Difference between revisions of "Timeline of SpaceX"

From Timelines
Jump to: navigation, search
Line 17: Line 17:
 
| 2001 || October || ||  {{w|Elon Musk}} travells to {{w|Moscow with}} aerospace supplies fixer {{w|Jim Cantrell}}, and {{w|Adeo Ressi}} (Musk's best friend from college), to buy refurbished ICBMs ([[w:Dnepr (rocket)|Dnepr]]) that could send payloads into space.<ref name=A&Ssmithsonian201201>{{cite news |url=http://www.airspacemag.com/space/is-spacex-changing-the-rocket-equation-132285884/?no-ist |title=Is SpaceX Changing the Rocket Equation? |author=Andrew Chaikin |work=Air & Space Smithsonian |accessdate=4 December 2017 |archiveurl=https://www.webcitation.org/641B56u8L?url=http://www.airspacemag.com/space-exploration/Visionary-Launchers-Employees.html?c=y&page=2 |archive-date=December 18, 2011 |quote=''Significantly, the Merlin engines—like roughly 80 percent of the components for Falcon and Dragon, including even the flight computers—are made in-house. That’s something SpaceX didn’t originally set out to do, but was driven to by suppliers’ high prices. Mueller recalls asking a vendor for an estimate on a particular engine valve. 'They came back [requesting] like a year and a half in development and hundreds of thousands of dollars. Just way out of whack. And we’re like, ‘No, we need it by this summer, for much, much less money.’ They go, ‘Good luck with that,’ and kind of smirked and left.' Mueller’s people made the valve themselves, and by summer they had qualified it for use with cryogenic propellants. 'That vendor, they iced us for a couple of months,' Mueller says, 'and then they called us back: ‘Hey, we’re willing to do that valve. You guys want to talk about it?’ And we’re like, ‘No, we’re done.’ He goes, ‘What do you mean you’re done?’ ‘We qualified it. We’re done.’ And there was just silence at the end of the line. They were in shock.' That scenario has been repeated to the point where, Mueller says, 'we passionately avoid space vendors.'' |deadurl=yes |df= }}</ref>
 
| 2001 || October || ||  {{w|Elon Musk}} travells to {{w|Moscow with}} aerospace supplies fixer {{w|Jim Cantrell}}, and {{w|Adeo Ressi}} (Musk's best friend from college), to buy refurbished ICBMs ([[w:Dnepr (rocket)|Dnepr]]) that could send payloads into space.<ref name=A&Ssmithsonian201201>{{cite news |url=http://www.airspacemag.com/space/is-spacex-changing-the-rocket-equation-132285884/?no-ist |title=Is SpaceX Changing the Rocket Equation? |author=Andrew Chaikin |work=Air & Space Smithsonian |accessdate=4 December 2017 |archiveurl=https://www.webcitation.org/641B56u8L?url=http://www.airspacemag.com/space-exploration/Visionary-Launchers-Employees.html?c=y&page=2 |archive-date=December 18, 2011 |quote=''Significantly, the Merlin engines—like roughly 80 percent of the components for Falcon and Dragon, including even the flight computers—are made in-house. That’s something SpaceX didn’t originally set out to do, but was driven to by suppliers’ high prices. Mueller recalls asking a vendor for an estimate on a particular engine valve. 'They came back [requesting] like a year and a half in development and hundreds of thousands of dollars. Just way out of whack. And we’re like, ‘No, we need it by this summer, for much, much less money.’ They go, ‘Good luck with that,’ and kind of smirked and left.' Mueller’s people made the valve themselves, and by summer they had qualified it for use with cryogenic propellants. 'That vendor, they iced us for a couple of months,' Mueller says, 'and then they called us back: ‘Hey, we’re willing to do that valve. You guys want to talk about it?’ And we’re like, ‘No, we’re done.’ He goes, ‘What do you mean you’re done?’ ‘We qualified it. We’re done.’ And there was just silence at the end of the line. They were in shock.' That scenario has been repeated to the point where, Mueller says, 'we passionately avoid space vendors.'' |deadurl=yes |df= }}</ref>
 
|-
 
|-
 +
 
| 2008 || September 28 || || Spacex achieves the first privately funded liquid-fueled rocket to reach orbit ([[w:Falcon 1|Falcon 1 Flight 4]]).<ref name="THE RISE AND RISE OF SPACEX">{{cite web|title=THE RISE AND RISE OF SPACEX|url=https://www.yaabot.com/8479/rise-rise-spacex/|website=yaabot.com|accessdate=4 December 2017}}</ref>
 
| 2008 || September 28 || || Spacex achieves the first privately funded liquid-fueled rocket to reach orbit ([[w:Falcon 1|Falcon 1 Flight 4]]).<ref name="THE RISE AND RISE OF SPACEX">{{cite web|title=THE RISE AND RISE OF SPACEX|url=https://www.yaabot.com/8479/rise-rise-spacex/|website=yaabot.com|accessdate=4 December 2017}}</ref>
 
|-
 
|-

Revision as of 17:36, 7 December 2017

This is a timeline of Spacex.

Big picture

Time period Development summary More details

Full timeline

Year Month and date Event type Details
2001 Elon Musk conceptualizes "Mars Oasis", a project to land a miniature experimental greenhouse containing seeds with dehydrated gel on Mars to grow plants on Martian soil, "so this would be the furthest that life's ever traveled"[1] in an attempt to regain public interest in space exploration and increase the budget of NASA.[2][3]
2001 October Elon Musk travells to Moscow with aerospace supplies fixer Jim Cantrell, and Adeo Ressi (Musk's best friend from college), to buy refurbished ICBMs (Dnepr) that could send payloads into space.[4]
2008 September 28 Spacex achieves the first privately funded liquid-fueled rocket to reach orbit (Falcon 1 Flight 4).[5]
2008 December NASA awards SpaceX Commercial Resupply Services (CRS) contract for US$1.6 billion.[6][7]
2009 July Falcon 1 Flight 5 becomes the first privately developed liquid fuel rocket to deliver a commercial satellite to Earth orbit.[7]
2010 June Falcon 9 meets 100% of mission objectives on the first flight.[7]
2010 December 8 SpaceX Dragon becomes the first privately developed spacecraft in history to re-enter from low-Earth orbit.[7]
2010 December 9 Spacex becomes the first privately funded company to successfully launch, orbit, and recover a spacecraft (Falcon 9 Flight 2).[5][7]
2012 May 25 Spacex becomes the first private company to send a spacecraft to the International Space Station (Falcon 9 Flight 3).[5][7]
2013 October The Grasshopper program finishes with a 744m flight, hover, and landing.[7]
2013 December 3 Spacex becomes the first private company to send a satellite into geosynchronous orbit (Falcon 9 Flight 7).[5]
2013 December Falcon 9 reaches Geosynchronous Transfer Orbit.[7]
2014 June Falcon 9 reusable test vehicle flies 1000 meters.[7]
2014 September NASA awards SpaceX a US$2.6 billion contract to fly American astronauts.[7]
2015 January SpaceX begins a series of first stage landing attempts on an autonomous spaceport drone ship.[7]
2015 May Crew Dragon tests launch abort system, an emergency escape measure designed to pull the crew capsule free of its Falcon 9 rocket in the event of a launch failure.[7][8]
2015 December 22 Spacex achieves the first landing of an orbital rocket's first stage on land (Falcon 9 Flight 20).[5][7]
2016 April 8 Spacex achieves the first landing of an orbital rocket's first stage on an ocean platform (Falcon 9 Flight 23).[5][7]
2017 March 30 Spacex achieves the first controlled flyback and recovery of a payload fairing (Falcon 9 Flight 32)[9][7]
2017 June 3 Spacex launches the first reflight of a commercial cargo spacecraft (Falcon 9 Flight 35).[10][7]

Meta information on the timeline

How the timeline was built

The initial version of the timeline was written by User:Sebastian.

Funding information for this timeline is available.

What the timeline is still missing

[1] [2] [3] [4] [5] [6] [7]

Timeline update strategy

See also

External links

References

  1. "Miles O'Brien – Journalist". 
  2. McKnight, John Carter (25 September 2001). "Elon Musk, Life to Mars Foundation". Mars Now, a weekly column. Space Frontier Foundation. 
  3. Musk, Elon. "Risky Business". IEEE Spectrum. Retrieved 4 December 2017. 
  4. Andrew Chaikin. "Is SpaceX Changing the Rocket Equation?". Air & Space Smithsonian. Archived from the original on December 18, 2011. Retrieved 4 December 2017. Significantly, the Merlin engines—like roughly 80 percent of the components for Falcon and Dragon, including even the flight computers—are made in-house. That’s something SpaceX didn’t originally set out to do, but was driven to by suppliers’ high prices. Mueller recalls asking a vendor for an estimate on a particular engine valve. 'They came back [requesting] like a year and a half in development and hundreds of thousands of dollars. Just way out of whack. And we’re like, ‘No, we need it by this summer, for much, much less money.’ They go, ‘Good luck with that,’ and kind of smirked and left.' Mueller’s people made the valve themselves, and by summer they had qualified it for use with cryogenic propellants. 'That vendor, they iced us for a couple of months,' Mueller says, 'and then they called us back: ‘Hey, we’re willing to do that valve. You guys want to talk about it?’ And we’re like, ‘No, we’re done.’ He goes, ‘What do you mean you’re done?’ ‘We qualified it. We’re done.’ And there was just silence at the end of the line. They were in shock.' That scenario has been repeated to the point where, Mueller says, 'we passionately avoid space vendors. 
  5. 5.0 5.1 5.2 5.3 5.4 5.5 "THE RISE AND RISE OF SPACEX". yaabot.com. Retrieved 4 December 2017. 
  6. "NASA Awards Space Station Commercial Resupply Services Contracts". nasa.gov. Retrieved 6 December 2017. 
  7. 7.00 7.01 7.02 7.03 7.04 7.05 7.06 7.07 7.08 7.09 7.10 7.11 7.12 7.13 7.14 7.15 "MAKING HISTORY". spacex.com. Retrieved 6 December 2017. 
  8. "SpaceX Tests 'Revolutionary' Dragon Launch Escape System to Save Astronauts". space.com. Retrieved 6 December 2017. 
  9. "SpaceX, In Another First, Recovers $6 Million Nose Cone From Reused Falcon 9". Fortune.com. Retrieved 4 December 2017. 
  10. spacexcmsadmin (4 December 2017). "ZUMA MISSION".