Energy dissipating touch fastener links

What is claimed is: 1. An energy dissipating link for a tether, the link comprising: 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 engageable with the first touch fastener to form a releasable closure defining a shear plane, wherein, 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 comprises a longitudinally slack idler section within an intermediate portion of the base between the first and second touch fasteners in a longitudinal direction of the base; and wherein 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 along the shear plane by a tensile overload. 2. The energy dissipating link of claim 1 , wherein the longitudinally slack idler section of the base at least partially longitudinally overlaps the closure. 3. The energy dissipating of claim 1 , wherein the first touch fastener comprises an array of discrete fastening elements, each fastening element comprising an upstanding stem extending outwardly from the base and a head extending integrally from a distal end of the stem to a tip. 4. The energy dissipating link of claim 3 , wherein the second touch fastener comprises a field of loops, and wherein the heads of the fastening elements comprise a lower surface forming a crook for retaining the loops. 5. The energy dissipating link of claim 3 , wherein a majority of the discrete fastening elements comprise one-way hooks, with the head of each fastening element of the majority extending forward from the stem in the same direction. 6. The energy dissipating link of claim 1 , wherein a physical characteristic of at least one of the first and second touch fasteners varies along the shear plane, such that the shear strength of the closure remains at least substantially constant throughout a portion of the energy-dissipating shear disengagement. 7. The energy dissipating link of claim 6 , wherein the physical characteristic comprises at least one of density or tenacity of engagement. 8. The energy dissipating link of claim 1 , wherein the idler section of the base is spaced from the first and second touch fasteners by a longitudinal distance along the base. 9. The energy dissipating link of claim 1 , wherein one longitudinal end of the first touch fastener is directly attached to the base and the remainder of the first touch fastener is free standing relative to the base, such that, under the tensile overload between the first and second end portions of the base, the energy-dissipating shear disengagement comprises an opposite free-standing end of the first touch fastener being disengaged by shear from the second touch fastener. 10. The energy dissipating link of claim 1 , wherein the closure formed by engagement of the first and second touch fasteners is a first closure, and further comprising a second releasable closure carried on the base and spaced from the first closure. 11. The energy dissipating link of claim 1 , wherein the shear plane comprises a first shear plane, and further comprising one or more additional touch fasteners forming at least a second shear plane of the closure, the shear planes arranged in parallel, such that, under the tensile overload between the first and second end portions of the base, the engaged fastening components are released simultaneously. 12. The energy dissipating link of claim 11 , wherein the idler section of the base at least partially longitudinally overlaps both the first and second closures. 13. A flexible energy dissipating link for a tether, the link comprising: an elongated and flexible base having first and second longitudinal end portions; and a plurality of flexible touch fasteners permanently coupled to the flexible base between the first and second end portions, each touch fastener engaged with at least one other of the touch fasteners to define a closure having multiple parallel shear planes in which the engaged touch fasteners are simultaneously loaded in response to a tensile load applied along the link at the first and second end portions, and wherein the engaged touch fasteners are configured to disengage by shear along the multiple shear planes in response to a tensile overload between the first and second end portions of the base. 14. The energy dissipating link of claim 13 , wherein at least one of the plurality of touch fasteners comprises a double-sided structure carrying fastening elements on both an upper and lower planar face. 15. The energy dissipating link of claim 14 , wherein the fastening elements on the upper and lower planar faces comprise fields of discrete hook structures comprising an upstanding stem extending outwardly from the base and a head extending integrally from a distal end of the stem to a tip, a majority of the discrete hook structures comprising one-way hooks, with the head of each hook structure of the majority extending forward from the stem in the same direction. 16. The energy dissipating link of claim 13 , wherein one longitudinal end of a first of the plurality of touch fasteners is directly attached to the base and the remainder of the first touch fastener is free standing relative to the base. 17. An energy dissipating link for a tether, the link comprising: an elongated and flexible base having opposite, first and second end portions spaced from one another by a longitudinal distance along the base; a first touch fastener permanently attached to the base solely by a first coupling located entirely within the first end portion of the base; and a second touch fastener permanently attached to the base solely by a second coupling located entirely within the second end portion of the base, wherein the first and second couplings are spaced from one another by at least the longitudinal distance, and wherein the second touch fastener is engaged with the first touch fastener to form a releasable closure comprising a longitudinal shear plane, the engaged touch fasteners configured to disengage by shear along the shear plane in response to a tensile overload between the first and second end portions of the base. 18. The energy dissipating link of claim 17 , wherein the first touch fastener comprises an array of discrete fastening elements, each fastening element comprising an upstanding stem extending outwardly from the base and a head extending integrally from a distal end of the stem to a tip, the second touch fastener comprising a field of loops, and wherein the heads of the fastening elements comprise a lower surface forming a crook for retaining the loops. 19. The energy dissipating link of claim 17 , wherein one longitudinal end of the first touch fastener is directly attached to the base and the remainder of the first touch fastener is free standing relative to the base. 20. The energy dissipating link of claim 17 , wherein the closure formed by engagement of the first and second touch fasteners is a first closure, and further comprising a second releasable closure carried on the base and spaced from the first closure.