The project's cost and schedule depends on the timing of NASA providing SpaceX with authority to proceed with work on the task order. According to project officials, NASA did not provide SpaceX with authority to proceed in October 2020, as originally planned, due to funding constraints from operating under a continuing resolution and NASA having other funding priorities. As a result, there is a risk that the logistics mission may not be capable of supporting the Artemis III mission at the end of 2024. If NASA had provided SpaceX with the authority to proceed in October 2020, SpaceX would have planned to develop the logistics vehicle and launch it in October 2024 to support the Artemis III mission. Project officials said they are evaluating whether using a fast transit capability, which increases the cost of SpaceX's task order, could help the project support the Artemis III mission time frames. This capability increases the speed that the logistics vehicle arrives in lunar orbit by using expendable rather than reusable first stages for all three cores of the Falcon Heavy to increase launch capability.
That's nonsense. A faster departure velocity for NRHO might save days, but it won't save months.
This choice represents a mission tradeoff - the fast transit consists of a tranit duration of three days and requires 450 m/s to perform the NRHO insertion burn; the slow transit consists of a transit duration of 120 days and a 30 m/s NRHO insertion burn.
In addition, project officials said SpaceX is conducting ground-based radiation testing on select components to inform potential design trades NASA may need to make to extend mission duration.
Interesting, gongora.How does one go about doing radiation testing?- X-Ray machines?- Visit Chernobyl or Fukushima?- High-flying aircraft?I suppose the DOE could be of great help for this.
They probably stick the components in/near nuclear reactors (especially for neutrons)
Quote from: eeergo on 05/21/2021 09:03 amThey probably stick the components in/near nuclear reactors (especially for neutrons)AFAIK there aren't any neutrons in deep space given that free neutrons have lifetimes far too short to reach Earth from any plausible neutron source, even if you put in a ludicrous amount of time dilation (and hence energy into them).
Quote from: ugordan on 05/21/2021 09:11 amQuote from: eeergo on 05/21/2021 09:03 amThey probably stick the components in/near nuclear reactors (especially for neutrons)AFAIK there aren't any neutrons in deep space given that free neutrons have lifetimes far too short to reach Earth from any plausible neutron source, even if you put in a ludicrous amount of time dilation (and hence energy into them).But there are "fresh" ones once suitable "cosmic rays", such as protons or atomic nuclei, collide with condensed materials, due to spallation. Neutrons are an essential part of space radiation effects (both biologically, electronically and wrt material ageing).
Quote from: eeergo on 05/21/2021 09:28 amQuote from: ugordan on 05/21/2021 09:11 amQuote from: eeergo on 05/21/2021 09:03 amThey probably stick the components in/near nuclear reactors (especially for neutrons)AFAIK there aren't any neutrons in deep space given that free neutrons have lifetimes far too short to reach Earth from any plausible neutron source, even if you put in a ludicrous amount of time dilation (and hence energy into them).But there are "fresh" ones once suitable "cosmic rays", such as protons or atomic nuclei, collide with condensed materials, due to spallation. Neutrons are an essential part of space radiation effects (both biologically, electronically and wrt material ageing).Yes, but then you're not testing against the actual cosmic ray background since you're inputting neutrons, vs. them being produced via spalling in whatever mix of materials you're testing so the actual doses wouldn't be representative nor would any side effects of that neutron production in situ match the "real world".
You can use beam lines to recreate the same spectra as deep space. That’s how it’s done.
Quote from: DigitalMan on 05/21/2021 06:11 amInteresting, gongora.How does one go about doing radiation testing?- X-Ray machines?- Visit Chernobyl or Fukushima?- High-flying aircraft?I suppose the DOE could be of great help for this.Besides member "1"'s very long and detailed post, and several guesses and chatty replies, the short answer is that radiation testing is available as a commercial service from several providers. Some of these are universities or federal labs. Some are commercial outfits. They provide calibrated doses and fluences of the various types of radiation listed, electrons, protons, gamma rays, all at various energies. There are test zones into which samples and subsystems, either unpowered or powered, can be placed.A few years ago I sent a bunch of blue emitting LEDs on small circuit boards to LLNL, if memory serves, for proton irradiation at a series of doses. This was for a NASA mission. (The result was that they were not affected by doses well above that expected on the mission.) We were piggy-backing on a day of testing of other components from another program.Before that I had a bunch of glass and crystal samples sent to an outfit in Colorado Springs for similar dosing. They are all done in labs with well controlled sources, not exotic locations within incidental emissions.
I understand why NASA prefers not to use Gateway for Artemis III. I suspect that Gateway won't be ready until 2026.
Quote from: yg1968 on 05/21/2021 01:21 amI understand why NASA prefers not to use Gateway for Artemis III. I suspect that Gateway won't be ready until 2026. I would hope they prefer not to use Gateway because it's irrelevant to landing missions, and thus a pointless source of cost and delay if included in the plan.
Quote from: NASA ArtemisBehold Brand new renderings of the Gateway, an orbital outpost around the Moon that provides vital support for #Artemis astronauts on their way to the lunar surface, have been added to the library! View the new 4k images:https://twitter.com/NASAArtemis/status/1397553110743240708
Behold Brand new renderings of the Gateway, an orbital outpost around the Moon that provides vital support for #Artemis astronauts on their way to the lunar surface, have been added to the library! View the new 4k images: