The present disclosure is directed to a system and method for preventing damage to one or more components of the gas turbine engine during a repair procedure. The method includes locating one or more gaps of one or more components of the gas turbine engine in the vicinity of the defect. Further, the method includes filling the one or more gaps with a filler material so as to prevent arcing over the gaps during repair. Thus, the method also includes applying an electrical discharge to the defect.

A system and apparatus for providing a temporary electrical bonding/grounding connection between a first conductive member and a second conductive member. The apparatus includes an electrically conductive cable having first and second ends. At least one magnet assembly is provided for mounting to the first conductive member. The at least one magnet assembly has multiple arcuate surfaces of different radiuses of curvature, with respective surfaces of the multiple arcuate surfaces being configured to properly mount to a respective arcuate surface of the first conductive member. A conductive coupling is provided on the at least one magnet assembly. The conductive coupling is configured to be electrically coupled to the first end of the cable. The second end of the cable is configured to be detachably and electrically coupled to the second conductive member.

The subject innovation described herein generally pertains to a system and method for security features for a device in which functionality of the device can be limited or restricted in accordance with one or more security layers. To access functionality of the device, an appropriate security-related input is required.

Disclosed are systems and methods for controlling welding processes in real-time, or near real-time, as a function of a measured weld pool attribute. The welding-type system includes power conversion circuitry and control circuitry. The power conversion circuitry converts input power to welding-type power for use by a welding torch to form a weld pool. The control circuitry control one or more parameters of the welding-type system during a welding operation based on one or more attributes of the weld pool determined using a sensor configured to capture the one or more attributes of the weld pool. The one or more attributes may include, for example, a width of the weld pool and/or a depth of depression in weld pool.

A portable welding ground clamp attachment system used to attach a welding ground clamp (also called a work clamp or work cable) of an arc welder to a workpiece to be welded. The system is particularly useful in establishing positive connections between a work cable and extended lengths of pipe.

Provided is a weld assembly supported from an arm of a heavy equipment vehicle. The vehicle includes a pipe grabber for manipulating the position of a pipe. The weld assembly integrated with and supported from the manipulator. The weld assembly further includes a conforming ring, a sensor assembly and an orbital welder. The weld assembly is also of a clam shell construction for wrapping around two pipe ends to be welded.

In certain embodiments, a wireless sensor module includes a motion or position sensor configured to detect a defined motion or position of a welding operator. The wireless sensor module also includes memory circuitry configured to store the defined motion or position and an adjustment of an operating parameter of a welding system which corresponds to the defined motion or position. A processor of the wireless sensor module is coupled to the motion or position sensor and the memory circuitry, where the processor is configured to retrieve the adjustment of the operating parameter from the memory circuitry upon detection of the defined motion or position by the motion or position sensor. The wireless senor module further includes a wireless communication device coupled to the processor and configured to transmit the adjustment of the operating parameter to the welding system.

A sensor protecting case is provided with a case main body for housing a sensor main body and a sensor input portion, and a centralized cooling portion that is partitioned off by a partition so as to include at least part of the sensor input portion, and constitutes an independent space within the case main body. The case main body has a first gas inflow port for causing gas to flow into the case main body, and a first gas outflow port for causing the gas to flow out of the case main body. The partition has a second gas inflow port that is connected to the first gas inflow port to cause the gas to flow into the centralized cooling portion, and a second gas outflow port for causing the gas to flow out of the centralized cooling part into the case main body.

A male welding lead connector apparatus including a slidable member to block the male welding lead connector from rotating relative to a female welding lead connector when the two connectors are engaged with one another. A method of locking a male welding lead connector to a female welding lead connector using a special male welding lead connector including a slidable member to block the male welding lead connector from rotating relative to a female welding lead connector when the two connectors are engaged with one another.

In certain embodiments, inductive heating is added to a metal working process, such as a welding process, by an induction heating head. The induction heating head may be adapted specifically for this purpose, and may include one or more coils to direct and place the inductive energy, protective structures, and so forth. Productivity of a welding process may be improved by the application of heat from the induction heating head. The heating is in addition to heat from a welding arc, and may facilitate application of welding wire electrode materials into narrow grooves and gaps, as well as make the processes more amenable to the use of certain compositions of welding wire, shielding gasses, flux materials, and so forth. In addition, distortion and stresses are reduced by the application of the induction heating energy in addition to the welding arc source.