Difference between revisions of "RT-10 "Hammer" Solid Fuel Booster"

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m (Usage: *only the RT-10 is really useful for explosive decoupling;)
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RT-10's are one-shot rocket boosters often used to help get the massive bulk of a large [[stage|multi-stage]] rocket off the ground. They burn at a constant thrust until they run out of fuel and then cease to work. RT-10 boosters can be stacked with axial decouplers or divided in different groups assigned to different stages, to allow for staggered firing and a longer total burn duration.
 
RT-10's are one-shot rocket boosters often used to help get the massive bulk of a large [[stage|multi-stage]] rocket off the ground. They burn at a constant thrust until they run out of fuel and then cease to work. RT-10 boosters can be stacked with axial decouplers or divided in different groups assigned to different stages, to allow for staggered firing and a longer total burn duration.
  
Another possible use is as a last stage for imparting [[Tutorial:Advanced_Rocket_Design#Delta-V|high impulses]] to a very light payload: in this role, the high mass ratio of the RT-10s offsets the low vacuum [[specific impulse]] and the high thrust allows to complete a burn while in the vicinity of a planet, taking advantage of the [[w:Oberth effect|Oberth effect]]. Since the SRBs cannot be extinguished after ignition, though, this is difficult to put to fruition in KSP since the impulse cannot be easily changed.
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Another possible use is as a last stage for imparting [[Tutorial:Advanced_Rocket_Design#Delta-V|high impulses]] to a very light payload: in this role, the high mass ratio of the RT-10s offsets the low vacuum [[specific impulse]] and the high thrust allows to complete a burn while in the vicinity of a planet, taking advantage of the [[w:Oberth effect|Oberth effect]]. Since SRBs cannot be extinguished after ignition, though, this is difficult to put to fruition in KSP since the impulse cannot be easily changed.
  
 
RT-10 Solid Fuel Boosters are prone to overheating, especially when large numbers are clustered together. The main ways to overcome this are by using custom staging to stagger the firing, and attaching additional parts that are not SRBs (typically [[strut]]s, [[control surface]]s or [[winglet]]s) to act as heat sinks. These 'heat sinks' can provide extra functionality by holding the boosters more securely to the main rocket as well help provide additional control.
 
RT-10 Solid Fuel Boosters are prone to overheating, especially when large numbers are clustered together. The main ways to overcome this are by using custom staging to stagger the firing, and attaching additional parts that are not SRBs (typically [[strut]]s, [[control surface]]s or [[winglet]]s) to act as heat sinks. These 'heat sinks' can provide extra functionality by holding the boosters more securely to the main rocket as well help provide additional control.
  
''Deliberately'' overheating an SRB - such as by stacking two and firing both at once - can let the booster function as an impromptu [[decoupler]]. This is useful if trying to maximize [[Science]] while at the lowest level of the tech tree, before proper decouplers are available.
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''Deliberately'' overheating the RT-10 — such as by stacking two and firing both at once can let the booster function as an impromptu [[decoupler]] sometimes called “explosive decoupling”. This is useful if trying to maximize [[Science]] while at the lowest level of the [[technology tree]], before proper decouplers are available.
  
 
== Description ==
 
== Description ==

Revision as of 11:14, 5 December 2013

RT-10 "Hammer" Solid Fuel Booster
Part image
Solid rocket booster by
Found lying by the side of the road

Radial size Small, Radial mounted
Cost (total) 400.00 Funds
(dry) 175.00 Funds
Mass (total) 3.563 t
(dry) 0.750 t
Drag 0.2-0.3
Max. Temp. 2000 K
Impact Tolerance 7 m/s
Research Basic rocketry.png Basic Rocketry
Unlock cost 1 200 Funds
Since version 0.7.3
Part configuration solidBoosterRT-10_v2.cfg
Maximum thrust (1 atm) 197.90 kN
(vacuum) 227.00 kN
Isp (1 atm) 170 s
(vacuum) 195 s
Fuel consumption 15.83 Units of fuel/s
Thrust vectoring No
Burn time (1 atm) 20.7 s
(vacuum) 23.7 s
Testing Environments
On the surface No
In the ocean No
On the launchpad Yes
In the atmosphere Yes
Sub-orbital Yes
In an orbit Yes
On an escape No
Docked No
Test by staging Yes
Manually testable Yes
Solid fuel 375 Units of fuel

The RT-10 Solid Fuel Booster (also known as an SRB) is a solid rocket booster used to provide a short burst of additional thrust to a rocket. It comes as a single unit. The engine and fuel tank are one single part which means that it isn't possible increase the burn time for it by adding more fuel tanks.

Usage

RT-10's are one-shot rocket boosters often used to help get the massive bulk of a large multi-stage rocket off the ground. They burn at a constant thrust until they run out of fuel and then cease to work. RT-10 boosters can be stacked with axial decouplers or divided in different groups assigned to different stages, to allow for staggered firing and a longer total burn duration.

Another possible use is as a last stage for imparting high impulses to a very light payload: in this role, the high mass ratio of the RT-10s offsets the low vacuum specific impulse and the high thrust allows to complete a burn while in the vicinity of a planet, taking advantage of the Oberth effect. Since SRBs cannot be extinguished after ignition, though, this is difficult to put to fruition in KSP since the impulse cannot be easily changed.

RT-10 Solid Fuel Boosters are prone to overheating, especially when large numbers are clustered together. The main ways to overcome this are by using custom staging to stagger the firing, and attaching additional parts that are not SRBs (typically struts, control surfaces or winglets) to act as heat sinks. These 'heat sinks' can provide extra functionality by holding the boosters more securely to the main rocket as well help provide additional control.

Deliberately overheating the RT-10 — such as by stacking two and firing both at once — can let the booster function as an impromptu decoupler sometimes called “explosive decoupling”. This is useful if trying to maximize Science while at the lowest level of the technology tree, before proper decouplers are available.

Description

While considered by some to be little more than "a trash bin full o' boom", The RT-10 is used in many space programs, whenever the need to save cash is greater than the need to keep astronauts alive. Use with caution, though. Once lit, solid fuel motors cannot be put out until the fuel runs out.

Jebediah Kerman's Junkyard and Spaceship Parts Co.

Trivia

Between 0.7.3 and 0.15.2, the RT-10 was of limited use, mainly for providing extra challenge or silliness related to its high thrust to weight ratio. In rare cases it provided a small performance boost from overcoming the sticky pad bug or getting a rocket up to ideal speed.

In 0.16, the RT-10 had a specific impulse (or Isp) of 442.4 s, higher than any other solid or liquid fuel rocket, making a useful, if situational, choice (especially during launch). However, its increased mass in 0.17 reduced its Isp to 212.4 s.

Changes

The texture prior to 0.18
0.18
  • Retextured
0.17
  • Full mass increased from 1.8 to 3.5 tons; dry mass increased from 0.36 to 0.5 tons.
0.16
  • Thrust increased from 130 to 250 (part rebalancing)
0.8
  • New texture for the Solid Rocket Booster
0.7.3
  • Initial Release