What is the procedure if any kind of puncture of any type occurs?
Is there any danger of a Bigelow module being punctured from the inside? Is it sufficiently armored against internal protrusions?What is the procedure if any kind of puncture of any type occurs?
Any news on the timeline/date for the expansion of the module?
I have been unable to find any direct sources on the interior dimensions of BEAM, so I'm going to math it out. BEAM has a pressurized volume of 565 cubic feet (16 cubic meters), per NASAhttps://www.nasa.gov/feature/beam-facts-figures-faqsThe walls of Bigelow BA330 modules are about 18 inches (0.45 m) thick, per PopSci (and a few other places)http://www.popsci.com/can-billionaire-robert-bigelow-create-a-life-for-humans-in-spaceSince BEAM is the prototype for the production Bigelow modules, I'm assuming that the walls are the same thickness. So two walls would be 36 inches or .91 meters. Let's assume the berthing port and bulkhead at the end of the module are half that. With expanded external dimensions of 4 m length x 3.23 m diameter, subtracting the walls give the module internal dimensions of approx. 3.55 length x 2.32 m diameter. Input those numbers for the volume of a cylinder gives us about 15 cubic meters, on the order of what the actual volume is. I presume the wall thicknesses on the berthing port and the bulkhead on the end of the module are actually thinner than assumed, which probably makes up the majority of the discrepancy, and the curve of the walls the rest.
Quote from: whitelancer64 on 01/24/2017 11:13 pmI have been unable to find any direct sources on the interior dimensions of BEAM, so I'm going to math it out. BEAM has a pressurized volume of 565 cubic feet (16 cubic meters), per NASAhttps://www.nasa.gov/feature/beam-facts-figures-faqsThe walls of Bigelow BA330 modules are about 18 inches (0.45 m) thick, per PopSci (and a few other places)http://www.popsci.com/can-billionaire-robert-bigelow-create-a-life-for-humans-in-spaceSince BEAM is the prototype for the production Bigelow modules, I'm assuming that the walls are the same thickness. So two walls would be 36 inches or .91 meters. Let's assume the berthing port and bulkhead at the end of the module are half that. With expanded external dimensions of 4 m length x 3.23 m diameter, subtracting the walls give the module internal dimensions of approx. 3.55 length x 2.32 m diameter. Input those numbers for the volume of a cylinder gives us about 15 cubic meters, on the order of what the actual volume is. I presume the wall thicknesses on the berthing port and the bulkhead on the end of the module are actually thinner than assumed, which probably makes up the majority of the discrepancy, and the curve of the walls the rest.This article gives an internal diameter of 127 inches (3.226 m) and a final length of 158 inches (4.013 m) after full expansion (it does not explicitly state that the length is internal but seems likely).https://blogs.nasa.gov/spacestation/2016/05/28/beam-expanded-to-full-size/Similarly:http://www.americaspace.com/?p=93584
