Add to ORKGThe surface reactivity of tributyl thiophosphate on iron surfaces has been studied in situ by attenuated total reflection Fourier-transform infrared spectroscopy, X-ray photoelectron spectroscopy and temperature-programmed reaction and desorption spectroscopies. The results show that at temperatures lower than 373K the molecule forms a physisorbed layer on the iron substrate. At 373K a reaction takes place with the formation of an organic layer, together with iron polyphosphate and sulfate. At higher temperatures temperature-programmed desorption results suggest that the mechanism involves P-O bond scission to yield butoxy groups. This could be preceded by P=S bond scission to give tributyl phosphite, which then, in turn, undergoes P-O bond...
Organophosphorus compounds are common additives included in liquid lubricants for many applications,...
Boron compounds have become of interest in tribology because of their unique tribochemical and tribo...
ABSTRACT Antiwear chemistry is related to the role of tribochemical reactions in controlling abrasiv...
The surface reactivity of triphenyl phosphorothionate (TPPT) on air-oxidized iron surfaces under tri...
Investigating the thermo-oxidative reactivity of anti-wear additives in lubricant oil solution at hi...
The surface reactivity of triphenyl phosphorothionate (TPPT) on air-oxidized iron surfaces has been ...
Antiwear additives, such as zinc dialkyldithiophosphate (ZnDTP), find application in many different ...
The influence of load on the chemistry of tribofilms formed on a steel surface in solution of pure d...
Phosphate esters have a wide range of industrial applications, for example in tribology where they a...
The influence of tribological conditions on the surface reactions occurring between zinc dialkyldith...
The effect of the substituent attached to the phenyl rings on the reactivity of alkylated triphenyl ...
The molecular structure of lubricant additives controls not only their adsorption and dissociation b...
Despite the ubiquitous use of the zinc dialkyldithiophosphate (ZDDP) as an antiwear additive, no com...
The influence of metallic and oxidized iron/steel on the reactivity of triphenyl phosphorothionate (...
Zinc polyphosphate glasses are the principal component of the antiwear tribofilms formed on steel su...
Organophosphorus compounds are common additives included in liquid lubricants for many applications,...
Boron compounds have become of interest in tribology because of their unique tribochemical and tribo...
ABSTRACT Antiwear chemistry is related to the role of tribochemical reactions in controlling abrasiv...
The surface reactivity of triphenyl phosphorothionate (TPPT) on air-oxidized iron surfaces under tri...
Investigating the thermo-oxidative reactivity of anti-wear additives in lubricant oil solution at hi...
The surface reactivity of triphenyl phosphorothionate (TPPT) on air-oxidized iron surfaces has been ...
Antiwear additives, such as zinc dialkyldithiophosphate (ZnDTP), find application in many different ...
The influence of load on the chemistry of tribofilms formed on a steel surface in solution of pure d...
Phosphate esters have a wide range of industrial applications, for example in tribology where they a...
The influence of tribological conditions on the surface reactions occurring between zinc dialkyldith...
The effect of the substituent attached to the phenyl rings on the reactivity of alkylated triphenyl ...
The molecular structure of lubricant additives controls not only their adsorption and dissociation b...
Despite the ubiquitous use of the zinc dialkyldithiophosphate (ZDDP) as an antiwear additive, no com...
The influence of metallic and oxidized iron/steel on the reactivity of triphenyl phosphorothionate (...
Zinc polyphosphate glasses are the principal component of the antiwear tribofilms formed on steel su...
Organophosphorus compounds are common additives included in liquid lubricants for many applications,...
Boron compounds have become of interest in tribology because of their unique tribochemical and tribo...
ABSTRACT Antiwear chemistry is related to the role of tribochemical reactions in controlling abrasiv...