The present disclosure is directed, in certain embodiments, a system for depositing material from a metal feedstock. The system includes a feedstock guide configured to guide a metal feedstock from a material feeder to extend beyond a terminal end of the feedstock guide. The system includes a ceramic collar disposed at the terminal end of the feedstock guide and configured to guide the metal feedstock extending from the terminal end of the feedstock guide to a deposition outlet of the ceramic collar. An induction coil disposed adjacent to the ceramic collar and configured to heat a portion of the metal feedstock within the ceramic collar, such that material of the metal feedstock can be deposited on a surface from the deposition end of the ceramic collar.

Provided is a welding monitoring apparatus that monitors a welding state of a V-convergence region in which a strip-shaped metal sheet is converged in a V-shape, when the metal sheet is cylindrically formed while being conveyed, and both side edges of the metal sheet are heated and melted in a manner of being butted each other while being converged in the V-shape, such that an electric resistance welded steel pipe is manufactured. This welding monitoring apparatus includes an image capturing unit that captures images of a region including the V-convergence region in time series; and an image processing unit that extracts a welding point based on the images captured in time series and detects the presence or absence and a position of irregular arcing at the welding point or on an upstream side of the welding point.

Provided is a welding monitoring apparatus that monitors a welding state of a V-convergence region in which a strip-shaped metal sheet is converged in a V-shape, when the metal sheet is cylindrically formed while being conveyed, and both side edges of the metal sheet are heated and melted in a manner of being butted each other while being converged in the V-shape, such that an electric resistance welded steel pipe is manufactured. This welding monitoring apparatus includes an image capturing unit that captures images of a region including the V-convergence region in time series; and an image processing unit that extracts a welding point based on the images captured in time series and detects the presence or absence and a position of irregular arcing at the welding point or on an upstream side of the welding point.

A method of preparing a pipe-section for welding to another pipe-section to form a pipeline comprising a plurality of said pipe-sections, the method comprising at least the steps of: (i) providing a pipe-section having first and second pipe-ends; (ii) defining a first portion L1 of the longitudinal length of the pipe-section from the first pipe-end being in the range 3% to 40% of the overall length of the pipe-section; (iii) defining a second portion L2 of the longitudinal length of the pipe-section from the end of the first portion L1 towards the second pipe-end; (iv) heating at least the first portion L1 to at least a first temperature T1 of at least 500 C. for at least 2 minutes; (v) maintaining a second temperature T2 of the second portion L2 during step (iv) below the first temperature T1. The invention is able to reduce the strain capacity during reel-laying of a pipeline formed from a plurality of pipe sections formed by the invention.

An induction welder for inductively welding two or more components has an induction coil for applying a magnetic field to a weld site of the two or more components to inductively weld the two or more components together. The induction coil includes a proximal end and a distal end. The distal end is positioned proximate the weld site of the two or more components to inductively weld the two or more components at the weld site. A press is disposed distally of the induction coil such that the press is disposed between the induction coil and the two or more components when the two or more components are being inductively welded together. The press is used to apply pressure to the two or more components and press the two or more components together at the weld site simultaneously with the application of the magnetic field at the weld site.