An energy dissipating link for a tether includes: an elongated base having opposite, first and second end portions; a first touch fastener permanently coupled to the base proximate the first base end portion; and a second touch fastener permanently coupled to the base proximate the second base end portion. The second touch fastener is engageable with the first touch fastener to form a releasable closure defining a shear plane. With the first and second touch fasteners engaged to transmit a tensile load between the first and second end portions, and with the engaged touch fasteners loaded in shear in the shear plane, the base includes a longitudinally slack idler section between the first and second end portions. The idler section of the base is configured to transmit tensile load upon an energy-dissipating shear disengagement of the first and second touch fasteners by a tensile overload.

An energy dissipating link includes: an elongated base having opposite, first and second end portions; and a plurality of touch fasteners permanently coupled to the base, each of the plurality of touch fasteners releasably engageable with at least one other of the touch fasteners. The plurality of touch fasteners is arranged on the base to form first and second closures, each including engagements between respective fastening elements of two or more of the plurality of touch fasteners. The plurality of touch fasteners is configured such that: in response to a tensile load applied to the end portions of the base, the engaged touch fasteners of the first closure are loaded in shear along a shear plane; and in response to a tensile overload condition causing shear displacement of the touch fasteners of the first closure, the engaged touch fasteners of the second closure are subjected to a peel load.

A bracket assembly includes a first flange portion with a first flange aperture. A swivel portion has first and second leg portions, each with an aperture, extending outward from a second flange portion with an aperture. The first and second leg portions define a first opening that receives the first flange portion. The first flange aperture, the first leg aperture, and the second leg aperture align and the first fastener extends therethrough. The swivel portion pivots about the first fastener in a first direction. A connector has first and second prongs, each with an aperture, defining a second opening that receives the second flange portion. The first prong aperture, the second prong aperture, and the second flange aperture align and the second fastener extends therethrough. The connector pivots about the second fastener in a second direction opposite the first direction.

A cover for an energy absorber comprises front and rear sides having first and second legs extending downward forming an upside down V-shape. The front and rear sides define a cavity therebetween and an opening provides access to the cavity proximate a top portion of the front side and a top of the rear side. The top portion is configured and arranged to engage a connector. The top portion includes a first portion of a fastener, and the top includes a second portion of the fastener. The first and second portions releasably interconnect the top portion and the top. A first strap is operatively connected to the first leg and is configured and arranged to engage a first shoulder strap of the safety harness. A second strap is operatively connected to the second leg and is configured and arranged to engage a second shoulder strap of the safety harness.