Dear Colleagues,

The term tribology emerged in the 1960s, and is defined as “the science of rubbing” from the Greek translation; tribology is the engineering science of moving interacting surfaces. The science covers friction, wear, and lubrication for interacting machine elements. It has been related to human invention since ancient history, from the creation of wheels to inclusion of liquids while building pyramids or moving ships to avoid friction.

Machine elements, such as journal bearings, rolling bearings, piston rings, gears, crankshaft bearings, cams, brakes, clutches and floating ring bearings, etc., are crucial components in the operation of a machine.

Tribological design analysis and optimization, including friction wear and lubrication, will affect the performance of machine elements and further in machine operation, its efficiency, emitted gases, its lifetime, and at the end in the world economy.

Checking the properties of materials has attracted appreciable attention over the last few decades. Magneto/nanomagneto rheological and electrorheological fluids, etc., are smart lubricants in which rheological properties can be changed by applying a magnetic or an electric field, respectively. Smart lubricants are, commonly, a suspension of solid magnetized or dielectric particles, respectively diffused in non-conducting liquid. By applying a magnetic or electric field, their resistances to flow can be altered very quickly. Smart fluids can change their behavior, from a Newtonian type to Bingham type, in which particles form chain-like structures. Due to this behavior, smart fluids can endure external pressures or forces with advantages such as simple design, continuous control, and fast response time.

The combination of tribological design analysis and the optimization of machine elements with smart fluids, can offer controllable tribological properties and/or controllable dynamic behaviors.

Papers dealing with the tribological design of machine elements and/or combined with smart fluid lubrication are welcome in this Special Issue.

Prof. Dr. Pantelis G. Nikolakopoulos
Guest Editor

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• tribology of machine elements
• journal bearings; thrust bearing
• artificial texturing
• piston ring tribology
• magnetorheological
• electrorheological fluids
• active magnetic bearings