A plasma torch moves to a piercing position. The plasma torch generates a plasma arc and starts a piercing step at the piercing position. Whether the piercing step is completed is determined based on the arc voltage. The plasma torch is held at the piercing position in the horizontal direction from the start of the piercing step until the completion of the piercing step. The plasma torch is moved in a predetermined direction including at least the horizontal direction after the piercing step is completed.

A plasma torch moves to a piercing position. The plasma torch generates a plasma arc and starts a piercing step at the piercing position. Whether the piercing step is completed is determined based on the arc voltage. The plasma torch is held at the piercing position in the horizontal direction from the start of the piercing step until the completion of the piercing step. The plasma torch is moved in a predetermined direction including at least the horizontal direction after the piercing step is completed.

A component having a first part and a second part. The first part has a first interface surface and the second part has a second interface surface that is connected to the first interface surface via a bond. A digital profile of the first interface surface is used to shape the second interface surface to fit against the first interface surface with minimal to no gap therebetween before forming the bond. The digital profile is developed by scanning the first part with a scanner and the second part is shape by cutting or milling with a robotic arm that acts in accordance with a digital profile data read by a controller. The two parts are bonded via a weld that is automatically guided by the digital profile.

A component having a first part and a second part. The first part has a first interface surface and the second part has a second interface surface that is connected to the first interface surface via a bond. A digital profile of the first interface surface is used to shape the second interface surface to fit against the first interface surface with minimal to no gap therebetween before forming the bond. The digital profile is developed by scanning the first part with a scanner and the second part is shape by cutting or milling with a robotic arm that acts in accordance with a digital profile data read by a controller. The two parts are bonded via a weld that is automatically guided by the digital profile.

A method for stripping ceramic from a component includes applying a liquid to a ceramic coating of an outer surface of the component. The method also includes directing a plurality of laser pulses at the ceramic coating with the applied liquid in order to spall the ceramic coating from the component.

A method for stripping ceramic from a component includes applying a liquid to a ceramic coating of an outer surface of the component. The method also includes directing a plurality of laser pulses at the ceramic coating with the applied liquid in order to spall the ceramic coating from the component.

A method processes a belt with a belt body that has a first surface and a second surface connected to each other by side surfaces. Each side surface is smaller than each surface. At least one of the surfaces of the belt is coated with a coating having at least one layer. In a step i) the coating is interrupted or left out in a region of the belt to be processed, and a recess, in particular a gap-shaped or hole-shaped recess, interrupting the coating is produced in the region to be processed, which recess is at least partially delimited by opposite sections of the at least one coating. In a step ii) directly thereafter or after further intermediate steps, the recess is at least partially filled up with at least one material of the same type as that of the at least one layer of the coating.

A method processes a belt with a belt body that has a first surface and a second surface connected to each other by side surfaces. Each side surface is smaller than each surface. At least one of the surfaces of the belt is coated with a coating having at least one layer. In a step i) the coating is interrupted or left out in a region of the belt to be processed, and a recess, in particular a gap-shaped or hole-shaped recess, interrupting the coating is produced in the region to be processed, which recess is at least partially delimited by opposite sections of the at least one coating. In a step ii) directly thereafter or after further intermediate steps, the recess is at least partially filled up with at least one material of the same type as that of the at least one layer of the coating.

A method of fabricating a grinding tool includes providing an abrasive particle, and cutting the abrasive particle with a laser beam so that the cut abrasive particle has four tips adjacent to one another, a cavity of a generally cross shape extending between the four tips, and a material discharge surface at an end of the cavity. The laser beam is applied along a plurality of parallel first cutting lines and a plurality of parallel second cutting lines, the second cutting lines intersecting the first cutting lines, at least the first cutting lines being grouped into a first, a second and a third region, the second region being located between the first and third regions, a number of cutting passes repeated along each of the first cutting lines in each of the first and third regions increasing as the first cutting line is nearer to the second region, and the laser beam repeating a plurality of cutting passes along each of the first cutting lines in the second region.

A method of fabricating a grinding tool includes providing an abrasive particle, and cutting the abrasive particle with a laser beam so that the cut abrasive particle has four tips adjacent to one another, a cavity of a generally cross shape extending between the four tips, and a material discharge surface at an end of the cavity. The laser beam is applied along a plurality of parallel first cutting lines and a plurality of parallel second cutting lines, the second cutting lines intersecting the first cutting lines, at least the first cutting lines being grouped into a first, a second and a third region, the second region being located between the first and third regions, a number of cutting passes repeated along each of the first cutting lines in each of the first and third regions increasing as the first cutting line is nearer to the second region, and the laser beam repeating a plurality of cutting passes along each of the first cutting lines in the second region.