SpaceX Falcon 9 - CRS-6

  SpaceX Falcon 9 V1.1 - CRS-6 - Launching April 14, 2015

Screenshot from SpaceX Webcast of the launch of CRS-6

Mission Rundown: SpaceX Falcon 9 V1.1 - CRS-6

Written: February 2, 2021

Lift Off Time	April 14, 2015 - 20:10:41 UTC - 16:10:41 EDT
Mission Name	CRS-6
Launch Provider	SpaceX
Customer	NASA
Rocket	Falcon 9 V1.1 serial number B1015
Launch Location	Space Launch Complex 40 - SLC-40 Cape Canaveral Air Force Station, Florida
Payload	Cargo Dragon serial number C108-1
Payload mass	1 898 kg ~ 4 184 pounds - That’s without packaging
Where are the Dragon going?	Low Earth Orbit to the International Space Station with an orbit of 199,4 km x 363,8 km x 56,16 degrees
Will they be attempting to recover the first stage?	Yes - A drone ship will be waiting downrange
Where will the first stage land?	A soft controlled test landing on “Just Read The Instruction” placed East of Jacksonville
Will they be attempting to recover the fairings?	No. The Dragon capsule have a jettisonable nose cone and solar panel covers on the Trunk
This will be the:	– 17th flight of all Falcon 9 rockets – 12th flight of Falcon 9 V1.1 rocket – 16th SpaceX launch from SLC-40 – 17th crash landing. Soft, hard, deliberate, Ups... – 7th ocean test landing attempt – 2nd ASDS test landing attempt – 4th mission for SpaceX in 2015
Where to watch Where to read more	SpaceX link Want to know or learn more link visit Tim Dodd

Launch debriefing (This is what happend)

T-00:15:35 Host: T-00:12:59 - T 00:00:00 T+00:01:25 T+00:02:40 T+00:02:49 T+00:03:45 T+00:04:35 T+00:06:43 T+00:08:06 T+00:09:30 T+00:10:07 T+00:12:36 T+00:12:37 - - T+63:18:19 876:54:19 882:31:19

SpaceX live feed at 00:23 Voice of John Insprucker - Mr Rocket Man himself View of “Kennedy” launch control center GO - NO GO Poll count by Flight Director Liftoff at 15:59 - No Flight Telemetry - 20:10:41 UTC MaxQ at 17:24 MECO 18:39, stage separation 18:42 SES-1 at 18:48 Nose cone of at 19:43 - In frame at 20:14:30 UTC Boost brake burn at 20:34 - 35 seconds Entry burn at 22:42 by 3 Merlin 1D for 20 seconds Landing burn at 26:05 by 1 Merlin 1D - Failure SECO at 25:29 and coasting Cargo Dragon C108-1 deployment at 26:05 Solar panel fairings pop of at 28:35 - Rare sight Solar panels deployment at 28:36 Rap up from SpaceX at 29:52 Other events during this CRS-6 mission was: Berthing with ISS Harmony Nadir airlock at 13:29 UTC Released from ISS after 34 days at 11:05 UTC Landed in Pacific Ocean near NRC Quest at 16:42 UTC

ABS-3A Eutelsat 115 B	CRS-6	TürkmenÄlem 52°E  MonacoSAT	CRS-7	ORBCOMM OG2-2
Jason-3	SES-9	CRS-8	JCSAT-14	Thaicom-8

Incoming. Where’s my helmet?

After six successful missions to the International Space Station, including five official resupply missions for NASA, SpaceX’s Falcon 9 rocket and Dragon spacecraft are set to liftoff from Launch Complex 40 at the Cape Canaveral Air Force Station, Florida, for their sixth official Commercial Resupply Services (CRS-6) mission to ISS.

Liftoff was targeted for Tuesday April 14, 2015, at 4:10pm EDT. Cargo Dragon C108-1 will arrive at the station approximately two days after liftoff.

Cargo Dragon C108-1 is expected to return to Earth approximately five weeks later for a parachute assisted splashdown off the coast of southern California.

The Dragon Payload

As of July 2014, the launch was tentatively scheduled by NASA for February 2015, with berthing to the station occurring two days later. However, as a result of delays in the launch of the previous SpaceX CRS-5 mission, CRS-6 launched on 14 April 2015 due to bad weather conditions the day before.

NASA has contracted for the CRS-6 mission from SpaceX and therefore determines the primary payload, date/time of launch, and orbital parameters for the Dragon space capsule. The Dragon spacecraft was filled with 2 015 kg (4,387 pounds) of supplies and payloads, including critical materials to directly support about 40 of the more than 250 science and research investigations that will occur during Expeditions 43 and 44.

A part of this payload includes science experiments from high schools, such as a project from Ambassador High School in Torrance, California.

For its return journey, Dragon will be loaded with 1,370 kilograms (3,020 lb) of hardware to be brought back to Earth.

The Dragon is the only spacecraft that allows a significant amount of hardware to be returned to Earth from the space station – the only other spacecraft capable of returning items is Russia’s Soyuz, which is limited to what can be fit into the spacecraft around its crew of three cosmonauts.

Many of the US and Japanese ISS resupply missions carry CubeSats or other small payloads to be deployed from the space station. CRS-6 is no exception, as the Arkyd-3R technology demonstrator and fourteen Flock-1 Earth observation satellites are hitching a lift to orbit on the launch.

A replacement for the Arkyd-3 satellite, lost in October’s Antares launch failure, Arkyd-3R is a three-unit (3U) CubeSat to be operated by Planetary Resources as a pathfinder for its Arkyd-100 telescope constellation.

The 14 Flock-1e satellites will join Planet Labs’ Flock constellation. Utilizing a very large fleet of short-lived satellites, named Doves, Planet Labs aims to provide quick and updated good-resolution images of the Earth, at a lower cost than with bigger imaging satellites.

The test landing of booster B1015

After the separation of the second stage, SpaceX conducted a flight test and attempted to return the nearly-empty first stage of the Falcon 9 through the atmosphere and land it on a 90x50-meter (300 ft×160 ft) floating platform as an autonomous spaceport drone ship.

The Marmac 300 barge was rebuild and named “Just Read The Instructions” by SpaceX

The unmanned rocket technically landed on the floating platform, however it came down with too much lateral velocity, tipped over, and was destroyed on impact. Elon Musk later explained that the bipropellant valve was stuck, and therefore the control system could not react rapidly enough for a successful landing.

This was SpaceX's second attempt to land the booster on a floating platform after an earlier test landing attempt in January 2015 had to be abandoned due to bad weather conditions. The booster was fitted with a variety of technologies to facilitate the flight test, including grid fins and landing legs to facilitate the post-mission test.

If successful, this would have been the first time in history that a rocket booster was returned to perform a vertical landing.

On 15 April, SpaceX released a video of the terminal phase of the descent, the landing, the tip over, and a small deflagration as the stage broke up on the deck of the first ASDS “Just Read The Instruction” aka. the barge Marmac 300.

Author William Graham link link

Coauthor/Text Retriever Johnny Nielsen link to launch list