Add to ORKGSliding friction experiments were conducted with an iron rider on a copper disk and a copper rider on an iron disk. The sputter cleaned iron and copper disk surfaces were saturated with oxygen, methyl mercaptan, and methyl chloride at atmospheric pressure. Auger emission spectroscopy was used to monitor the surfaces. Lower friction was obtained in all experiments with the copper rider sliding on the iron disk than when the couple was reversed. For both iron and copper disks, methyl mercaptan gave the best surface coverage and was most effective in reducing friction. For both iron and copper disks, methyl chloride was the least effective in reducing friction. With sliding, copper transferred to iron and iron to copper
Wear experiments were conducted on iron sliding in hexadecane and hexadecane plus one weight percent...
Reduction of adhesive forces and friction of iron polycrystals in vacuum by chemisorbed film
Static friction experiments were performed in ultrahigh vacuum at room temperature on copper, iron, ...
Sliding friction experiments were conducted with the noble metals copper, silver, and gold and two b...
Experiments were conducted in inert, reducing, and oxidizing atmospheres to determine their influenc...
Various gases were adsorbed to copper, aluminum, and chromium surfaces. The gases included oxygen, h...
Sliding friction experiments were conducted with amorphous and fully graphitized carbons sliding on ...
The interaction of sulfur and oxygen with an iron surface was studied with Auger spectroscopy analys...
International audienceIn this work, the friction and wear behavior of bare copper was investigated f...
Sliding friction experiments were conducted with iron, copper, and aluminum in contact with iron in ...
Sliding friction experiments were conducted with aluminum and other riders rubbing on disks of vario...
Friction studies were conducted with a gold pin contacting titanium, aluminum, and molybdenum surfac...
Friction and wear experiments were conducted with elemental iron exposed to various corrosive media ...
Previous studies have shown that the copper originated from the wear of automotive brake friction ma...
Mechano-chemical interaction studies can contribute to the understanding of wear and friction of mat...
Wear experiments were conducted on iron sliding in hexadecane and hexadecane plus one weight percent...
Reduction of adhesive forces and friction of iron polycrystals in vacuum by chemisorbed film
Static friction experiments were performed in ultrahigh vacuum at room temperature on copper, iron, ...
Sliding friction experiments were conducted with the noble metals copper, silver, and gold and two b...
Experiments were conducted in inert, reducing, and oxidizing atmospheres to determine their influenc...
Various gases were adsorbed to copper, aluminum, and chromium surfaces. The gases included oxygen, h...
Sliding friction experiments were conducted with amorphous and fully graphitized carbons sliding on ...
The interaction of sulfur and oxygen with an iron surface was studied with Auger spectroscopy analys...
International audienceIn this work, the friction and wear behavior of bare copper was investigated f...
Sliding friction experiments were conducted with iron, copper, and aluminum in contact with iron in ...
Sliding friction experiments were conducted with aluminum and other riders rubbing on disks of vario...
Friction studies were conducted with a gold pin contacting titanium, aluminum, and molybdenum surfac...
Friction and wear experiments were conducted with elemental iron exposed to various corrosive media ...
Previous studies have shown that the copper originated from the wear of automotive brake friction ma...
Mechano-chemical interaction studies can contribute to the understanding of wear and friction of mat...
Wear experiments were conducted on iron sliding in hexadecane and hexadecane plus one weight percent...
Reduction of adhesive forces and friction of iron polycrystals in vacuum by chemisorbed film
Static friction experiments were performed in ultrahigh vacuum at room temperature on copper, iron, ...