A pulley assembly having a body, a shaft mount and a plurality of bolts is disclosed. The body is aligned to the shaft mount by providing a tight tolerance between a shoulder portion of the bolt and a neck portion of a counter sunk hole formed in the body. Additionally, an outer surface of the body may have a pattern of friction lines or patches formed by fusing particulate matter to the outer surface with heat generated by a laser beam.

A method of reducing photoelectron yield (PEY) and/or secondary electron yield (SEY) of a ceramic surface comprises applying pulsed laser radiation comprising a series of laser pulses emitted by a laser (4) to the surface of a target (10) to produce a periodic arrangement of structures on the surface of the target (10).

Method and devices using lasers to reduce reflection of transparent solids in the optical spectrum, coatings and devices employing transparent solids are disclosed. The lasers are used to shape surfaces of the transparent solid materials by raising the temperature of the material to around the melting temperature, and thereby generate desired target nanostructure two-dimensional antireflection flection pattern arrays on the surfaces. The laser fluence value, wavelength, repetition rate, pulse duraction and number of consecutive laser pulses per focus spot are selected, and a desired focus spot distribution on the surface of the transparent solid material is identified. The transparent solid material is relatively translated to generate the desired nanostructure two-dimensional pattern array.

The invention relates to a process for nanostructuring the surface of a solid material in order to form a regular pattern of nanostructures on said surface, comprising: irradiating the surface by a plurality of pulse trains (20) of a femtosecond laser beam: each pulse train (20) comprises at least two pulses (21, 22), each pulse has a peak fluence, and a sum of the peak fluences of the pulses of a pulse train is between 10% and 70% of a threshold fluence corresponding to a material ablation threshold for one pulse for said material, two consecutive pulses of a pulse train are separated by a peak-to-peak duration ΔT between 500 fs and 150 ps, two consecutive pulse trains are separated by a duration greater than 10 ΔT, obtaining a regular pattern of nanostructures on said portion of surface, having a spatial periodicity lower than 130 nm.

A purging attachment for a workpiece having a surface to be processed using laser radiation, wherein the workpiece has a chamber open on at least one side of the workpiece, and wherein the surface is within the chamber, comprises: a central opening through the purging attachment; a purge gas supply channel extending through the purging attachment to an outlet opening; a purge gas suction channel extending through the purging attachment to an inlet opening, wherein the outlet opening of the purge gas supply channel and the inlet opening of the purge gas suction channel are arranged on opposite sides of the central opening; and a centering portion configured to interact with a centering region arranged on the side of the workpiece such that the central opening, the outlet opening, and the inlet opening communicate with the chamber.

The laser irradiation device irradiates a laser beam at intervals of predetermined time. At one time of irradiation, the laser beam has a waveform composed of a former portion and a latter portion. In the former portion, an increase rate of irradiation intensity per unit time is maximized on an outset of irradiation and is gradually reduced as the irradiation intensity approaches a maximum. In the latter portion, a reduction rate of irradiation intensity per unit time is maximized after the former portion and is gradually reduced as the irradiation intensity approaches a baseline current.

A pulley assembly having a body, a shaft mount and a plurality of bolts is disclosed. The body is aligned to the shaft mount by providing a tight tolerance between a shoulder portion of the bolt and a neck portion of a counter sunk hole formed in the body. Additionally, an outer surface of the body may have a pattern of friction lines or patches formed by fusing particulate matter to the outer surface with heat generated by a laser beam.

A welding wire drive roll has an outer circumferential surface having a circumferential groove projecting radially inward from the outer circumferential surface. The circumferential groove is formed by a first sidewall having a first sidewall surface, a second sidewall having a second sidewall surface, and a groove base extending between the first sidewall and the second sidewall. The first sidewall surface includes a first surface finishing comprising a first ring of laser-formed craters along the first sidewall surface. The second sidewall surface includes a second surface finishing comprising a second ring of laser-formed craters along the second sidewall surface.

Method for preparing the upper surface of a build platform for additive manufacturing by powder bed deposition, the method comprises at least one step of increasing the roughness of at least one region of the upper surface of the build platform by imprinting a pattern onto this region. The imprinting of the pattern is done inside the machine for additive manufacturing by powder bed deposition in which the build platform is subsequently used for additive manufacturing by powder bed deposition.

Methods of manufacturing electrically conductive copper components for electric devices and method of joining electrically conductive copper components are provided. Each of the electrically conductive copper components are manufactured to include a preexisting coating of joining material located on or adjacent to a joining surface thereof.