A reaction plate for a clutch including an annular body, the annular body including an inner circumferential edge, an outer circumferential edge, a first surface between the inner and outer circumferential edges and facing a first axial direction and a second surface between the inner and outer circumferential surfaces and facing a second axial direction, the second surface including recesses covering at least 50 percent of the second surface. A clutch assembly including a friction plate, the friction plate having a first axially-facing surface including a friction material, a reaction plate, the reaction plate having a second axially-facing surface including recesses covering at least 50 percent of the second axially-facing surface and an actuation means arranged to displace the friction plate or the reaction plate such that the first and second axially-facing surfaces frictionally engage. A method of fabricating a reaction plate for a clutch.

The present invention discloses a 3D diffraction coating process, the operation is simple, due to the principle of newton's rings of single light sources, superimposition of optical wave-wavlet vibration during wave transmission of light and diffraction, refraction, reflection, transmission, transmission increase and reflection increase of the light, slit diffraction generated by a round hole, a rectangular hole and a line in a pattern internally coated in the product is conducted to an outer glass layer to form a diffraction layer, and finally, a muitilayered 3D visual effect is generated, and the manufactured finished product has a good 3D effect, and is very exquisite and high-class.

A method for forming three-dimensional anchoring structures on a surface is provided. This may result in a thermal barrier coating system exhibiting enhanced adherence for its constituent coatings. The method involves applying a laser beam (10) to a surface (12) of a solid material (14) to form a liquefied bed (16) on the surface of the solid material, then applying a pulse of laser energy (18) to a portion of the liquefied bed to cause a disturbance, such as a splash (20) or a wave (25) of liquefied material outside the liquefied bed. A three-dimensional anchoring structure (22) may thus be formed on the surface upon solidification of the splash or wave of liquefied material.

The invention relates to a method for forming a structuring at surfaces of components using a laser beam. In the invention, a laser beam is directed onto a diffractive optical element. The diffractive optical element is configured such that the laser beam is split into at least two part beams and the part beams are directed at an angle α with respect to the optical axis of the laser beam onto at least one further optical element which is transparent for the laser radiation. The further optical element(s) has/have a first surface and a second surface which is inclined at an angle to the optical axis of the laser beam at which the beam direction of the part beams is changed by optical refraction. A focusing optical lens is arranged in the optical path of the part beams between the further optical element(s) and a component surface to be processed, and the part beams are focused such that they are incident onto the surface of the component at a common position at an angle of incidence β with respect to the optical axis of the laser beam. The distance d1 between the optical elements is changed to change the interference period.

Laser patterning methods utilize a laser absorbent hard mask in combination with wet etching to form patterned solar cell doped regions to improve cell efficiency by avoiding laser ablation of an underlying semiconductor substrate associated with ablation of an overlying transparent passivation layer.

Systems and methods are disclosed herein for dressing and trueing grinding wheels. A laser may be directed substantially tangential to a grinding surface of a grinding wheel. The laser may be a continuous wave laser and may ablate material from the grinding surface. The laser may move relative to the grinding wheel in order to ablate shaped surface profiles into the grinding surface.

A method bonds a first member to a second member. The method provides a first member having a bonding surface. A second member is molded from a metal material so as to have a surface constructed and arranged to be bonded to the bonding surface. The surface of the second member is laser trimmed to remove material and to remove byproducts, resulting from molding the second member, from the surface of the second member to thereby define a clean, laser trimmed surface of the second member. A sealant is provided between and in contact with the bonding surface and the clean, laser trimmed surface. The sealant is permitted to cure to thereby bond the first member to the second member.

This invention provides a method for manufacturing a decorative-part of which the joint-lines bordering the laser-irradiation regions are unnoticeable, thus avoiding deterioration of the design-quality of such a decorative-part. Of this invention, the design (4) comprises the first-blocks (6) of a plurality of design-patterns (5) that are closely arranged with the second-blocks (8) of a plurality of design-patterns (7) that are different from those of the first-blocks (6). In the laser-irradiation-region-setting process, the decorative-area is divided into a plurality of laser-irradiation regions (LR1, LR2 and LR3), at which time the joint-lines (J1, J2) are set as borders of the first-blocks (6) and the second-blocks (8) of the design (4). In the laser-irradiation process, a laser-deflector is relatively displaced, and a laser L is irradiated onto each of the laser-irradiation regions (LR1, LR2 and LR3).

A bonded structure is made of a first member and a second member which are bonded to each other. At least one bore having an opening is formed in a surface of the first member, and the second member is filled in the bore of the first member. The bore is defined by a diameter-increasing portion whose opening size increases in a depth direction from a surface side toward a bottom of the first member, and a first diameter-decreasing portion whose opening size decreases in the depth direction from the surface side toward the bottom. The diameter-increasing portion is formed on the surface side, and the first diameter-decreasing portion is formed on a bottom side.

A laser-assisted method embeds luminescent taggant particles in the surface of a substrate to provide a covert method of evaluating the authenticity of articles so treated.