Add to ORKGMany components experience sliding or rotating contact with other parts or with their environments. Their performance often degrades during service because their dimensions are altered by wear. Furthermore, the friction at the contact surface wastes energy. To mitigate these problems, hard coatings may be applied to contact surfaces to increase their wear resistance, and surfaces are often covered with a lubricant to reduce friction. At Ames National Laboratory, a nanocomposite boron-aluminum-magnesium ceramic alloy coating (AlMgB14 + TiB2) has been developed that provides a superhard, wear-resistant surface that also has an exceptionally low coefficient of friction. Tests show that these boride coatings offer a combination of wear resistan...
Boron carbide coatings are well-known for extreme hardness and excellent wear resistance. In this pa...
This paper deals with the fabrication and characterisation of friction and wear reduced nano-films f...
The present research objective is to investigate the effect of boron nitride nanoparticles reinforce...
In the search of new wear resistant coatings for applications such as cutting tools and turbine refu...
Performance and reliability of microelectromechanical system (MEMS) components enhanced dramatically...
Advanced TiC/a-C:H nanocomposite coatings have been produced via reactive deposition in a closed-fie...
A review of current commercially available, industrial-grade, low friction coatings will show that i...
This project was funded under the Department of Energy (DOE) Lab Call on Nanomanufacturing for Energ...
TiC/a-C:H nanocomposite coatings have been deposited by magnetron Sputtering. They consist of 2-5 nm...
Cutting tools have long been coated with an AlCrN hard coating system that has good mechanical and t...
Engineering components, e.g. tubing systems for the down-hole applications in the oil and gas indust...
Future generations of mechanical systems will place new demands on the tribological performance of i...
Friction and wear performance of non-reactively magnetron-sputtered hydrogen-free TiC/a-C coatings w...
ABSTRACT Enhanced corrosion and wear resistance are crucially important to prolong the service life ...
The paper presents the theoretical basis of manufacturing and chosen applications of composite coati...
Boron carbide coatings are well-known for extreme hardness and excellent wear resistance. In this pa...
This paper deals with the fabrication and characterisation of friction and wear reduced nano-films f...
The present research objective is to investigate the effect of boron nitride nanoparticles reinforce...
In the search of new wear resistant coatings for applications such as cutting tools and turbine refu...
Performance and reliability of microelectromechanical system (MEMS) components enhanced dramatically...
Advanced TiC/a-C:H nanocomposite coatings have been produced via reactive deposition in a closed-fie...
A review of current commercially available, industrial-grade, low friction coatings will show that i...
This project was funded under the Department of Energy (DOE) Lab Call on Nanomanufacturing for Energ...
TiC/a-C:H nanocomposite coatings have been deposited by magnetron Sputtering. They consist of 2-5 nm...
Cutting tools have long been coated with an AlCrN hard coating system that has good mechanical and t...
Engineering components, e.g. tubing systems for the down-hole applications in the oil and gas indust...
Future generations of mechanical systems will place new demands on the tribological performance of i...
Friction and wear performance of non-reactively magnetron-sputtered hydrogen-free TiC/a-C coatings w...
ABSTRACT Enhanced corrosion and wear resistance are crucially important to prolong the service life ...
The paper presents the theoretical basis of manufacturing and chosen applications of composite coati...
Boron carbide coatings are well-known for extreme hardness and excellent wear resistance. In this pa...
This paper deals with the fabrication and characterisation of friction and wear reduced nano-films f...
The present research objective is to investigate the effect of boron nitride nanoparticles reinforce...