Add to ORKGWe report the growth of titanium nitride microcolumns under multipulse Nd:yttrium aluminum garnet ( 1.064 m, ∼ 300 ns, 30 kHz) laser irradiation of titanium targets in nitrogen atmosphere. The laser intensity value was chosen below the single-pulse melting threshold of titanium. The evolution with the number of laser pulses of the target morphology, crystalline state, and chemical composition at the surface as well as in depth were investigated by scanning electron microscopy, x-ray diffractometry, Raman spectroscopy, and wavelength dispersive x-ray spectroscopy. Under the action of the laser pulses, during progressive surface nitridation, an initial rippled morphology developed, which evolved with further irradiation to TiN microcolumns. I...
To understand how to make bulk titanium parts or coatings with desired levels of titanium nitrides, ...
The technological advances in areas such as automotive and aerospace industries require materials ca...
The effects of picosecond Nd:YAG laser irradiation on chemical and morphological surface characteris...
We report the growth of titanium nitride microcolumns under multipulse Nd:yttrium aluminum garnet ( ...
Laser processing of solid surfaces has been extensively investigated during the last decade because ...
A continuous wave Nd-YAG laser was used to perform laser gas nitriding on titanium. The microstructu...
A high power direct diode laser, emitting in the range of near infrared radiation at wavelength 808–...
Samples of pure titanium were laser nitrided by continuous wave CO2 laser irradiation in mixtures of...
Nitriding is an effective method to improve the surface properties of titanium for many demanding ap...
International audienceLaser treatment of a titaniumsurface at certain conditions initiates the forma...
Surface changes created by interaction of transversely excited atmospheric carbon dioxide (TEA CO2) ...
Pulsed laser deposition (PLD) technique was demonstrated for the deposition of titanium nitride (TiN...
Mechanically induced reactive synthesis of TiN via magnetically controlled ball milling of titanium ...
Optical microscopy, scanning electron microscopy (SEM), X-ray diffractometry (XRD), X-ray photoelect...
To understand how to make bulk titanium parts or coatings with desired levels of titanium nitrides, ...
The technological advances in areas such as automotive and aerospace industries require materials ca...
The effects of picosecond Nd:YAG laser irradiation on chemical and morphological surface characteris...
We report the growth of titanium nitride microcolumns under multipulse Nd:yttrium aluminum garnet ( ...
Laser processing of solid surfaces has been extensively investigated during the last decade because ...
A continuous wave Nd-YAG laser was used to perform laser gas nitriding on titanium. The microstructu...
A high power direct diode laser, emitting in the range of near infrared radiation at wavelength 808–...
Samples of pure titanium were laser nitrided by continuous wave CO2 laser irradiation in mixtures of...
Nitriding is an effective method to improve the surface properties of titanium for many demanding ap...
International audienceLaser treatment of a titaniumsurface at certain conditions initiates the forma...
Surface changes created by interaction of transversely excited atmospheric carbon dioxide (TEA CO2) ...
Pulsed laser deposition (PLD) technique was demonstrated for the deposition of titanium nitride (TiN...
Mechanically induced reactive synthesis of TiN via magnetically controlled ball milling of titanium ...
Optical microscopy, scanning electron microscopy (SEM), X-ray diffractometry (XRD), X-ray photoelect...
To understand how to make bulk titanium parts or coatings with desired levels of titanium nitrides, ...
The technological advances in areas such as automotive and aerospace industries require materials ca...
The effects of picosecond Nd:YAG laser irradiation on chemical and morphological surface characteris...