SpaceX CRS-4

"CRS-4" redirects here. For the Orbital Sciences' CRS-4, see Cygnus CRS Orb-4. For the Sardinian research centre, see CRS4.

SpaceX CRS-4

SpaceX CRS-4 Dragon approaching ISS on 23 September 2014

Mission type

ISS resupply

Operator

NASA

COSPAR ID

2014-056A

SATCAT №

40210

Mission duration

Planned: 4 weeks^[1]
Elapsed: 34 days

Spacecraft properties

Spacecraft type

Dragon

Manufacturer

SpaceX

Start of mission

Launch date

21 September 2014, 05:52:03 UTC^[1]

Rocket

Falcon 9 v1.1

Launch site

Cape Canaveral SLC-40^[2]^[3]

Contractor

SpaceX

End of mission

Disposal

Recovered

Landing date

25 October 2014, 19:38 UTC

Orbital parameters

Reference system

Regime

51.6 degrees

Planned

Berthing at ISS

Berthing port

Harmony nadir

RMS capture

23 September 2014, 10:52 UTC^[1]

Berthing date

23 September 2014, 13:21 UTC

Unberthing date

25 October 2014, 12:02 UTC

RMS release

25 October 2014, 13:57 UTC

Time berthed

31 days, 22 hours, 41 minutes

Cargo

Mass

2,216 kg (4,885 lb)^[1]

Pressurised

1,627 kg (3,587 lb)

Unpressurised

589 kg (1,299 lb)

NASA SpX-4 mission patch

Commercial Resupply Services
← SpaceX CRS-3	SpaceX CRS-5 →

SpaceX CRS-4, also known as SpX-4,^[4] was a cargo resupply mission to the International Space Station, contracted to NASA, which was launched on 21 September 2014 and arrived at the space station on 23 September 2014. It was the sixth flight for SpaceX's uncrewed Dragon cargo spacecraft, and the fourth SpaceX operational mission contracted to NASA under a Commercial Resupply Services contract. The mission brought equipment and supplies to the space station, including the first 3D printer to be tested in space, a device to measure wind speed on Earth, and small satellites to be launched from the station. It also brought 20 mice for long-term research aboard the ISS.

Launch history

Liftoff of SpaceX CRS-4 aboard a Falcon 9 rocket on 21 September 2014

Dragon capsule splashing down in the Pacific Ocean on 25 October 2014

After a scrub due to poor weather conditions on 20 September 2014, the launch occurred on Sunday, 21 September 2014 at 1:52 a.m. EDT (0552 GMT) from Cape Canaveral Air Force Station in Florida.^[5]

Primary payload

NASA contracted for the CRS-4 mission and therefore determined the primary payload, date/time of launch, and target orbital parameters. The payload consisted of 4,885 pounds of cargo, including 1,380 pounds of crew supplies.^[6] The cargo included the ISS-RapidScat, a Scatterometer designed to support weather forecasting by bouncing microwaves off the ocean’s surface to measure wind speed, which was launched as an external payload to be attached on the end of the station's Columbus laboratory.^[7] CRS-4 also includes the Space Station Integrated Kinetic Launcher for Orbital Payload Systems (SSIKLOPS), which will provide still another means to release other small satellites from the ISS.^[8] In addition, CRS-4 carried a new permanent life science research facility to the station: the Bone Densitometer (BD) payload, developed by Techshot, which provides a bone density scanning capability on ISS for utilization by NASA and the Center for the Advancement of Science in Space (CASIS). The system measures bone mineral density (and lean and fat tissue) in mice using Dual-Energy X-ray Absorptiometry (DEXA). ^[9]

Secondary payloads

SpaceX has primary control over manifesting, scheduling and loading secondary payloads. However, there are certain restrictions included in their contract with NASA that preclude specified hazards on the secondary payloads, and also require contract-specified probabilities of success and safety margins for any SpaceX reboosts of the secondary satellites once the Falcon 9 second stage has achieved its initial low-Earth orbit (LEO).

The CRS-4 mission carried the 3D Printing in Zero-G Experiment to the ISS, as well as a small satellite as secondary payload that will be deployed from the ISS: SPINSAT.^[10] It also brought 20 mice for long-term physiological research in space.^[11]

3D Printing in Zero-G Experiment

The 3D Printing in Zero-G Experiment will demonstrate the use of 3D printing technology in space. 3D printing works by the process of extruding streams of heated material (plastic, metal, etc.) and building a three-dimensional structure layer-upon-layer. The 3D Printing in Zero-G Experiment will test the 3D printer specifically designed for microgravity, by Made In Space, Inc., of Mountain View, California. Made In Space’s customized 3D printer will be the first device to manufacture parts away from planet Earth. The 3D Printing in Zero-G Experiment will validate the capability of additive manufacturing in zero-gravity.^[12] This experiment on the International Space Station is the first step towards establishing an on-demand machine shop in space, a critical enabling component for deep-space crewed missions and in-space manufacturing.^[13]

SPINSAT

SPINSAT is a 56-centimeter (22 in)-diameter sphere built by the US government Naval Research Lab (NRL) to study atmospheric density.

SPINSAT is a technology demonstrator for electric solid propellant (ESP) thrusters from Digital Solid State Propulsion (DSSP).^[10] DSSP's technology utilizes electric propulsion to enable small satellites to make orbital maneuvers that have generally not been possible in the very small, mass-constrained satellites such as CubeSats and nanosats.^[14] This will be DSSP's first flight and will be deployed from the Kibo module airlock. NASA safety experts approved the mission—which by its nature must start with the satellite inside the habitable volume of the ISS—because the satellite's 12 thruster-clusters burn an inert solid fuel, and then only when an electric charge is passed across it.^[15]

Mousetronauts

For more details on this topic, see Animals in space.

The mission also brought 20 mice to live on the ISS for study of the long-term effects of microgravity on the rodents.^[11]

First stage landing attempt

Main article: SpaceX reusable launch system development program

The Falcon 9 first stage for the CRS-4 mission re-entered the atmosphere over the Atlantic Ocean off the East Coast of the United States. Its re-entry was captured on video by a NASA WB-57 aircraft as part of research into high-speed Mars atmospheric entry.^[16]

In November 2015, a panel from this first stage was found floating off the Isles of Scilly in the southwest United Kingdom.^[17]^[18] Although much of the media suggested the part came from the later CRS-7 launch which exploded, SpaceX confirmed it came from CRS-4.^[19]

References

1 2 3 4 "NASA Cargo Launches to Space Station aboard SpaceX Resupply Mission". NASA. Retrieved 2014-09-21.
↑ "Worldwide Launch Schedule". Spaceflight Now. Retrieved 2013-12-25.
↑ "SpaceX Launch Manifest". SpaceX. Retrieved 2013-01-31.
↑ Suffredini, Mike (14 April 2014). "NAC: International Space Station Program Status" (PDF). NASA.gov. p. 18. Retrieved 2014-07-31.
↑ "Worldwide launch schedule". Spaceflightnow. 22 November 2012. Retrieved 2014-07-08.
↑ Poladian, Charles. "SpaceX Launch Delayed, Watch the Rescheduled ISS Cargo Resupply Mission Sunday", International Business Times, 20 September 2014
↑ "Watching Earth's Winds, On a Shoestring | NASA". Nasa.gov. 29 October 2013. Retrieved 2014-05-18.
↑ "Meet Space Station's Small Satellite Launcher Suite | NASA". Nasa.gov. 3 April 2014. Retrieved 2014-05-18.
↑ http://www.nasa.gov/mission_pages/station/research/experiments/1149.html
1 2 "Dragon C2, CRS-1,... CRS-12". Space.skyrocket.de. Retrieved 2014-05-18.
1 2 Bergin, Chris. "SpaceX’s CRS-4 Dragon completes Tuesday arrival at ISS", NASA, 22 September 2014
↑ "Made In Space and NASA to Send First 3D Printer into Space". Made In Space. 31 May 2013. Retrieved 2014-08-04.
↑ "3D Printing In Zero-G Technology Demonstration (3D Printing In Zero-G)". Made In Space. 31 July 2014. Retrieved 2014-08-04.
↑ Messier, Doug (6 April 2014). "Digital Solid State Propulsion is Headed to ISS". Parabolic Arc. Retrieved 2014-04-07.
↑ "Spinsat". Space.skyrocket.de. Retrieved 2014-05-18.
↑ "Commercial Rocket Test Helps Prep for Journey to Mars". NASA. Retrieved November 27, 2015.
↑ Ferreira, Becky (November 27, 2015). "A SpaceX Rocket Washed Up in England After 14 Months at Sea". Vice.com. Retrieved November 27, 2015.
↑ Brian, Matt (November 27, 2015). "Debris from SpaceX's Falcon 9 washes up in England". Engadget. Retrieved November 27, 2015.
↑ "Scilly space rocket Falcon 9 did not explode". BBC News. December 1, 2015. Retrieved December 7, 2015.

External links

Wikimedia Commons has media related to SpaceX CRS-4.

Dragon spaceflights

Past missions	Demo Flight 1 (Dec 2010) Demo Flight 2 (May 2012) SpaceX CRS-1 (Oct 2012) CRS-2 (Mar 2013) CRS-3 (Apr 2014) CRS-4 (Sep 2014) CRS-5 (Jan 2015) CRS-6 (Apr 2015) CRS-7† (Jun 2015) CRS-8 (Apr 2016) CRS-9 (Jul 2016)

Future missions	SpaceX CRS-10 (Jan 2017) CRS-11 (Mar 2017) CRS-12 (Jun 2017) SpaceX CRS-13 (Sep 2017) SpX-DM1 (Nov 2017) CRS-14 (Feb 2018) CRS-15 (Apr 2018) SpX-DM2 (May 2018) CRS-16 (Aug 2018) CRS-17 (Oct 2018) CRS-18 (Dec 2018) CRS-19 (May 2019) CRS-20 (Fall 2019)

See also	Falcon 9 launches Commercial Orbital Transportation Services Commercial Resupply Services Red Dragon Unmanned flights to the ISS

Signs † indicate launch failures.

SpaceX

Vehicles

Rockets

Current	Falcon 9 Full Thrust

In development	Falcon Heavy ITS launch vehicle

Retired	Falcon 1 Falcon 9 v1.0 v1.1

Cancelled	Falcon 1e Falcon 5 Falcon 9 Air

Test vehicles

Grasshopper (retired)
F9R Dev1† (destroyed)
DragonFly

Spacecraft

Engines

Merlin (1A, 1B, 1C, 1D, Vacuum)
Kestrel
Draco
SuperDraco
Raptor
Methalox thruster

Missions

Falcon 1

Demo 1† (FalconSAT-2)
Demo 2† (DemoSat)
Flight 3†
Ratsat
RazakSAT

Falcon 9

Demonstration flights	Dragon Spacecraft Qualification Unit NASA COTS Demo Flight 1 Dragon C2+

Dragon ISS logistics	CRS-1 CRS-2 CRS-3 CRS-4 CRS-5 CRS-6 CRS-7† CRS-8 CRS-9 CRS-10 CRS-11 CRS-12

Commercial satellites	SES-8 Thaicom 6 Orbcomm OG2 × 6 AsiaSat 8 AsiaSat 6 ABS-3A / Eutelsat 115 West B TurkmenAlem 52E Orbcomm OG2 × 11 SES-9 JCSAT-14 Thaicom 8 ABS-2A / Eutelsat 117 West B JCSAT-16 Amos-6† EchoStar 23 Iridium NEXT 1-10 SES-10 Inmarsat-5 F4 SES-11

Scientific satellites	CASSIOPE DSCOVR Jason-3 FormoSat-5

Falcon Heavy

Demo Flight
USAF STP-2
- DSX
- FormoSat-7
- LightSail 2
- GPIM
- DSAC
- ISAT
Red Dragon

Launch sites

Orbital	Cape Canaveral, Florida CCAFS Launch Complex 40 Kennedy Launch Pad 39A Vandenberg, California Launch Complex 4E Brownsville, Texas Boca Chica Kwajalein, Marshall Islands Omelek Island†

Suborbital	McGregor test site New Mexico test site†

Landing sites

Other facilities

Headquarters and factory (Hawthorne, California)
Rocket development and test facility (McGregor, Texas)
Satellite development facility (Redmond, Washington)
Regional offices (Chantilly, Houston, Seattle, Washington DC)

Contracts

Commercial Orbital Transportation Services (COTS)
Commercial Resupply Services (CRS)
Commercial Crew Development (CCDev)
Commercial Crew integrated Capability (CCiCap)

R&D programs

People

Elon Musk (CEO, CTO)
Gwynne Shotwell (President & COO)
Tom Mueller (Vice President of Propulsion Development)

Italics indicate unflown vehicles and future missions or sites. † denotes failed missions, destroyed vehicles and abandoned sites.

Unmanned spaceflights to the International Space Station

2000s	2000 1P 2P 3P 2001 4P 5P 6P 2002 7P 8P 9P 2003 10P 11P 12P 2004 13P 14P 15P 16P 2005 17P 18P 19P 20P 2006 21P 22P 23P 2007 24P 25P 26P 27P 2008 28P ATV-1 29P 30P 31P 2009 32P 33P 34P HTV-1 35P

2010s	2010 36P 37P 38P 39P 40P 2011 HTV-2 41P ATV-2 42P 43P 44P† 45P 2012 46P ATV-3 47P SpX-D HTV-3 48P SpX-1 49P 2013 50P SpX-2 51P ATV-4 52P HTV-4 Orb-D1 53P 2014 Orb-1 54P 55P SpX-3 Orb-2 56P ATV-5 SpX-4 Orb-3† 57P 2015 SpX-5 58P SpX-6 59P† SpX-7† 60P HTV-5 61P OA-4 62P 2016 OA-6 63P SpX-8 64P SpX-9 OA-5 65P† HTV-6

Future	2017 SpX-10 66P OA-7 SpX-11 SpX-12 67P OA-8E SpX-DM1 SpX-13 68P Boe-OFT OA-9E 2018 HTV-7 69P SpX-14 70P SpX-15 OA-10E SpX-16 71P SpX-17 OA-11E SpX-18 2019 HTV-8 72P SpX-19 73P SpX-20 2020 HTV-9 2021 HTV-X1

Programs	Roscosmos Progress ESA ATV JAXA HTV NASA CRS SpaceX Dragon Orbital ATK Cygnus Sierra Nevada Dream Chaser

Signs † indicate missions which failed to reach ISS

← 2013 · Orbital launches in 2014 · 2015 →

January	GSAT-14 – Thaicom 6 – CRS Orb-1 (Flock-1 × 28 · ArduSat-2 · Lituanica SAT-1 · LitSat-1 · SkyCube · UAPSat-1) – TDRS-L

February	Progress M-22M – ABS-2 · Athena-Fidus – Türksat 4A – USA-248 – GPM Core · Ginrei · KSAT-2 · INVADER · OPUSAT · STARS-II · TeikyoSat-3 · ITF-1

March	Ekspress AT1 · Ekspress AT2 – Astra 5B · Amazonas 4A – Kosmos 2494 – Soyuz TMA-12M – Shijian XI-06

April	USA-249 – Sentinel-1A – IRNSS-1B – Progress M-23M – Ofek-10 – USA-250 – EgyptSat 2 – SpaceX CRS-3 · KickSat · PhoneSat 2.5 · ALL-STAR/THEIA · SporeSat · TestSat-Lite – Luch 5V · KazSat-3 – KazEOSat 1

May	Kosmos 2495 – Ekspress AM4R – USA-251 – USA-252 – Kosmos 2496 · Kosmos 2497 · Kosmos 2498 · Kosmos 2499 – ALOS-2 · Raijin-2 · UNIFORM-1 · SOCRATES · SPROUT – Eutelsat 3B – Soyuz TMA-13M

June	Kosmos 2500 – Deimos-2 · KazEOSat 2 · Hodoyoshi 3 · Hodoyoshi 4 · AprizeSat 9, 10 · BRITE-Montreal · BRITE-Toronto · BugSat 1 · SaudiSat-4 · TabletSat-Aurora · UniSat-6 (AeroCube-6 · ANTELSAT · Lemur-1 · Tigrisat) · DTUSat-2 · Duchifat-1 · NanoSatC-Br 1 · PACE · Perseus-M × 2 · PolyITAN-1 · POPSAT-HIP-1 · QB50P1 · QB50P2 · Flock-1c × 11 – SPOT 7 · CanX-4 · CanX-5 · AISat · VELOX-I

July	OCO-2 – Gonets-M 18, 19, 20 – Meteor-M 2 · AISSat-2 · DX-1 · Relek · SkySat-2 · TechDemoSat-1 · UKube-1 – O3b × 4 (FM3, FM6, FM7, FM8) – CRS Orb-2 (Flock-1b × 28 · TechEdSat-4) – Orbcomm-2 × 6 – Foton-M No.4 – Progress M-24M – USA-253 · USA-254 · USA-255 – Georges Lemaître ATV

August	USA-256 – AsiaSat 8 – Yaogan 20 A, B, C – WorldView-3 – Gaofen 2 · Heweliusz – Galileo FOC-1 · Galileo FOC-2

September	Chuangxin 1-04 · Lingqiao – AsiaSat 6 – Yaogan 21 · Tiantuo 2 – MEASAT 3b · Optus 10 – USA-257 – SpaceX CRS-4 – Soyuz TMA-14M – Olimp-K – Shijian XI-07

October	Himawari 8 – IRNSS-1C – Intelsat 30 · ARSAT-1 – Yaogan 22 – Ekspress AM6 – Chang'e 5-T1 · 4M – Shijian 11-08 – Cygnus CRS Orb-3 (Arkyd-3 · Flock-1d × 26 · GOMX-2 · RACE) – Progress M-25M – USA-258 – Meridian 7

November	Sasuke · Hodoyoshi 1 · Kinshachi 1 · Tsukushi · Tsubame – Yaogan 23 – Yaogan 24 – Kuaizhou 2 – Soyuz TMA-15M – Kosmos 2501

December	Hayabusa 2 · PROCYON · Shinen 2 · DESPATCH – Orion EFT-1 – DirecTV-14 · GSAT-16 – CBERS-4 – Yaogan 25 A, B, C – USA-259 – Yamal-401 – O3b × 4 (FM9 to FM12) – Kondor-E No.2 – IPM – Kosmos 2502 – Resurs-P No.2 – Yaogan 26 – Astra 2G – Fengyun 2-08

Launches are separated by dashes ( – ), payloads by dots ( · ). Manned flights are bolded. Launch failures are in italics. Payloads deployed from other spacecraft are (enclosed in brackets).

This article is issued from Wikipedia - version of the 11/4/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.