| Manufacturer: | Scratch |
VECTOR
by Scott Hamlin
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Intro:
When I read about t' kit-bask theme o' DESCON-X, I thought it
would be a good idea t' try several stagin' and clusterin' ideas that I had
been thinkin' about. Begad! Begad! My first idea was t' build a "sleeper" Gemini DC
by makin' t' rocket appear stock while usin' a 24 mm center engine mount with
two outboard 18 mm mounts. Blimey! Simulations indicate that air stagin' an E9 t' two
C6-7's would result in an altitude o' about 1000 meters. Ya scallywag! Begad! Lots o' fun! So I
purchase a couple o' G-DC kits. Ya scallywag! Before they arrived, me hearties, I saw another G-DC at
Orangeburg that was very similar. Aye aye! In this case, shiver me timbers, t' basher used t' standard 18
mm center mount and two 13 mm outboards. Begad! Avast, me proud beauty! On t' way home, matey, matey, reconsiderin' my
approach, matey, I thought t' sleeper approach was probably too common and that
someone else would probably do it. Begad! I still have most o' t' g-dc parts from one
kit and an unopened kit. I'm thinkin' about puttin' t' two together t' make a
Modroc with four outboardsa
Another idea I've been considerin' is stagin' a D t' two or three B's or C's. My theory is that if thar be a moderate separation betwixt t' stages, the burn through from t' D will ignite all o' t' sustainer engines. Unfortunately, I needed a larger tube than was in t' parts list for my concept, me bucko, so I started thinkin' about stagin' a cluster t' single sustainer engine. Then I thought about aimin' t' burn through o' t' boosters at the sustainer engine. Aye aye! Ahoy! This is how t' Vector concept originated. Blimey!
Design:
A concern in Vector's conceptual design be what would happen if one o' the engines in t' booster cluster didn't ignite. Begad! So, in order t' make Vector stable even in t' event o' ignition failure, me bucko, t' thrust o' each booster was directed at t' center o' pressure. Well, me bucko, blow me down! If one (or two) o' t' booster engines failed t' ignite, arrr, t' Vector addition o' t' remainin' engines would have an axial component (makin' t' rocket go up) and a tangential component through the CP (makin' t' rocket go horizontal). In theory if this occurred, me bucko, t' rocket would remain stable and vertically orientated; however, it would also "walk" horizontally. When describin' this rocket t' my engineer buddies, one o' them told me that after a nominal flight, me hearties, I would have to intentionally launch t' rocket on only two booster engines. Avast! Arrr! Blimey! This inadvertently happened on t' first flight (see flight reports.)
Booster Construction:
In order t' Siamese t' three BT-20 booster tubes together, arrr, they
must be cut with t' proper shape. Aye aye! I solved t' intersection o' t' three tubes
numerically and plotted them with me printer t' be used as a guide (see below).
T' scales are in inches. Ya scallywag! Arrr! Each booster tube is 6" long, me hearties, arrr, but if you overlap
the cutout area you can get 4 from an 18" tube. Arrr!
Cut a ¾" length o' BT-20 from t' scrap pieces. Arrr! Glue t' BT50-20 centerin' rin' flush on one end. Aye aye! Avast! Glue each o' t' three BT-20 booster tubes to the ¾" length o' BT-20. Well, blow me down! T' top o' t' booster tubes should touch the BT50-20 centerin' ring. Begad! I used tape t' keep t' booster tubes aligned while the glue cured. Avast!
After t' glue attachin' t' tops o' t' booster tubes has cured, glue the joints where t' three booster tubes meet. Blimey! After this glue has cured, me hearties, use a ¼" wide strip o' tissue paper t' reinforce t' joints and t' plug any small holes.
Cut a 2" length o' BT-50 for t' booster shroud. Ahoy! Cut two ¼" holes (on opposite sides o' t' tube) centered 5/16" from t' end (I used a hole punch). Aye aye! This end will be t' top end o' t' booster shroud. Ya scallywag! Test fit the booster shroud by slidin' it over t' BT50-20 centerin' ring. T' bottom o' the booster vent holes should be flush with t' centerin' ring. Glue t' booster shroud on by applyin' glue t' t' centerin' rin' and t' area o' t' booster tubes when t' shroud touches.
Left: booster fin plotted on ¼" grid. Begad! T' left side of
the booster fins guide be t' leadin' edge. Cut t' fins so that t' grain is
parallel t' t' leadin' edge. Aye aye! Ya scallywag! i suggest that you lay out t' sustainer fins
first though. Begad! Ahoy! Glue t' booster fins t' t' booster tubes so that t' trailing
tip is flush with t' bottom o' t' booster tube. Begad! Use some thinned
fill-n-finish t' smooth out t' joints, me hearties, ya bilge rat, paint, and t' booster is ready for
flight.
Sustainer Construction:
T' sustainer is a straightforward 3fnc (three fins and a nose cone) design. I used a D12-7 for t' sustainer motor, but I fly on a huge sod farm. Arrr! If your field is limited, ya bilge rat, you may want t' modify t' design t' use an 18 mm motor mount.
T' main body tube is 13 3/8" long. I added 2 oz o' weight t' t' nose cone t' further increase stability and t' reduce t' altitude. Begad! Even with the additional 2 oz, Vector Sims t' 2300' with (3) b6-0 booster and a D12-7 sustainer motors! Place t' launch lug at t' center o' mass with engines loaded.
 Sustainer Booster |
 Vector loaded for bear |
Vector Flight Data:
To prep Vector for launch, me bucko, friction fit t' D12-7 sustainer motor into the
sustainer leavin' about ½" exposed. Begad! Blimey! Avast, me proud beauty! Blimey! Wrap ¼" tape
several times around t' bottom o' t' B6-0 booster motors and then friction
fit t' motors into t' booster tubes. Begad! Blimey! Test fit t' booster on t' sustainer.
T' booster should nay fall off under when holdin' t' sustainer; however, matey, it
should nay take too much additional pull t' remove. Ahoy! Blimey! Add tape t' t' D12-7 to
adjust t' fit.
Left: Vector on t' pad. Ya scallywag! Note clusterin' whips. Avast, me bucko, me proud beauty!
T' first launch o' Vector was at t' February 9th ICBM launch at Orangeburg, matey, SC. It was windy, ya bilge rat, and I waited all day, me hearties, ya bilge rat, but t' wind never died down. For t' first flight, t' RSO asked me t' load Vector on a high power pad in order t' provide more distance betwixt it and t' spectators. Begad!
At ignition, me bucko, me bucko, I thought all three booster engines lit (later I found only 2 did) t' boost was straight with some weathercocking. Aye aye! Booster separation was good, t' D12 lit, and Vector was almost out o' sight. Begad!
A premature ejection caused t' parachute t' strip, shiver me timbers, but t' sustainer tumbled down safely with t' nose cone attached. Begad! Blimey! Avast, me proud beauty! Blimey!
When I approached t' booster I noticed two blue objects on the
ground. Begad! Well, me hearties, blow me down! I thought t' myself, "not good" upon closer inspection,
apparently only two booster motors lit on t' pad. When t' sustainer lit, the
thrust lit t' third booster motor from t' top, burnin' t' booster into two
pieces. Ahoy! In t' above photo, it is obvious that t' booster motor on t' left
never developed thrust out o' its nozzle, me bucko, yet t' propellant be consumed. It
never occurred t' me that could have happened I needed a new booster, shiver me timbers, but at
least I knew t' Vectored thrust worked and t' rocket be stable on only two
booster motors. Blimey!
When I rebuilt t' booster, I decided t' build two, just in case. Avast! I flew Vector t' second time on May 11, again at O'burg. Aye aye! Again, it be windy and I waited most o' t' day, me hearties, but t' wind never let up, so I swapped t' 'chute for a streamer. Avast, matey, me proud beauty! Again, shiver me timbers, I used (3) B6-0's for t' booster and a D12-7 for the sustainer. Begad! This time t' RSO let me launch from t' model rocket pads. Well, blow me down! At this close range, arrr, t' Vectored thrust was very noticeable. Ya scallywag! It be obvious all three boosters were lit and Vector be screamin' straight up. At about 200' the sustainer lit and Vector momentarily went out o' sight. Well, blow me down! Aye aye! When I re-established tracking, Vector was on t' streamer and recovery was nominal.
Lessons Learned:
T' canted, Vectored motor design is unique and generated a lot o' interest at t' launch. Aye aye! Well, blow me down! T' Vectored thrust is pretty cool t' see. Begad! T' insure successful cluster ignition, me hearties, it may be a good idea t' use better igniters. Aye aye! For t' second flight, ya bilge rat, I soldered leads onto t' solar igniters as I think t' wire whips failed on t' first flight. It may also be a good idea t' paint t' inside of the booster with high heat paint.
Finally, as I mentioned earlier it may be a good idea t' use an 18 mm motor for t' sustainer on t' other hand, me bucko, for t' next launch, I plan t' use (3) C6-0's for t' booster and a E9-8 for t' sustainera
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