A pipe welding structure includes: a channel plate that includes a fluid channel; through-hole plates stacked on the channel plate, each of the through-hole plates having through holes that communicate with each other and forming a combined through hole; and a pipe inserted into the combined through hole and welded to one of the through-hole plates disposed farthest from the channel plate, the pipe internally including a pipe channel that connects to the fluid channel.

An auger assembly for transporting material for an agricultural work vehicle formed by an auger and a housing arrangement having an interior that houses the auger such that rotation of the auger within the housing arrangement is configured to transport the material through the housing arrangement. The housing arrangement includes a series of tube portions including at least a first and a second tube portion, each respective tube portion of the series of tube portions having a first and second end, an inner and outer surface, and a thickness between the inner and outer surfaces; and at least one mounting flange structure, including a first mounting flange structure secured to the outer surface of the first tube portion by a first laser weld extending from the inner surface of the first tube portion, through the thickness of the first tube portion, and into the first mounting flange structure.

An auger assembly for transporting material for an agricultural work vehicle formed by an auger and a housing arrangement having an interior that houses the auger such that rotation of the auger within the housing arrangement is configured to transport the material through the housing arrangement. The housing arrangement includes a series of tube portions including at least a first and a second tube portion, each respective tube portion of the series of tube portions having a first and second end, an inner and outer surface, and a thickness between the inner and outer surfaces; and at least one mounting flange structure, including a first mounting flange structure secured to the outer surface of the first tube portion by a first laser weld extending from the inner surface of the first tube portion, through the thickness of the first tube portion, and into the first mounting flange structure.

Simultaneous laser welding equipment of a vehicle light including at least a plurality of laser sources suitable for emitting light beams, a plurality of optical fibres associated, at the input ends to the at least one laser source and transmitting the light beams. A light guide is provided with at least one hollow seat that delimits a continuous perimetral contour, counter-shaped to the weld interface. The light guide comprises diffusion elements that pass through the perimetral contour of the seat of the light guide internally, so as to intercept and influence the light beams that propagate inside the seat and that are shaped to expand the light beams along a direction substantially tangent to the curvilinear abscissa defining the perimetral contour, before it projects from the light output wall and/or at the latter.

Simultaneous laser welding equipment of a vehicle light including at least a plurality of laser sources suitable for emitting light beams, a plurality of optical fibres associated, at the input ends to the at least one laser source and transmitting the light beams. A light guide is provided with at least one hollow seat that delimits a continuous perimetral contour, counter-shaped to the weld interface. The light guide comprises diffusion elements that pass through the perimetral contour of the seat of the light guide internally, so as to intercept and influence the light beams that propagate inside the seat and that are shaped to expand the light beams along a direction substantially tangent to the curvilinear abscissa defining the perimetral contour, before it projects from the light output wall and/or at the latter.

In various examples, an apparatus includes a first hypotube formed from a first material and a second hypotube formed from a second material different from the first material. A first joint is formed between the first hypotube and the second hypotube, the first joint including a combination of the first material and the second material. The apparatus includes a sidewall and a passageway extending through the apparatus. The sidewall is formed by the first sidewall of the first hypotube, the second sidewall of the second hypotube, and the first joint. The apparatus includes an outer diameter that is substantially consistent along a length of the apparatus and an inner diameter that is substantially consistent along a length of the apparatus. In other examples, a method of joining the first hypotube to the second hypotube is contemplated.

In various examples, an apparatus includes a first hypotube formed from a first material and a second hypotube formed from a second material different from the first material. A first joint is formed between the first hypotube and the second hypotube, the first joint including a combination of the first material and the second material. The apparatus includes a sidewall and a passageway extending through the apparatus. The sidewall is formed by the first sidewall of the first hypotube, the second sidewall of the second hypotube, and the first joint. The apparatus includes an outer diameter that is substantially consistent along a length of the apparatus and an inner diameter that is substantially consistent along a length of the apparatus. In other examples, a method of joining the first hypotube to the second hypotube is contemplated.

A first metal pipe is welded to a second metal pipe in a method of laying pipeline, for example from a pipe-laying vessel at sea. The metal pipes may have an outer diameter greater than 150 mm and a pipe wall thickness of greater than 15 mm. The first pipe and the second pipe are brought together prior to welding so as to sandwich a third type of metal material between the pipe ends. The thickness of the third type of material, immediately before welding may be between 0.05 mm and 2 mm. The third metal material is melted together with the metal material of the first pipe and the second pipe.

A first metal pipe is welded to a second metal pipe in a method of laying pipeline, for example from a pipe-laying vessel at sea. The metal pipes may have an outer diameter greater than 150 mm and a pipe wall thickness of greater than 15 mm. The first pipe and the second pipe are brought together prior to welding so as to sandwich a third type of metal material between the pipe ends. The thickness of the third type of material, immediately before welding may be between 0.05 mm and 2 mm. The third metal material is melted together with the metal material of the first pipe and the second pipe.

Methods and systems for forming vacuum insulated containers, such as beverage and food containers, are described. The methods and systems include using a laser to close openings in walls of the container while the container is held at vacuum conditions. The closing of the opening forms the vacuum space within the walls of the container.