06:45 pm
26 September 2020

3D printing tests of rocket ejector and will be a great breakthrough.

3D printing tests of rocket ejector and will be a great breakthrough.

August 31, 2014, United States NASA of engineers are just completed has 3D print rocket Jet device of test, this items research is improve rocket engine a component of performance, due to Jet device within liquid oxygen and gaseous hydrogen with mixed reaction, here of burning temperature can reached 6,000 degrees Fahrenheit, about for 3,315 degrees Celsius, can produced 20,000 pounds of thrust, about for 9 tons around, validation has 3D print technology in rocket engine manufacturing Shang of feasibility. The test work is located in Huntsville, Alabama United States at NASA’s Marshall Space Flight Center here has better rocket engine test conditions, engineers can verify that 3D printing parts ignition performance in your environment. htf
Rocket engine injector high precision processing technology, if you are using FLASHFORGE 3D Printer, you can reduce the complexity of manufacturing, establishment of three-dimensional images of the ejector on the computer, print material for metal powder and laser, at higher temperatures, metal powders can be recast as the way we need to. Kicker has dozens of rocket engine Jet components to build similar components need a certain degree of accuracy, after a successful test of the technology used in the manufacture of RS-25, as the United States main engine at NASA’s future space launch system, the rocket to carry astronauts beyond low-Earth orbit, into the farther deep space. Marshall Center Director of engineering Chris believes that 3D printing technology application in rocket engine injector is only a first step, our aim is to test how 3D printing parts can completely change the rocket’s design and manufacturing, and improve system performance, and more importantly saves time and costs, and less prone to failure.August 31, 2014, United States NASA of engineers are just completed has 3D print rocket Jet device of test, this items research is improve rocket engine a component of performance, due to Jet device within liquid oxygen and gaseous hydrogen with mixed reaction, here of burning temperature can reached 6,000 degrees Fahrenheit, about for 3,315 degrees Celsius, can produced 20,000 pounds of thrust, about for 9 tons around, validation has 3D print technology in rocket engine manufacturing Shang of feasibility. The test work is located in Huntsville, Alabama United States at NASA’s Marshall Space Flight Center here has better rocket engine test conditions, engineers can verify that 3D printing parts ignition performance in your environment.
Rocket engine injector high precision processing technology, if you are using 3D printing technology, you can reduce the complexity of manufacturing, establishment of three-dimensional images of the ejector on the computer, print material for metal powder and laser, at higher temperatures, metal powders can be recast as the way we need to. dfesKicker has dozens of rocket engine Jet components to build similar components need a certain degree of accuracy, after a successful test of the technology used in the manufacture of RS-25, as the United States main engine at NASA’s future space launch system, the rocket to carry astronauts beyond low-Earth orbit, into the farther deep space. Marshall Center Director of engineering Chris believes that 3D printing technology application in rocket engine injector is only a first step, our aim is to test how 3D printing parts can completely change the rocket’s design and manufacturing, and improve system performance, and more importantly saves time and costs, and less prone to failure.According to reports, known as “low orbit he assisted navigation” project is funded by a Germany data analysis companies. Print out the rocket weighs 3 kg, height normal adult height, are the team for 4 years, flowers made out of 6000 pounds. A £ 15,000 grant is established, they will appear at the end of this year, New Mexico, United States space port to launch the rocket. A giant balloons filled with helium will rocket up to 20000 meters, global positioning system device in rocket will launch the rocket engines, rocket Jet speeds will reach about 1610 kilometers per hour. Zhihou, automatic driving system on the rockets will guide the rocket return to Earth, tossing the camera filmed the entire process.rt
United States National Aeronautics and Space Administration (NASA) official website on April 21, 2015, NASA engineers are through the use of additive manufacturing technology to produce the first full size copper alloy rocket engine parts to save cost, NASA space technology official said, this is new milestone in 3D printing technology application in the field of Aeronautics and Astronautics.
On June 22, 2015, State-owned Russia technology group-d print technology to produce a prototype drone, weighed 3.8 kg, 2.4 m wingspan, flying at speeds up to 90 to 100 km/h, range 1 to 1.5 hours.
Company spokesman fulajimier·kutahuofu introduction, 2.5 months for companies to achieve the leap from concept to prototype and production took only 31 hours, costs less than 200,000 rubles (about us $ 3700).