Zing Siang Lee scite author profile

Zing Siang Lee

5Publications

39Citation Statements Received

127Citation Statements Given

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120

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University of Sheffield

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An analysis of the quality of experimental design and reliability of results in tribology research

Watson

Christoforou

Herrera

et al. 2019

Wear

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In recent years several high profile projects have questioned the repeatability and validity of scientific research in the fields of psychology and medicine. In general, these studies have shown or estimated that less than 50% of published research findings are true or replicable even when no breaches of ethics are made. This high percentage stems from widespread poor study design; either through the use of underpowered studies or designs that allow the introduction of bias into the results. In this work, we have aimed to assess, for the first time, the prevalence of good study design in the field of tribology. A set of simple criteria for factors such as randomisation, blinding, use of control and repeated tests has been made. These criteria have been used in a mass review of the output of five

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Morphology of a human finger pad during sliding against a grooved plate: A pilot study

et al. 2020

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This pilot study shows that Optical Coherence Tomography can be used to capture the morphology of the finger pad during sliding interaction with a grooved plate. The videos show how the finger pad ridges deform to slide or compress closer to the edge of the grooves. This study has demonstrated the future possibilities of investigating and visualising the interaction of a finger pad with a plate specimen of controlled roughness to improve and optimise surface characteristics of consumer products.

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Modelling of Frictional Conditions in the Wheel–Rail Interface Due to Application of Top-of-Rail Products

et al. 2021

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The coefficient of friction between a wheel tread and the top of the rail should be maintained at intermediate levels to limit frictional tangential contact forces. This can be achieved by applying top-of-rail products. Reducing the coefficient of friction to intermediate levels reduces energy consumption and fuel costs, as well as damage to the wheel and rail surfaces, such as, e.g., wear, rolling contact fatigue, and corrugation. This work describes a simulation model that predicts the evolution of the coefficient of friction as a function of the number of wheel passes and the distance from the application site for wayside application of top-of-rail products. The model considers the interplay of three mechanisms, namely the pick-up of product by the wheel at the application site, the repeated transfer of the product between the wheel and rail surfaces, and the product consumption. The model has been parameterized with data from small-scale twin disc rig experiments and full-scale wheel–rail rig experiments. Systematic investigations of the model behaviour for a railway operating scenario show that all three mechanisms may limit the achievable carry-on distance of the product. The developed simulation model assists in understanding the interplay of the mechanisms that govern the evolution of the coefficient of friction in the field. It may aid in finding optimal product application strategies with respect to application position, application amount, and application pattern depending on specific railway operating conditions.

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Towards a Standard Approach for the Twin Disc Testing of Top-Of Rail Friction Management Products

2022

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A wheel/rail friction coefficient that is too low can result in damage to the wheel and rail due to slips and slides, delays and safety concerns. A friction coefficient that is too high can result in excessive wear, noise and rolling contact fatigue. Changing contact and environmental conditions cause variations in wheel/rail friction, so friction management products, applied via wayside or on-board applicators, are used to either increase or decrease the friction coefficient so that an improved level is reached. They can be split into three classes; traction enhancers, lubricants and top-of-rail products (including water-based, oil/grease-based and hybrid products). This paper focuses on top-of-rail products and describes the different apparatus, contact conditions, product application methods and result interpretation that have been used to test these products and highlights the requirement for a more standardised test method. A proposed test method is outlined, which uses a twin disc test rig to collect “effective level of friction” and “retentivity” data to assess product effectiveness. More comparable and standardised data will ensure that maximum benefit is obtained from each set of results and help both product development and the approvals process.

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Wheel/Rail Creep Force Model for Wayside Application of Top-of-Rail Products Incorporating Carry-On and Consumption Effects

Lee

Trummer

Six

et al. 2020

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Zing Siang Lee

An analysis of the quality of experimental design and reliability of results in tribology research

Morphology of a human finger pad during sliding against a grooved plate: A pilot study

Modelling of Frictional Conditions in the Wheel–Rail Interface Due to Application of Top-of-Rail Products

Towards a Standard Approach for the Twin Disc Testing of Top-Of Rail Friction Management Products

Wheel/Rail Creep Force Model for Wayside Application of Top-of-Rail Products Incorporating Carry-On and Consumption Effects

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