soft tissue-like materials, which is an important fundamental problem in medical robotics.

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Application of Selected Multiaxial High-Cycle Fatigue Criteria to Rolling Contact Problems

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.542.157 ◽

2013 ◽

Vol 542 ◽

pp. 157-170 ◽

Cited By ~ 5

Author(s):

Paweł Romanowicz

Keyword(s):

High Cycle Fatigue ◽

Rolling Contact Fatigue ◽

Roller Bearing ◽

Three Dimensional ◽

Contact Fatigue ◽

Contact Problems ◽

Rolling Contact ◽

Cycle Fatigue ◽

Contact Conditions ◽

Tractive Rolling

The risk of fatigue failure of elements working in rolling contact conditions (such as railway wheels, rolling bearings, etc.) is a significant issue with respect to safety and economy. In this case the complex and non-proportional stress state with pulsating three dimensional compression occurs. Therefore, the analysis of fatigue life of structures working in rolling contact conditions can be performed using recently proposed multiaxial high-cycle fatigue criteria. However, there is no hypothesis that could be universally accepted for calculations of fatigue strength. Furthermore, not all criteria proposed in literature for rolling contact fatigue (RCF) analysis can predict it. In the paper, the most popular criteria based on different theories are investigated in the application to RCF problem. Moreover, modification of the popular Dang Van hypothesis is proposed. The problem of free and tractive rolling contact fatigue is analysed on the example of a cylindrical crane wheel and spherical thrust roller bearing.

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