A laser welding system is provided. The laser welding system includes a laser source configured to produce a laser beam, beam shaping means configured to form a beam profile different from that of the laser beam, and shielding means configured to shield at least a portion of the shaped beam profile.

A thermos cup vacuumizing device and method are provided. The thermos cup vacuumizing device includes a pre-vacuumizing chamber, a heating chamber, a welding chamber, and a cooling chamber. A continuous conveying device is provided at a bottom of each of the chambers. The thermos cup vacuumizing device further includes a controllable and movable laser welding device and multiple transparent windows. A laser beam of the laser welding device passes through the transparent windows to melt a welding ball at provided at a hole in the center of the bottom of the thermos cup. A vertically movable inlet valve is provided at an inlet of the pre-vacuumizing chamber, and a vertically movable outlet valve is provided at an outlet of the cooling chamber. The present disclosure realizes the continuous vacuumizing operation on the thermos cups, improves the product qualification rate and processing efficiency, and realizes automatic mass production.

A system can include a controller; a force applicator; a rotatable shaft centering collet; a drive mechanism that rotates the rotatable shaft centering collect; and a laser beam unit.

A system can include a controller; a force applicator; a rotatable shaft centering collet; a drive mechanism that rotates the rotatable shaft centering collect; and a laser beam unit.

Apparatus (20, 22) and a method for mechanically joining a steel sheet portion (28 or 32) of advanced high strength steel to a metallic sheet portion (30 or 34) is performed to a light-safe extent by a detector assembly (106) during the mechanical joining that may be clinching, clinch riveting, full-punch riveting or self-piercing riveting.

Apparatus (20, 22) and a method for mechanically joining a steel sheet portion (28 or 32) of advanced high strength steel to a metallic sheet portion (30 or 34) is performed to a light-safe extent by a detector assembly (106) during the mechanical joining that may be clinching, clinch riveting, full-punch riveting or self-piercing riveting.

A method of processing a plate-shaped workpiece includes a sheet affixing step of laying a thermocompression bonding sheet on a surface of the workpiece and heating and pressing the thermocompression bonding sheet against the workpiece to affix the thermocompression bonding sheet to the workpiece, a laser beam applying step of applying a laser beam having a wavelength absorbable by the workpiece to another surface of the workpiece along a projected dicing line established thereon, thereby processing the workpiece along the projected dicing line, and a sheet joining step of pressing the thermocompression bonding sheet while reheating the thermocompression bonding sheet to soften the same, so that the thermocompression bonding sheet is joined up by closing dividing grooves or through holes made in the thermocompression bonding sheet when the workpiece is processed in the laser beam applying step.

A method of processing a plate-shaped workpiece includes a sheet affixing step of laying a thermocompression bonding sheet on a surface of the workpiece and heating and pressing the thermocompression bonding sheet against the workpiece to affix the thermocompression bonding sheet to the workpiece, a laser beam applying step of applying a laser beam having a wavelength absorbable by the workpiece to another surface of the workpiece along a projected dicing line established thereon, thereby processing the workpiece along the projected dicing line, and a sheet joining step of pressing the thermocompression bonding sheet while reheating the thermocompression bonding sheet to soften the same, so that the thermocompression bonding sheet is joined up by closing dividing grooves or through holes made in the thermocompression bonding sheet when the workpiece is processed in the laser beam applying step.

A laser welding apparatus for joining a first member and a second member together by laser welding includes: a first laser beam applying device that applies a laser beam to a border area between the first member and the second member; and a second laser beam applying device that applies a laser beam to a laser beam application spot of each of the first member and the second member, the laser beam application spot being located ahead of a laser beam application spot to which the laser beam is applied by the first laser beam applying device, in a laser welding forward direction.

A method of manufacturing a shaft of a surgical instrument including forming a proximal segment of the shaft to include one or more features for operably engaging the shaft to a first component of the surgical instrument, forming a distal segment of the shaft to include one or more features for operably engaging the shaft to a second component of the surgical instrument and forming an intermediate segment of the shaft. The proximal segment is welded to a proximal end of the intermediate segment; and the distal segment is welded to a distal end of the intermediate segment. The proximal and distal segments are welded to the intermediate segment such that the one or more features thereof are aligned in a pre-determined orientation relative to one another.