Abstract: Girts, systems incorporating girts, and methods of using girts are disclosed. In some embodiments, the girts are formed via an efficient metal stamping and folding process. The girts have a high mechanical strength, are easily manufactured, allow for water drainage and air circulation, improve thermal performance, decrease sound transmission, and reduce material, transportation and labor costs relative to traditional girts.

Abstract: Termination girts, systems incorporating termination girts, and methods of using termination girts are disclosed. The termination girts are configured to abut adjacent building systems such as windows, doors, interconnected walls and the like with a clearance close to zero, which allows exterior cladding on a structure to be hung in a seamless, smooth design without added gaps or reveals. In some embodiments, the termination girts are used, either with other types of girts or exclusively, to produce a continuous horizontal or vertical rail system on the exterior of a structure to support cladding covering the structure and, optionally, insulation mounted on the exterior of the structure. The termination girts have a high mechanical strength, are easily manufactured, allow for water drainage and air circulation, can be mounted in both horizontal and vertical orientations, and are especially useful near the intersection of perpendicular surfaces.