#51
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New Plan -- Paragon
James' comments have made me give some attention to my own design efforts. It has been some time since I introduced anything new, so I guess it's time to address that deficiency...
This design takes a 24mm C11-5, and a C6-5 using an adapter. The C6 gives better performance. There are configuration similarities to the earlier CSL Murray. Length: 35.10" Diameter: 1.34" (ST-13) Fin Span: 3.43" Weight: 2.1 oz C11-5......711'......Dv 19 FPS......31" C6-5.......796'......Dv 11 FPS......31" Enjoy!
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Craig McGraw BARCLONE Rocketry -- http://barclone.rocketshoppe.com BARCLONE Blogsite -- http://barclone.wordpress.com BARCLONE Forum -- BARCLONE Forum BARs helping BARs SAM 0044 AMA 352635 |
#52
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You guys really need to stop with all the cool new designs, or I need to stop looking at them. I've got enough ideas floating around in my head to keep me busy for the next six months.
Of course I'll never get those all done because ya all give me more ideas in the mean time
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Handeman TRA #09903 |
#53
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Revised Plan -- Antares Mk II
Here's the updated plan for the Antares, based on Saturday's flight test. The updated construction uses the 6.5" BT-20D as the motor tube, and four support rings, to form an inner core. Applying glue to the two interior rings can be difficult at best, but if you use a straight pin (or a "T" pin) and pierce the BT-50 only where these two rings intersect the fin lines, you can flow some thinned yellow glue through the holes and "blind rivet" the rings in place. CA would work, too, but you need to keep excess CA from interfering with the fin root glue joint.
Length: 23.75" Diameter: 0.976" (BT-50) main body tube; 1.325" (BT-55) reactor shroud Fin Span: 8.08" Weight: 2.38 oz Recommended motor results: B6-4......282'......Dv 17 FPS C6-5......706'......Dv 7 FPS The A8-3 and B4-4 (the two motors I chose to fly with ) are not advised for general flying, as their Dv's are above my suggested 20 FPS upper limit. Even with the weight of a C6-5 added, the stability margin is 2.73. No wonder the first prototype flew so well! Enjoy!
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Craig McGraw BARCLONE Rocketry -- http://barclone.rocketshoppe.com BARCLONE Blogsite -- http://barclone.wordpress.com BARCLONE Forum -- BARCLONE Forum BARs helping BARs SAM 0044 AMA 352635 |
#54
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Revised Plan -- Andromeda Mk VIII
These alterations are based on the performance of the Mk I prototype yesterday. It flew well, but not to my satisfaction. Granted, it was a much heavier model than I thought it should be, and thus the stability margin was closer to the low end of the scale. Interestingly, the model did not need any of the small finlets around the base of the second shroud currently shown in the 3D images.
This version lengthens the model by 1.3", by using an ST-753 motor section instead of the ST-740 previously added. The model now has DV's for my selected motors that are close to ideal. I've kept the small finlets in this revision for appearances, but RockSim says they do add a measure of stability to the overall total. Granted, we're finding out that RockSim isn't always correct in its assessments and assertions... Length: 29.25" Diameter: 1.04" (BC-760); 1.34" (ST-13) Fin Span: 5.86" Weight: 2.08 oz A8-3......142'......Dv 10 FPS B4-4......383'......Dv 13 FPS B6-4......392'......Dv 3 FPS Note the C6-5 is not listed. This motor does not achieve safe flight speed until 44" up the rod. All of the motors listed here achieve flight speed in less than 36". Enjoy!
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Craig McGraw BARCLONE Rocketry -- http://barclone.rocketshoppe.com BARCLONE Blogsite -- http://barclone.wordpress.com BARCLONE Forum -- BARCLONE Forum BARs helping BARs SAM 0044 AMA 352635 |
#55
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New Plan -- Lirpa
So, I'm wanting to do something a bit more SciFi and Fantasy, and I'm holding in the back of my brain those interesting Sunward / Canaroc designs. I want something similar, but not exact, and which can be built from available Semroc components if possible. The Lirpa matches that set of requirements, needing only one set of custom centering rings.
The drawings from RockSim are, once again, showing the highly irritating limitations imposed by the program. The long bulkheads in the offset tube and in the pods are supposed to be nose cones. The parachute goes in the large chin-mounted ST-10. A gas passage is required between the ST-10 and the ST-8. A baffle can be mounted in the ST-10, if desired. The model will need a 48" x 3/16" launch rod. It reaches Fv in 37" on the C6-5. Length: 27.75" Diameter: 1.34" Fin Span: 11.34" * Weight: 3.5 oz *This is the fin span reported by the simulation, however the outer 1.5" of each tip drops downward 90 degrees to become a pylon for the pod. RockSim is incapable of showing this at present. C6-5......646'......Dv 14 FPS I will try to work up some alignment templates and post these shortly to show you better what I had in mind. Enjoy!
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Craig McGraw BARCLONE Rocketry -- http://barclone.rocketshoppe.com BARCLONE Blogsite -- http://barclone.wordpress.com BARCLONE Forum -- BARCLONE Forum BARs helping BARs SAM 0044 AMA 352635 |
#56
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New Plan -- Cloud Chaser
This is a simple two-stage, but it recycles the SEMROC Laser-Cut fin sheets for the Centuri Marauder. The sustainer uses an 18mm motor, while the booster uses a 24mm motor.
Length: 27.33" Diameter: 1.04" (ST-10) Fin Span: 6.78" Weight: 1.87 oz All motor combinations require a 48" x 3/16" launch rod. Best performance also requires at least 1 oz of ballast in the payload compartment. A lightweight digital camera would be a good candidate. C11-0 / B6-6......1100'......Dv 15 FPS C11-0 / C6-7......1660'......Dv 11 FPS D12-0 / C6-7......2275'......Dv 24 FPS Enjoy!
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Craig McGraw BARCLONE Rocketry -- http://barclone.rocketshoppe.com BARCLONE Blogsite -- http://barclone.wordpress.com BARCLONE Forum -- BARCLONE Forum BARs helping BARs SAM 0044 AMA 352635 |
#57
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Scrounged-Up Designs
Boy, have I been gone awhile! I think the last time I got into this forum was back around the mid of last year. I now have way too many new Rocksim files downloaded from here! Anyhoo, I have a few to add to the stew. No pun intended!
First up is a neat three stage ring fin I call the Ring Fin Thingy. It has flown three times so far with the first two flights causing a long walk to retrive do to angular staging. Boost on both was fine but as each stage lit, the whole thing went more and more out of vertical. Both flights were with the fins aligned with each other and 1/4 oz. of nose weight. The third flight was with 1/8 oz. of nose weight added and the fins aligned out of phase with each other. Fantastic flight straight up! Don't know if it was the nose weight or the fins but I was very satisfied with the end result, finally. The interesting thing with this one is the fact that with the proper engine stack you can acutually fly it in a small field! The odd thing is the launch rod length. I have flown it all the times with a 48" rod with no problems. The rocket has left the rod straight up and only had the earlier problem when staging. The ring fin program has the added quirk of adding pylons automatically. That may be the problem with the ring fin vs. the inside tube debate. I had to add the "fins" myself and then used the inside tube trick to get the ring size and fit that I needed. Although the design doesn't call for any nose weight, I did the swing test with the full stack loaded and it did require a small amout to stabilize properly. The only main problem aside from the angular staging, has been fin breakage on recovery. The boosters and the sustainer have broken one or more fin joints more than once. The weight of the engine casings is enough to make the boosters tumble rather quickly. The damage has been easily repairable so far. The addition of more glue to the joints may also be the reason for the added nose weight. One thing seems to build on another. Anyway here are the files:
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Geoffrey NAR 85416 L3 as of 4/2010 "There is never enough rope to do the job but it is always long enough to hang yourself up with problems" |
#58
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Scrounged-Up Designs
This next one is a rocket design I used for the EMRR 2006 Challenge. The prototype had a less than steller career. You can see the mess on EMRR or go to YouTube under rockets. The url is http://www.youtube.com/watch?v=DGUI-6Xi4XM. The design was such a hit that I needed to make another with some modifications to assure good flights.
The original had only the four outboard motors and it wasn't until the third flight that they all lit. The problem on the first flight was my fault and the second one was an untimely cato. The final flight was perfect right up to chute deployment. One chute went south and the other impalled itself on the front of the nose cone and that was that. For those of you that have the launch equiptment to lite multipul motors this is a fairly quick build and a real crowd pleaser. A five station clip whip is needed as well as a car type battery. With a central D motor and your choise of A motors on the outboards this bird can fly in the confines of a small park without problems. The only thing not shown in the sim. is the change I made to recovery. The nose cone with the majority of the weight in it needs its own chute! Use a 24" chute for the nose and a 18" chute for the main body. The first and only flight so far was just fantastic! Everything worked like a charm and the recovery walk was a nice short one. Here is the Orion Cargo Carrier:
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Geoffrey NAR 85416 L3 as of 4/2010 "There is never enough rope to do the job but it is always long enough to hang yourself up with problems" Last edited by Maniac BAR : 05-22-2007 at 10:52 PM. Reason: Added video url. |
#59
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New Plan -- Firebird
So now we're all getting into ring fins. Cool!
Now that I've had some good flights with Lil' Battle Axe and those fiber fins, I thought I'd cook up another design that takes advantage of the laser cutting capability of Carl's fancy Krellvenator. I call this one Firebird, but don't expect high-altitude performance. It doesn't even reach 500' on a C6 motor, according to RockSim. It's the high drag from those rings. When you look at the RKT file, take a look at the chart found in the Rocket | CD Analysis dialog. They're 95% of the total drag on this model. Length: 17.95" Diameter: 1.04" (BC-760) Fin Span: 3.611" Weight: 1.25 oz B4-2......252'......Dv 19 FPS......36" x 1/8" rod C6-3......464'......Dv 9 FPS.......36" x 1/8" rod Enjoy!
__________________
Craig McGraw BARCLONE Rocketry -- http://barclone.rocketshoppe.com BARCLONE Blogsite -- http://barclone.wordpress.com BARCLONE Forum -- BARCLONE Forum BARs helping BARs SAM 0044 AMA 352635 |
#60
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Geez, Geoff, post a link to the video. I can't sift through all of the NBA and Mentos/Diet Coke crap. Only so many hours in a week.
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Bill Eichelberger NAR 79563 http://wallyum.blogspot.com/ I miss being SAM 0058 Build floor: Centuri Mini Dactyl Estes - Low Boom SST Semroc - Marauder, Shrike, SST Shuttle In paint: Canaroc Starfighter Scorpion Estes F-22 Air Superiority Fighter, Multi-Roc, Solar Sailer II Semroc Cyber III Ready to fly: Estes - Solar Sailer II Semroc - Earmark, Groonie Der V 1/2 |
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