An exterior panel is formed of superplastic materials, including an exterior skin of titanium to accommodate high thermal stresses imposed on hypersonic transport vehicles during hypersonic flight. The exterior skin is fixed to an underlying reinforcing skeletal structure consisting of a superplastic formable reinforcement (SFR) layer, for example a titanium, zirconium, and molybdenum (TZM) alloy, which supports the exterior skin whenever the latter may be heated to temperatures exceeding 1200 degrees Fahrenheit. The exterior panel includes a separate interior skin configured for attachment to a frame member such as a rib, stringer, or spar of the hypersonic transport vehicle. A multicellular core is sandwiched between the exterior and interior skins to impart tensile and compressive strength to the exterior panel. In one disclosed method, the core is superplastic formed and diffusion bonded to the exterior and interior skins.

Method for joining of at least two unweldable materials, non-weldable directly to each other with thermal joining processes in a lap joint configuration, where a two step sequence is used consisting of a first step to apply a thermomechanical or mechanical surface protection layer on the surface of an unweldable material and a second step, where a thermal joining process is used to joint the sprayed layer with an applied layer sheet.

Provided is a spot welding machine able to perform spot welding in which the desired nugget size is formed while suppressing spatter even if the strengths or thicknesses of the metal sheets change, the machine comprising: a pair of electrode tips, a pair of pressing members arranged around the tips, a first power supply, first and second drive mechanisms, and a pressing force control part, wherein the tips and the pressing members are respectively arranged facing each other so as to be able to sandwich a set of sheets between them, the first drive mechanisms give pressing forces pressing the tips against the sheets, the second drive mechanisms give pressing forces pressing the pressing members against the sheets, and the control part independently controls the pressing forces given by the first and second drive mechanisms.

The present invention describes an element supply device of a setting welding device for a bolt-like welding auxiliary joining part with head and shaft. This element supply device comprises two scissor-like arranged clamping jaw levers which define a blind hole channel with a nest-like end position for receiving the welding auxiliary joining part. Further, the element supply device comprises a first actuator and a second actuator by means of which the nest-like end position can be positioned suitably with respect to an electrode punch.

The present invention describes an element supply device of a setting welding device for a bolt-like welding auxiliary joining part with head and shaft. This element supply device comprises two scissor-like arranged clamping jaw levers which define a blind hole channel with a nest-like end position for receiving the welding auxiliary joining part. Further, the element supply device comprises a first actuator and a second actuator by means of which the nest-like end position can be positioned suitably with respect to an electrode punch.

Provided is a method for resistance spot-welding at least two overlapping steel sheets. When an electrode force F after an electric current supply is started changes from an initial electrode force Fi to an electrode force F.sub.h.sup.(1) while a lapse from the start of the electric current supply is between 20 ms and 80 ms inclusive, a suspension of the electric current supply of from 20 ms to 60 ms inclusive is started. Then the electric current supply is resumed when the electrode force F reaches an electrode force F.sub.c.sup.(1).

A method for resistance spot welding a metallic material to a sandwich material that includes a plastic core layer with two metallic cover layers may involve positioning a first electrode onto a surface of the metallic material, positioning an opposing second electrode onto a surface of the metallic cover layer that is apart from the metallic material, heating a region to be welded in such a manner that the plastic core layer in the region to be welded softens, moving the electrodes together to displace the softened plastic from the region to be welded until the two cover layers make contact with one another in a contact region, and welding the metallic cover layers to the metallic material in the contact region by a flow of electrical current across the first and second electrodes. A device by way of which a simple structure with a limited heat-affected zone is also disclosed for performing such methods.

A method for joining of at least two materials, non-weldable directly to each other with thermal joining processes in a lap joint configuration includes a two step sequence including a first step to apply a thermomechanical or mechanical surface protection layer on the surface of a (stainless) steel substrate and a second step where, a thermal joining process is used to weld the sprayed layer with an applied aluminum sheet without having brittle intermetallic phases in the whole material configuration.

The present application relates to a welding positioning apparatus, wherein a press head may be capable of pressing a first component against the second component, and dust generated during welding may be allowed to be collected in a dust collection chamber, and discharged to the outside of the welding positioning apparatus by an external dust extractor to keep the welding environment clean, thereby improving the welding quality.

The present application relates to a welding positioning apparatus, wherein a press head may be capable of pressing a first component against the second component, and dust generated during welding may be allowed to be collected in a dust collection chamber, and discharged to the outside of the welding positioning apparatus by an external dust extractor to keep the welding environment clean, thereby improving the welding quality.