Space Profits
The material wealth of space is in the minor planets. We may want to stockpile materials at the Earth–Moon system's L5 Lagrangian point.
General Interest
Electrical energy, Medical Facilities, Spacecraft inspection - repair Includes space welding, initially employed on the Russian Soyuz 6 mission in 1969, and the U.S.
demonstrated the feasibility of electron beam welding on Skylab 1 in 1973. Though NASA ended its electron beam welding program in 1996, the technology remains viable.
Trip to asteroid, Space Burial, Move to space assistance / launch arrangements for new residents (Jobs, Business Opportunities, Air quality, Adventure).
Space cars Interconnectable Multi-purpose, hauling supplies, private transport, homes. Can make larger with more cars. SpaceCity Storage space. For unwanted weight, etc. Food (Why launch it?)Fuel (Why launch it?) Hydrogen and Oxygen propellants. Some asteroids contain Uranium. Computers, Monitors, Communication devices
Home & Liesure
SpaceCity Health & recreation facilities, Trip to Mars, Trip to moon Fly Around the Moon Trip to SpaceCity, Space athletic events
SpaceCity Living quarters, Contact lenses, Jewelry made in space
Of Gov't, Org'l, business, industrial, commercial, and entreprenuerial interest
General labor - labor pool, Manufacturing set-up/svcs (In space, manufacturing is cheap and fast.) Includes thermal spray manufacturing, using heat and kinetic energy to melt and deposit material as a coating or structure could be used to coat parts and structures of space infrastructure, or even to form entirely new parts. It could also be used to restore or repair hardware in space. ..... AND free form fabrication, to quickly design and produce replacement parts in space, no longer relying on delivery of new parts from Earth. ..... The environment of space changes the microscopic structure of materials in a number of beneficial ways. Researchers are learning to manipulate fundamental processes such as solidification and combustion to develop greater manufacturing capabilities. Construction Services, Repositioning of asteroid for commerce (such as placing in a the L5 LaGrange point)
Materials extraction - processing, Asteroid mining, Comet mining - Volatile extraction from ice is easier than trying to split oxidized metals into oxygen and metal. Comets are rich in water, nitrogen, and organic compounds, readily available." Robotics design, Lab set-up - assistance, Metallurgy, Repositioning of dangerous asteroids heading for earth, moon, etc. Positioning Satellites, Science and Space Technology Development, Remote Sensing, Space launch, Space Transfer and Repair, Hazardous Waste Disposal - lunar far side? Make & Place Large lasers in orbit to fill ozone gap. , Microencapsulation for delivering cells and drugs into the body for medical treatments Assist making of Movies & TV shows in space.
---Raw materials
Aluminum [Al]. Semiconductor.Antimony [Sb]. Semiconductor.Arsenic [As]. Semiconductor. For making VLI computer chips. Can be processed into large crystals in microgravity.
Cadmium [Cd]. Semiconductor. Gallium [Ga]. Semiconductor. Carbon [C]. For steel making and extracting metals. Chromium [Cr]. For steel making. Cobalt [Co]. Compounded from
carbonyl process for use in casting metal alloys. Separated from PGM by high-pressure with CO, with CO-H2O mixtures, or by wet chemical techniques. Copper [Cu]. Semiconductor.
Germanium [Ge]. Semiconductor. Precious Metal. Gold [Au]. Good for radiation shielding in space suits and making solar photovoltaic arrays. Precious Metal. Indium [In]. Semiconductor.
Iron [Fe]. Construction. Steel making. A concrete-iron mix makes for a less thick radiation shield compared to concrete only. Manganese [Mn]. For steel making. Molybdenum [Mo]. For steel making.
Nickel [Ni]. Construction. For steel making. PGM is extracted from Nickel-base mass. Phosphorus [P]. Semiconductor. PGM. Platinum-Group Metals (Platinum[Pt], Iridium[Ir], Osmium[Os],
Palladium[Pd], Rhenium[Re], and Rubidium[Rb]). Used as oxidation catalysts in air pollution abatement processes to remove organic vapors, odors or carbon monoxide. The automotive industry is the
principal consumer of PGM as oxidation catalysts in catalytic converters to treat exhaust emissions. The primary medical use of PGM is in cancer chemotherapy. Other medical uses include
platinum-iridium alloys in prosthetic and biomedical devices. PGM are good for solar photovoltaic arrays to supply power. Its catalyst properties make it an excellent electrode for
fuel cells. Chemical uses include catalysts for organic synthesis, such as hydrogenation, dehydrogenation and isomerization. Rhenium is important in rocket motors as a refractory
material, particularly in the form of alloys and coatings. It resists the highly oxidative gases in rocket exhausts. Platinum, palladium and a variety of complex gold-silver-copper alloys are
used in dental restoration. PGM can be used as a corrosion-resistant coating. Precious metals. Platinum alloys are used in jewelry. The exact same process used to
extract and separate precious metals from the world's largest nickel ore mine at the Sudbury Astrobleme in Canada is easily used in space, and is a simple process using only carbon, sulfur and
oxygen, all asteroid derived. Rhodium [Rh]. Precious Metal. Ruthenium [Ru]. Precious Metal. Selenium [Se]. Semiconductor. Silicon [Si]. Semiconductor.
Sulphur [S]. For extracting metals. Tellurium [Te]. Semiconductor. Titanium [Ti]. Uranium [U]. Nuclear power. Vanadium [V]. For steel making. Oxygen [O2]. Life Support, propellant, fuel,
extracting metals. Nitrogen [N2]. Life support. Air (buffer gas). Hydrogen [H2]. Propellent, fuel.
Helium 3. For cryogenics. Useful for creating electricity via fusion. From moon, asteroids, or produced from tritium (Hydrogen 3) degradation using particle accelerators.
Water [H2O]. Life Support. (Why launch it?). [CO2]. Agriculture. [CH3OH]. Fuel. [CH4]. Fuel. [CO]. Metallurgy. [Fe(CO)5]. Metallurgy.
[H2O2]. Oxidizer. [H2S]. Metallurgy. [H2SO4]. Metallurgy. [NH3]. Agriculture. [NH4OH]. Agriculture. [Ni(CO)4]. Metallurgy. [SO2]. Refrigerant.
[SO3]. Metallurgy. To make H2SO4. Steel. Carbon steel, most widely used, is Iron with from less than 0.015 to slightly more than 2 percent carbon. Used for appliances, machinery, ships. Low-alloy steel is
Iron with up to 8 percent alloying elements. Used for machine parts, hand tools, gears. Alloying elements include: carbon, manganese, silicon, nickel, chromium, molybdenum, vanadium. Stainless
steel resists corrosion and oxidation. Used in jet-engine parts, chemical equipment, and cutting tools. This is Iron with from 16 to 26 percent chromium and up to 35 percent nickel.
Silicates. Can be used to produce Oxygen and Iron through the electroysis of molten ferromagnesian silicates. Common leftover material. For radiation shielding. Zeolites used in the chemical industry.
Aerogels for windows. Aerogels made in space is better than earth's. More here.
Glass made in space is better than glass made on earth and no container is needed. More here.
Ball bearings are made better in space. More here.
---Finished goods Space crafts, Products and components according to customer specifications. Launching anything from earth is expensive. Weight reduction helps reduce costs. Having Products , especially such heavy items as hull plates and radiation shielding, available in space means lower launch costs and more affordable space initiatives and projects. Earth lander., Earth lander-launcher, Moon lander-launcher, Mars lander-launcher,
SpaceCity. Artificial gravity, remote sensing, attitude control, electrical power, and communications. HM Platform. Heavy Manufacturing Space Facility with artificial gravity, attitude control, electrical power, and communications Dock/refueling/maintenance platform. Space dock. A refueling station and maintenance platform and for parking craft (ie. waiting, resting, or while using a more appropriate craft) with attitude control,
electrical power, and communications. Space Refueling Lab. Facility with artificial gravity, attitude control, electrical power, and communications
A Platform. Astronomical facility with attitude control, electrical power. Electrical power system for earth.Solar-power satellites beam power to earth in the form of microwave energy. Construction is made cheaper if the heavy components of the satellite are fabricated in space from asteroidal materials. Space Solar Energy
SpaceCity Business space.
SpaceCity Light manufacturing space.
SpaceCity Agricultural area
Gear (space suits, tanks, cables, harpoons, etc)(Why launch it?)
Custom built robots
Protein crystals as a drug delivery vehicle.
Latex spheres for microscope calibration. Ball bearings, Advertising space on or inside structures.
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