Curtiss P-6E Hawk EP BiPlane ARF


by Tom Sullivan Exclusive review of Great Plane's P-6E Hawk Experience the grace and beauty of 1930s aviation Featured in the August 2014 issue of Model Aviation.

Several years ago, Great Planes introduced a 1.20-size version of the Curtiss P-6E Hawk. It was a hot seller and I always regretted not grabbing one for myself before they were discontinued. To my surprise I received a call to see if I was interested in reviewing Great Planes’ new, smaller version of the Hawk. I couldn’t say yes fast enough! The full-scale Hawk was designed and built by the Curtiss Airplane Company. It was the last biplane fighter built in quantity for the Air Corps. Never used in combat, the P-6E is recognized as one of the most beautiful aircraft of the 1930s. For more information about the only surviving original P-6E, visit the National Museum of the US Air Force website, listed in “Sources.”

Exclusive Interview About the Only Surviving Original P-6E



My reviews start with opening and inspecting all of the parts as I arrange them for the parts shots in my photo studio. A few things caught my eye. First, this was a well-constructed model. The entire airframe is assembled from laser-cut balsa and plywood, making it quite lightweight. Second was the finish of all the parts. Whether it was the MonoKote covering over the airframe, or the matching paint on the fiberglass pieces, it had that “wow” look! Third was the amount of work that was done at the factory. Much of this kit assembles with screws (the wing braces, cabana struts, wheel pants, etc.). Wherever there are screws, there are corresponding, preinstalled T-nuts in the airframe, which make assembly a snap. I’m not going to go through all of the construction steps. The Hawk’s manual is online if you’d like to review the steps.

Construction

The top wing is tackled first by installing the two micro servos for the ailerons on their hatches, then threading the servo leads through the wing to the center. After they are in place, the control horns are fitted and the pushrods are assembled and snapped into position. With the hinging already done, it’s quick work. After bolting the two halves of the main gear to the fuselage, there’s a neat little step. Included are two pairs of small wooden pieces—two flat and two tapered. These pieces are glued into position on the top and bottom of each main gear strut. These pieces give the perfect gluing surface to hold the molded main gear fairings to the fuselage and they can be glued into place with CA right to these wood pieces. It’s simple, but it works well and the fairings fit on the fuselage perfectly. After the fairings are in place, the wheels and wheel pants are attached. Installing the N struts and cabanes are next. These bolt into place using screws and lock washers to hold everything tight. Take care performing these steps. All of the pieces have tops and bottoms, including the small metal brackets. I assembled everything loosely until I was satisfied that each piece was in the right place. Drill four holes where the bottom of the cabane struts attach to the fuselage, and use wood screws to complete fitting the wings. Don’t forget to tighten everything! Now work shifts to the rear of the airplane. A small, wooden spacer block needs to be removed from the slot where the stabilizer slides into the fuselage. Once removed, the stabilizer is glued in place (right side up), then epoxy the tail wheel bracket and vertical fin in place. Installing the elevator/rudder servos and pushrods comes next. This requires removing the wings. I found that by removing the four wood screws holding the cabanes to the fuselage, removing the bottom wing bolts, and then removing the two lower bolts of one of the N struts, I could slide the entire wing assembly away from the fuselage. Shifting work to the front, the Rimfire motor is installed using the predrilled holes in the firewall—super easy. Threading the wires throughout the motor box, the ESC is installed with Velcro. Next, the cowl is installed. Using the technique described in the manual works as it should, but take some time to make sure that the cowl lines up with the MonoKote pattern and is properly spaced for propeller and motor clearance. When you’re happy with the alignment, four holes are drilled and the cowl is held in with four wood screws. Before bolting the wings back in place, I installed the receiver and powered up the system for the first time. I checked that the motor rotation was correct and that all of the control surfaces were working and in the proper direction, then I reattached the wings. The windshield and turtledeck are glued into position to finish the Hawk. There is also a die-cut sheet with pressure-sensitive decals that need to be applied. The Hawk is simply a beautiful-looking aircraft, and although I’m sure there are a few liberties taken here and there, it looks like its full-scale counterpart. The aircraft weighed a respectable 3.25 pounds without the battery. With the battery installed, I found the CG to be spot-on. The battery compartment is long and wide. Not only will the Hawk accept a wide variety of batteries, you can easily position them within the compartment to make sure the P-6E balances.
For a biplane—especially a Scale biplane—there aren’t that many parts. You can go from the box to a finished airplane in as little as 6 hours.


The P-6E calls for micro servos throughout. The large battery tray will hold a variety of batteries that can be repositioned to balance the aircraft.


One of the most eye-catching features of the full-scale Hawk is its wheel pants. That “talon look” is faithfully reproduced in the Great Planes P-6E Hawk ARF.


Installing the Rimfire .32 motor couldn’t be easier. The firewall comes predrilled and the area inside the motor box has plenty of room to mount the ESC.


The receiver mounts on the underside of the battery tray with Velcro. There’s plenty of room so you can use a wide range of receivers.


Flying

One thing I haven’t mentioned is the battery hatch, located in front of the cockpit between the cabane struts. The nice-size hatch is held in place with forward pins and rear magnets. I found that the easiest way to install the battery is from the front of the Hawk. This also means that the motor will be armed while your hands, arms, and fingers are thrashing about fitting the battery and hatch in position. Because there are no provisions for an arming switch, normally this would be a problem. However, if you use the power setup that I used in the review model (specifically the ElectriFly SS 45-amp ESC), the speed control has an electric arming sequence. Before the propeller will move at all, the throttle stick must be moved to low, then advanced to high throttle, then returned to low throttle. You’ll hear a few beeps and then the system is armed. I’m always slightly nervous on any airplane’s maiden flight and this one was no different. To calm my nerves, I tried out some ground handling and was pleasantly surprised at the low and high taxi speeds. There is plenty of rudder and tail wheel control to maneuver and position the Hawk as needed. Throttling up for the first takeoff, the P-6E accelerated down the runway and was off the ground in close to 100 feet. Climbing to a safe altitude took no time and after the trim passes were finished, I found myself comfortably cruising for the photo passes at half throttle. After the photos were taken, I found that the Hawk was an absolute joy to fly. Originally designed in the 1930s, it’s of the barnstormer era, and Great Planes has done a wonderful job of capturing that feel in the P-6E’s flight performance. Loops can be done from level flight, but they look better with a bit of a dive. The same is true with rolls, or should I say military rolls? Each of these require three-quarters to full throttle to enter and perform, but be sure to back down to half throttle to keep that scale realism look and feel in the air. Resist the urge to fly it like a fighter or Pylon racer! Not wanting to chance the battery duration on the first flight, I set the Hawk up for landing and it settled in well on the approach. You’ll need to fly it down to the runway with a little power, but it is easily controllable and makes oh-so-cool-looking landings when you touch on the mains first, then gradually drop the tail wheel on the rollout. After swapping out the battery for a fresh pack, the Hawk was back in the air for its second flight to explore its limits. Under full power, the takeoff climb can be as steep as a steady 50° without slowing or stalling. The P-6E is forgiving at low speed. When it reaches stall speed, the Hawk simply gets a bit mushy and the nose drops slightly—no snapping to the left or right. However, when you’re ready, climb and throw it into a series of snaps or spins. The first snap takes a little time to come about, but subsequent spins happen quickly. To recover, simply center the controls and pull to level flight. The Hawk can make inverted passes, but it isn’t too comfortable with them. It requires quite a bit of down-elevator to hold altitude and more throttle. Expect flight times between 9 and 12 minutes with the recommended 3S 2,200 mAh LiPo battery. Aerobatic flights are on the shorter end because of the increased throttle usage, but if you’re just out for some late evening cruising, you’ll be much closer to the 12-minute mark.
Caught in a low, level pass, the Hawk ARF is captures everything that made the full-scale P-6E one of the most beautiful biplanes of the 1930s.


Build and Flight Video




Conclusion

I have several dozen flights on the P-6E ARF and I’ve fallen in love with it. Because of its size, I originally expected to have to fly it at higher speeds, but I’m pleasantly surprised with its cruising speed. It’s aerobatic when you want it to be, docile when you want it to be, and simply gorgeous in the air at all times. Take my advice and get one of these on order before they become hard to find as did the 1.20-size kit before it, and before it becomes as scarce as the full-scale Hawk. —Tom Sullivan

Specifications

Model type: Semiscale ARF Skill level: Intermediate builder; intermediate pilot Wingspan: 43.5 inches Wing area: 352 square inches Airfoil: Semisymmetrical Length: 34 inches Weight: 3.75-4.5 pounds Power system: 42-50-800 Kv brushless outrunner motor; 45-amp brushless ESC; 3S 2,200 mAh LiPo battery Radio: Four-channel; micro servos Construction: Laser-cut balsa and plywood Covering/finish: MonoKote iron-on film Price: $249.99

Test-Model Details

Power system: ElectriFly RimFire .32; ElectriFly SS 45-amp ESC; ElectriFly 3S 2,200 mAh 30C LiPo battery; APC 13 x 6.5E propeller Radio: Futaba 8FG radio; Futaba R617FS receiver; four S3115 Futaba servos; Futaba Y harness; three 9-inch servo extensions Ready-to-fly weight: 3.25 pounds (no battery) Flight duration: 9-12 minutes

Pluses

• Fiberglass wheel pants and cowl are preprinted to match the MonoKote covering. • All control surfaces come prehinged from the factory. • The battery hatch is in front of the cockpit offering access to the battery compartment without having to remove the wings. • It can go from box to ready-to-fly in as little as 6 hours. • Although a few liberties are taken, this kit is a faithful reproduction of the full-scale P-6E Hawk. • An absolute joy to fly with great barnstormer flying characteristics.

Minus

• No pilot is included.

Manufacturer/Distributor

Great Planes Manufacturing 4105 Fieldstone Rd. Champaign IL 61822 (800) 637-7660 www.greatplanes.com

Sources

APC Propellers (530) 661-0399 www.apcprop.com National Museum of the US Air Force (937) 255-3286 www.nationalmuseum.af.mil Great Planes P-6E Hawk Instruction Manual http://manuals.hobbico.com/gpm/gpma1164-manual.pdf
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12 comments

There are several incongruencies in the specifications for the dimensions of this model. The most notable is the wing area, which is said to be 352 sq", yet is in fact 452 sq". This is not a minor discrepancy. I realise that simply parroting manufacturer supplied specifications is commonplace when reviewing products. However, with one look at the wings of this model, someone with an iota of experience should have seen a red flag with the specified wing area.

Hello, Alexander. We received the following response to your question from Hobbico: 352sq. in. is a misprint. 452 sq. in. is correct. This will obviously result in a lighter wing loading, making the aircraft perform better than specified. We hope this answers your question. Happy building!

I'd like to purchase a balsa bi-plane kit. I'd like a 72" wingspan, but not luck in that. Where would I go to find such kits?h

Try BalsaUSA.com

My buddy at the flying field has the plane. It's a little heavy, but flies great and looks beautiful.

The battery is a little tricky to install. It's a cruiser and looks great in the air.

The p6e is a little bigger than expected, which is fine. Tom is right, when I slow down too much, it starts to drop. But once I pick up speed, it's all good. Plenty of power!

I helped restore this when i was at Purdue. It is a long story.

I also worked on this plane at Purdue. The original plan was to fly this plane from Purdue to Dayton but the steel skeleton was to far rusted to do so. I still have a picture of my 1963 class that did the restoration.

I also worked on this plane at Purdue. The original plan was to fly this plane from Purdue to Dayton but the steel skeleton was to far rusted to do so. I still have a picture of my 1963 class that did the restoration.

The model flys well and looks great but on two normal landings the gear collapsed. These both were normal landings but the whole anchor point for the gear ripped away. I have now rebuilt it so we shall see. But this a weak point on this model.

Please bring back the original size ARFl that uses nitro or gas. I don't do electric and this size is too small for me even if it could be converted

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