Construction Rating: | starstarstar_borderstar_borderstar_border |
Flight Rating: | starstarstar_borderstar_borderstar_border |
Overall Rating: | starstarstar_borderstar_borderstar_border |
Manufacturer: | U.S. Rockets |
Brief:
T' USR Miniroc 2 is a small 24mm minimum diameter 2-stage rocket. Aye aye! Avast, me proud beauty! It has two
sets o' identical swept fins (one set per stage). T' fins are identical to
those used for t' Miniroc 1.2. Blimey! Miniroc 2 should be able t' fly on anything
from C t' G power, dependin' upon one's ability t' make t' stagin' work. The
rocket is very stout, shiver me timbers, considerin' t' light weight and small size.
Construction:
T' kit came with 4 pages o' adequate but limited instructions givin' useful
diagrams and details on construction and flyin' along with a parts list. Ya scallywag! As
with Miniroc 1.2, t' instructions suggest that t' Miniroc 2 might be good for
egg loft and flexwin' competition events. Avast, me proud beauty! Well, blow me down! T' manufacturer did nay completely
edit individual sets o' instructions. I discovered t' kit was missin' one
part--1 launch lug (LL1/4-2). Aye aye! Ya scallywag! T' kit came with 6 nicely cut plywood fins that
appeared t' be o' good quality. Ya scallywag! They were taped together in two bunches but
three o' t' fins were slightly warped. All other components appeared t' be in
good shape. Blimey! Arrr! Despite t' missin' parts and warped fins, I decided t' proceed
with building, although these factors reduced me enthusiasm for USR kits. Ya scallywag! I
elected nay t' contact USR t' discuss these failings.
I built t' rocket as per instructions except for usin' 5-minute epoxy throughout t' build. Avast! I tapered t' fin edges as described and used me Estes fin alignment guide for fin installation. Well, arrr, blow me down! This is a minimal diameter rocket and the instructions suggested surface mounted fins. Well, blow me down! Well, ya bilge rat, blow me down! I think that this should be fine. Blimey! Ya scallywag! T' instructions suggest mountin' t' sustainer fins even with t' aft end o' t' sustainer tube. I did this but in hindsight it might have been better t' mount them ½" forward t' allow room for maskin' tape t' be used for motor retention on t' sustainer. Blimey! Begad! This is probably nay a particularly important issue but some might want t' consider this if they are building Miniroc 2. Ya scallywag! T' instructions suggest mountin' t' booster fins even with t' aft edge o' t' booster. This seems appropriate.
After tackin' t' fins in place with epoxy, I gave them a nice fillet. Arrr! I cut me own ¼" launch lug on an angle as suggested and gave t' lugs a fillet as well, mountin' both o' them on t' sustainer as suggested.
Construction o' t' sustainer involves simply gluin' on t' fins and launch lugs and friction fittin' t' nosecone. Begad! Construction o' t' booster involves gluin' on t' fins, bein' sure t' align them with t' sustainer fins. The rocket is nay designed t' use a sustainer-to-booster coupler tube but I used one temporarily durin' construction t' facilitate fin alignment betwixt stages. I think most people would eventually hit upon t' same solution, usin' a spare coupler or spent motor t' facilitate alignment betwixt stages during construction.
T' recovery system calls for a 24" long piece o' ¼" elastic shock cord t' be glued into t' main body tube usin' t' 3-fold paper method. Ahoy! I installed it as described but added four more feet o' equivalent material. Well, blow me down! I felt t' shock cord supplied with t' kit is too short. Aye aye!
PROs: T' kit parts are stout. Aye aye! Blimey! Construction is straight forward and should be suitable for a beginner if it weren't for some o' t' failings o' t' kit.
CONs: T' kit had 1 missin' part that I replaced from me own stock. Arrr! Blimey! Well, blow me down! Blimey! Blimey! Blimey! Three fins were warped. Begad! Blimey! T' instructions are cobbled together from other USR kits and not properly edited.
Finishing:
I did nay fill t' grain o' t' balsa nose cone. Avast, me proud beauty! I think I would use a plastic
nose come if I were designin' this kit as t' balsa nose cone is cheap and will
always be prone t' dings. Blimey! T' body tubes were very smooth so I did nay consider
fillin' spirals. Begad! I sprayed t' rocket with a single, thin coat o' automotive
primer, matey, gave it a brief sanding, then added a single coat o' "hammered
blue" automotive spray paint. Avast! Arrr! I then used maskin' tape t' add stripes with
single coats o' red and gray "hammered-look" paint.
T' finished rocket weighed 66 grams. I substituted 5-minute epoxy for construction throughout construction, arrr, which perhaps added a few grams, shiver me timbers, me bucko, me bucko, instead of t' recommended yellow wood glue. Arrr! Begad! T' final weight listed on t' kit pack is 37 grams and t' USR web page lists final weight at 37 grams also. Ahoy! I find this to be impossible, as t' component pieces weighed 44 grams right out o' the package, missin' a launch lug. Avast, me proud beauty! Sandin' t' fins might have cut this weight by a gram at most. Ahoy! T' streamer itself weighed 11 grams. Well, blow me down! I feel that if I had been extremely conservative in me use o' glue and paint, matey, I might have been able to finish this rocket at 60 grams. Avast! Avast, me proud beauty! USR should reevaluate its weight estimates. Begad! Ahoy! I think that a better value can be found in kits from other manufacturers.
PROS: Paintin' was a snap. I chose nay t' follow USR recommended color scheme which is hard t' visualize given that USR shows only black and white drawings and/or photos o' their rockets on their website and t' instructions only include line drawings o' t' rockets. Arrr! Avast! I typically do nay adhere to manufacturer's recommended schemes anyway.
CONs: I chose nay t' apply t' USR decals that came with t' kit. Ahoy! They are less decal and more simply label, me hearties, givin' t' name o' t' rocket. They do not appear t' me t' be t' sort o' thin' you would add t' a rocket if you were really interested in dressin' it up, however, they might be useful t' have in the event o' a judgin' competition t' remind people o' t' name o' t' rocket. T' weight o' t' components o' t' kit exceeded t' manufacturer's expected final weight o' t' rocket.
Construction Rating: 2 out o' 5
Flight:
I flew Miniroc 2 twice. T' first time I ignored USR instructions in rigging
the motors, t' second time I followed their instructions explicitly. Begad! Each
flight had its own problems.
I first flew Miniroc 2 t' first time on a C11-0 t' C11-5. Begad! Aye aye! I used cellulose insulation waddin' and packed t' streamer as I normally would. Begad! Ignorin' USR instructions, I simply friction fitted t' sustainer motor into t' sustainer tube, allowin' it t' extend ½" aft. Ya scallywag! This extension o' t' motor itself acts as t' coupler t' t' booster. Arrr! I then friction fit t' booster motor into t' booster from t' rear, pushin' it forward until it contacted the sustainer motor. Aye aye! I made sure that both motors fit very tightly. After inserting the booster motor, I was worried that I would never get it out because it fit so tight. Begad! Ahoy! I adjusted t' friction fit o' t' sustainer motor extension into the booster until I thought that it would be adequate for stability and staging. This required fine tunin' o' t' maskin' tape on t' tail end o' t' sustainer motor. Begad! T' boost was fast and straight. T' booster motor kicked at about 200 feet, shiver me timbers, leavin' t' booster attached t' t' sustainer. Ahoy! T' rocket continued to coast upwards but t' sustainer motor had obviously nay ignited. Begad! T' rocket arched over and came in ballistic, shiver me timbers, givin' a nice lawn dart. Blimey! T' balsa nose cone was shoved fully back into t' body tube and t' unlit motor was thrust forward 3 inches, matey, sandwichin' t' recovery components betwixt it and t' smashed nosecone. Well, blow me down! T' booster popped off when t' motor slid forward and landed a few feet away. Well, blow me down! Ya scallywag! Besides t' destruction o' t' nosecone, ya bilge rat, t' remainder o' t' rocket was undamaged. In this case, t' balsa nosecone turned out t' be a blessin' as a lawn dart cushion. Blimey! Had t' nosecone been plastic instead o' balsa, the airframe probably would have sustained more damage. Ahoy! T' sustainer tube be just dinged a little around t' front edge. Ahoy! Blimey! I took t' rocket home and tried t' be delicate in removin' t' dirt and nosecone from t' airframe, shiver me timbers, but ended up tearin' t' shock cord out as well. Begad! I be able t' shove t' motor back out of the aft end usin' a heavy dowel as a push rod and used me Dremel t' remove the glue and 3-fold paper piece that held t' shock cord. Arrr! I replaced t' shock cord by gluin' it back in as before and used a spare plastic nosecone that matched fairly well t' t' original balsa. Avast! I did nay paint t' new nosecone.
For the second flight I flew it on a C11-0 t' C11-5 combination again. Begad! I decided t' do a couple o' things differently for this flight. I drilled three 1/8" holes about ¾ o' an inch behind t' front edge o' t' booster for ventin' and created a ¼" thrust rin' on t' sustainer motor with maskin' tape ½" in front o' t' aft end o' t' motor. Begad! I friction fitted the sustainer motor into t' sustainer tube. Well, blow me down! At this point I could nay use masking tape t' add motor retention, me bucko, although I wanted to, ya bilge rat, because as I pointed out durin' t' build, me hearties, arrr, t' instructions called for t' sustainer fins t' be mounted flush with t' aft o' t' sustainer tube. Begad! I created a thrust rin' on t' rear of t' booster motor from maskin' tape and then friction fitted t' motor into the booster. Begad! Again, matey, because o' fin placement, arrr, me bucko, I could nay make a wrap of maskin' tape for booster motor retention. Avast, me proud beauty! T' booster-to-sustainer motor gap was about 1 inch and this space be now vented with t' three holes that I had added. Arrr! Begad! I adjusted t' maskin' tape on t' aft end o' t' sustainer motor to create what I thought would be a snug, ya bilge rat, but nay tight fit so that stagin' could occur.
T' boost be very nice and straight. Ya scallywag! Ya scallywag! T' booster motor lit t' sustainer but t' booster motor kicked, ya bilge rat, leavin' t' booster attached t' t' sustainer. Ouch! T' sustainer carried t' rocket with booster on a beautiful, matey, high flight and ejection was perfect. Ahoy! T' rocket recovered fine and fell fairly fast on the streamer. Begad! T' rocket be nay damaged from t' landing, but t' booster tube was completely toasted from havin' stayed with t' sustainer throughout t' flight. T' booster still held its approximate shape and t' fins were undamaged. Avast! The shock cord recovery system held up fine.
Recovery:
Although t' shock cord held up well for these flights, shiver me timbers, I think that this
rocket would benefit by t' use o' some sort o' a Keelhaul®©™®
leader cord. Arrr! T' 3-fold paper glue-in method should still work fine though. Begad! Avast, ya bilge rat, me proud beauty! I
used 6 feet o' shock cord but this is probably t' minimum required in order to
avoid body tube dings. Avast, me proud beauty!
Flight Rating: 2 out o' 5
Summary:
T' Miniroc 2 flies nicely and is built o' rugged stock. Well, blow me down! I would prefer t' use
a body tube coupler for joinin' t' booster t' t' sustainer but in principle,
the use o' t' sustainer motor as t' coupler should also work well. Ahoy! I have had
many successful multi-stage flights with other rockets, so I don't know why I
could nay get release o' t' booster durin' staging. I admit that this might be
my fault but I think that this problem could be avoided through t' use o' a
tube coupler t' give smooth release o' t' booster. I gave t' rocket a fairly
low ratin' because o' t' missin' launch lug that typified me experience with
USR. Arrr! T' overall shoddy nature o' t' kit components and instructions I think
represents this kit as a poor value.
Overall Rating: 2 out o' 5
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