Ignition-quenching systems, apparatuses, and methods

The invention claimed is: 1. An ignition-quenching cover configured to quench an ignition event in a combustible environment triggered by an ignition source associated with a fastener stack, the ignition-quenching cover comprising: a porous body that is gas permeable and that has pores sized to quench ignition in the combustible environment; a cover attachment feature configured to mate with a fastener attachment feature of the fastener stack; and a non-porous frame that is bonded to the porous body and that defines the cover attachment feature; wherein the ignition-quenching cover is configured to cover the fastener stack, wherein the fastener stack is associated with a potential ignition source that may produce the ignition event in the combustible environment. 2. The ignition-quenching cover of claim 1 , wherein the porous body includes one or more porous elements, wherein each of the one or more porous elements independently is a mass of sintered polymer particles, a salt-templated polymer, an inverse-cast polymer, a mesh, a woven fabric, a non-woven fabric, or a felt fabric. 3. The ignition-quenching cover of claim 2 , wherein at least one of the porous elements is a mass of sintered polymer particles. 4. The ignition-quenching cover of claim 2 , wherein the porous elements are each independently selected from the group consisting of a mesh, a woven fabric, a non-woven fabric, and a felt fabric. 5. The ignition-quenching cover of claim 1 , wherein the porous body is composed essentially of polysulfide. 6. The ignition-quenching cover of claim 1 , wherein the porous body has a pore volume that is greater than 50% comprised of pores with an effective diameter between 0.01 mm and 1.5 mm. 7. The ignition-quenching cover of claim 1 , wherein the porous body is flexible and includes a seam at a tip of the ignition-quenching cover, and wherein the porous body is formed by sealing an open-topped porous body with the seam. 8. The ignition-quenching cover of claim 1 , wherein the porous body includes a flexible region at a base of the ignition-quenching cover that is configured to at least partially conform to a support structure around the fastener stack. 9. The ignition-quenching cover of claim 1 , further comprising a locking clip configured to mechanically interlock the porous body of the ignition-quenching cover with the fastener stack, wherein the cover attachment feature includes a flexible portion at a base of the ignition-quenching cover, wherein the locking clip is configured to tighten around the flexible portion to compress the flexible portion against the fastener stack. 10. The ignition-quenching cover of claim 1 , further comprising an attachment structure that includes the cover attachment feature, wherein the cover attachment feature of the attachment structure includes a size-changing material that is at least one of shrink-fit material or grow-fit material, wherein the attachment structure is configured to fit over the fastener stack before the size-changing material is activated, and wherein the attachment structure is configured to mechanically interlock with the fastener attachment feature when the size-changing material is activated. 11. The ignition-quenching cover of claim 1 , wherein the ignition-quenching cover is configured to be affixed to a support structure around the fastener stack by an adhesive. 12. The ignition-quenching cover of claim 1 , wherein the fastener attachment feature includes a radially protruding tab and the cover attachment feature includes an entry slot to receive the radially protruding tab, a locking ramp to engage the tab while twisting the ignition-quenching cover, and a retention slot to positively hold the radially protruding tab, and wherein the ignition-quenching cover is coupled to the fastener stack with the radially protruding tab engaged in the retention slot. 13. The ignition-quenching cover of claim 1 , wherein the ignition-quenching cover includes at least two cover members that selectively mate together to form the ignition-quenching cover, wherein the cover members are configured to mate with the fastener stack received between the cover members, and wherein each of the cover members includes a mating structure that is a portion of the non-porous frame and that is configured to couple to complementary mating structures. 14. The ignition-quenching cover of claim 1 , wherein the non-porous frame includes a cap structure configured to span a tip of the ignition-quenching cover that is distal from a base of the ignition-quenching cover that is configured to receive the fastener stack. 15. The ignition-quenching cover of claim 1 , wherein the non-porous frame includes a flexible region at a base of the ignition-quenching cover that is configured to at least partially conform to a support structure around the fastener stack. 16. The ignition-quenching cover of claim 1 , wherein the non-porous frame is configured to support the porous body, and is an exoskeleton, an endoskeleton, or an internal skeleton for the porous body. 17. The ignition-quenching cover of claim 1 , wherein the porous body at least partially defines a cavity that is configured to receive a plurality of fastener stacks. 18. The ignition-quenching cover of claim 1 , further comprising a locking clip configured to mechanically interlock the non-porous frame of the ignition-quenching cover with the fastener stack, wherein the cover attachment feature includes a channel to accept the locking clip, wherein the fastener attachment feature includes a shoulder, and wherein the locking clip fits within the channel to contact the shoulder. 19. The ignition-quenching cover of claim 1 in combination with the fastener stack and a support structure from which the fastener stack extends, wherein the fastener stack includes the fastener attachment feature; and wherein the ignition-quenching cover encloses the fastener stack into an enclosed volume around the fastener stack, wherein the ignition-quenching cover and the fastener stack are coupled together by engagement of the cover attachment feature and the fastener attachment feature. 20. The combination of claim 19 , wherein the fastener attachment feature includes a radially protruding tab and the cover attachment feature includes an entry slot to receive the radially protruding tab, a locking ramp to engage the radially protruding tab while twisting the ignition-quenching cover, and a retention slot to positively hold the radially protruding tab, and wherein the ignition-quenching cover is coupled to the fastener stack with the radially protruding tab engaged in the retention slot.