A de-coupling mechanism includes a link slidably received in a link aperture of a bracket. A pin is slidably received in a pin bore of the link and a receiving bore of the bracket. A first block is connected to the bracket and includes an initiator receiving passage in communication with the pin bore. An initiator is positioned in the initiator receiving passage and retained against a connecting passage edge and oppositely contacts an end face of a cap connected to the first block. A second block connected to the bracket includes a longitudinal channel having a channel diameter larger than a pin diameter so the pin is freely displaceable into the longitudinal channel. An end face of a retaining cap is connected to a second block end wall. The retaining cap includes a stepped portion having a step diameter smaller than the channel diameter and the pin diameter.

A de-coupling mechanism includes a link slidably received in a link aperture of a bracket. A pin is slidably received in a pin bore of the link and a receiving bore of the bracket. A first block is connected to the bracket and includes an initiator receiving passage in communication with the pin bore. An initiator is positioned in the initiator receiving passage and retained against a connecting passage edge and oppositely contacts an end face of a cap connected to the first block. A second block connected to the bracket includes a longitudinal channel having a channel diameter larger than a pin diameter so the pin is freely displaceable into the longitudinal channel. An end face of a retaining cap is connected to a second block end wall. The retaining cap includes a stepped portion having a step diameter smaller than the channel diameter and the pin diameter.

A fastener release mechanism is provided, which operates utilizing a pressure differential between the mechanism and the surrounding medium. A sealed cavity is fabricated within a shank section of the mechanism. When used in a releasable system, the shank section is exposed to the surrounding medium through a plurality of channel bores fabricated into a head section of the fastener release mechanism. The shank section includes one or more seams or scored areas designed to cause the failure of the shank section when a pressure differential between the pressure of the surrounding medium against the shank section and the pressure within the cavity reaches a designed fracture pressure. The fracture of the shank section can release a part held in place by the threaded section of the fastener release mechanism.