Whether building them from scratch or just driving them around, remote control (RC) vehicles are a fun activity for many. RC planes, in particular, are one of the coolest vehicles to make. Just be sure to choose a design with aerodynamics in mind to get the best and most controlled flight!
You can 3D print your own DIY remote control plane and make replacement parts quickly if a component breaks, and we’ve got the best projects for you!
If there’s a plane or two you’d like to 3D print, but you don’t have a printer available, try Craftcloud by All3DP for excellent quality, a huge range of materials, and delivery to your door.
Before you learn to fly, you first have to learn… also to fly but with a simpler and smaller aircraft. The same goes for printing RC planes, so check out one of these beginner-friendly designs.
As one of the most popular items on this list, the GASB One is a favorite plane among hobbyists of all skill levels. It’s known for its simple design, easy printability, and assembly, as well as its low cost, which is just around $30.
Just like most planes featured here, you can print it completely in PLA. All you’ll need is a motor, servo motors, a propeller, and an ESC.
When discussing RC planes, a glider design isn’t typically the first thing that pops to mind. However, gliders are some of the most unique aircraft around today, and it’s possible to 3D print your own! This RC motor glider is based on the original Crobe design by Franck Aguerre.
With a wingspan of 930 mm and a ready-to-fly weight of 260 g, it offers a balance of agility and stability. A test-flight video showcases its performance.
The model can be easily printed with standard PLA, and its design allows for a layer thickness of 0.2 mm and a single 0.4-mm wall. No supports are required, but a brim is advised.
The SU-29 is a great way for beginner fliers to learn the ropes of a 3D printed aircraft without the risk of breaking an expensive model. Additionally, the wings are detachable for transportation, making it easy to fly on-the-go.
The designer of this plane opted to print the fuselage with LW-PLA, a lighter version of traditional PLA for applications such as RC planes. The tires were printed in TPU and the motor mount is PETG. A complete bill of materials is included on Cults.
The Eclipson Model T is a popular remote control seaplane, but it costs around $20 for the full design. This model is the official free version, and it leaves out the floating landing gears of the plane.
Even if it can’t function as a seaplane, the Eclipson Model T is an excellent RC plane project. The plane has a single propeller and uses 29 different 3D printable parts, along with a long list of other hardware (e.g. screws and motors, among other parts).
Although the designer didn’t provide any printing tips, one recorded maker shared a few of the settings they used to make a great print. These settings include a raft activated, no supports, and a 0.2-mm layer height.
The Easy RC Plane is a budget-friendly option designed with simplicity and affordability in mind. While the small size might make it harder to fly for beginners, its emphasis on 3D printed parts aims to minimize costs and assembly complexity. With straightforward printing and assembly procedures, users can quickly construct the aircraft without extensive technical expertise. The model is so basic that motors, controllers, and batteries are mounted externally and secured with tape or rubber bands, simplifying maintenance and modifications.
The model requires LW-PLA and a 0.6-mm nozzle, although alternative parts tailored for a 0.4-mm nozzle are available in the repository. Consisting of only six 3D printed parts, the designer says neither supports nor infill are necessary. Assembly involves basic gluing.
The Piper J-3 Cub is an excellent RC plane for beginners because anyone of any age can assemble it. It has a wingspan of 1,068 mm and is extremely lightweight, as the designer printed it using lightweight PLA (LW-PLA). A max takeoff weight of around 0.7 kg was reported.
The most unique feature of this plane is that you can swap its landing gear with 3D printed floats, allowing your plane to take off or land on water. However, make sure to waterproof your float so that water does not seep in; you can easily do this with water-resistant paint or spray.
By following the designers’ detailed user guide, you can build your Piper in no time. Alternatively, you can also watch an assembly video posted by another maker, which includes a flight test.
This is a simple Pusher Propeller (PProp) plane with a wingspan of about 1,165 mm. It can be printed in vase mode using LW-PLA for the best flight performance. To find out what components you require for your PProp, check out the detailed shopping list, which includes quantity, purchase links, and an approximate cost of the components.
To put this all together, you can follow the assembly videos for this plane, but to view them, you’ll first need to join the Discord server made by the designer. Here, you’ll also find additional build and flight videos, along with support for queries. However, if you’re curious to see how well the aircraft flies, take a look at this flight video.
If you’re down to put in a bit more effort (and materials) into a plane, one of these models can get you off the ground.
The Northern Pike is both very popular and well-documented. This plane is built for first-person view (FPV) and includes a built-in camera mount on the nose to stream the video feed as you control the vehicle.
The designer 3D printed this plane on a Prusa i3 MK2S printer with PETG and PLA filament. In total, the printed models for this design consumed around 0.70 kg of filament and took 40 hours to make. The creator of this design listed that they used a 0% infill density, with a 0.1 to 0.25-mm layer height.
Crafted by a team of students comprising engineers, 3D printing enthusiasts, and RC hobbyists, the Hawk Modular RC Wing Airplane offers a blend of innovation and practicality. Designed as a flying wing concept, it aims to provide RC enthusiasts with a flying experience comparable to traditional RC planes. Extensive aerodynamic simulations conducted using XFLR5 software contribute to its flight characteristics.
Comprehensive build instructions are available in the files section to assist users in assembly. Its modular design facilitates effortless 3D printing on various machines, with motor mounting possible either in the front nose or in the rear. It’s advised to use LW-PLA filament, and parts are designed to be printed in vase mode with a 0.6-mm nozzle.
This glider is modeled after the ASK14, which first flew in 1967. The design contains many innovative features, such as a spring-loaded retractable wheel, scale airbrakes, a TPU wing fastening system, and others. However, the STL files for this plane will set you back around $45. Note that slicing will only work with Cura.
Lukisegler is an electric glider suitable for RC pilots with flight experience. It’s 3D printed using LW-PLA and has a span width of almost 1,700 mm. Because of this material choice, the plane weighs around 0.65 kg, making it a fast-flying aircraft.
You can find all the information regarding the plane’s specifications, required components, assembly instructions, and some helpful tips on Arts Modelle. However, the project page is in German, so you might have to use Google Chrome to translate the page or navigate to Printables instead, where most of the instructions can be found in English.
To avoid stringing, the designer recommends printing the plane’s parts individually with a layer height of 0.2 mm for the best results.
The HB1 E1000 RC Streamer Combat Airplane offers versatility and durability. Designed specifically for E1000 streamer combat but adaptable for sport wing use, it combines a modular 3D printed fuselage with a foam wing, optimizing both construction time and weight efficiency. The no-glue modular fuselage design enables quick and easy field repairs by allowing damaged parts to be swiftly replaced.
Detailed test flight and assembly videos provided by the designer offer valuable insights into the aircraft’s performance and construction process. In addition to the 3D printed parts and foam wings, assembly requires wood dowel rods, rubber bands, and other small hardware components. Although the designer recommends a 0.8-mm nozzle with a 0.8-mm layer height, printing with a 0.4-mm nozzle and 0.2-mm layer height is also possible, albeit with increased printing time.
The Flying Wing is a Y-shaped plane that’s almost entirely 3D printable. Despite its simplistic look, this plane isn’t for beginners and can be challenging to fly, according to the designer.
The plane uses 15 different 3D printable models for the frame and many electronic parts like an ESC for the motor, a 5-V regulator, two servos, and more. The creator of this design listed some print settings for making a few of the different 3D printable models. These settings include a 0.5-mm wall thickness, 0.2-mm layer height, and a 0-15% infill density based on the part.
This RC plane is a smaller, more agile variation of the designer’s previous RC plane project, the Red Duck. Although similar in name, the smaller model is “speedy and pretty maneuverable” and therefore recommended for those with some previous flight experience.
With a wingspan of just 794 mm, the parts can be printed fairly quickly and don’t require supports or rafts, so you can be ready for takeoff in no time! Check out some videos on how this plane glides through the air: an FPV flight and the maiden voyage.
For those up for a challenge, the same maker has a similar model, the Red Swan, with a massive wingspan of 1,950 mm. It needs nearly 1.8 kg of filament to print. Its name reflects the improved elegance of design compared to the original Red Duck.
An RC model with a small build and wingspan, the Micro SportCam is a 3D printed plane whose design and build are inspired by a kit aircraft known as the AirCam.
The design files are free, with the option to donate to help support the 3DAeroventures website. The weight of the printed parts will vary depending on if you choose standard PLA or LW-PLA. With the latter choice, the plane will weigh in at no more than 0.21 kg!
To follow the entire development process of the Micro, from the design to the flight test, take a look at this video and quickly construct your own!
This menacing RC plane is modeled after the combat-style airplanes used in many wars. It features a wide wingspan of 114 cm and is ready to take down whatever dangers you may find in the sky!
Keep in mind that you’ll need to purchase some extra parts besides RC equipment, such as carbon fiber rods and hinges. The creator of this plane chose to print all the parts in PLA, with most printed at a 0.25-mm layer height and the canopy printed at 0.1-mm layer height.
This 3D printable RC plane is inspired by the rcFoamFighters SuperNova foam pusher plane. On top of looking cool, you can see for yourself how this plane soars through the air!
The plane was 3D printed on a modified RepRap Mendelmax, with 100% infill and 0.25-mm resolution. The fully assembled plane weighs 1.42 kg, including electronics.
Experienced RC pilots may be interested in these impressive planes. Don’t worry – the hard work will pay off!
The Extra 300s Park Flyer embodies classic craftsmanship with laser-cut wing ribs, film-covered wings, carbon rod reinforcements, and a vacuum-formed bubble, along with cutting-edge 3D printed parts such as the fuselage. With a wingspan of 1000 mm and a takeoff weight of 600 g, it strikes a balance between size and performance.
A full build video provided by the designer offers valuable insight into the assembly process, catering to builders of all skill levels. Not only the STL files for 3D printing are available, but also DXF files for the laser-cut parts.
This Melusine is a 3D printed twin tail electric glider and FPV platform, with a weight of around 2.3 kg and a massive wingspan of 2,320 mm. It’s a twin tail pusher prop electric glider with interchangeable noses for FPV cameras and optional tricycle landing gear with a steerable nose wheel. The Melusine also has 3D printable folding props that make it look like an eagle in the sky when it flies.
The designer recommends using PLA filament to 3D print the parts for the glider and a flexible material (e.g. TPU) for the tires.
Inspired by the Radab Windex, a single-seat aerobatic glider, the Windex is a 3D printed RC model that weighs roughly 2.25 kg with a wingspan of 2,500 mm.
The designer has printed the aircraft’s fuselage using LW-PLA and covered it with carbon fiber vinyl. He also used balsa wood for different parts of the plane, especially the wings, to make it as lightweight as possible.
To help you build your Windex, there is a complete YouTube playlist that includes its various development stages and assembly, as well as a 5-minute time lapse that gives you a quick overview of the entire build. However, assembling this RC model can take some time before it’s ready to take to the skies.
The PLA Moose is a DIY plane whose design was inspired by the Yak-54 aircraft and Mr. Burns’ Spruce Moose from The Simpsons. According to the creator of this plane, the PLA Moose has a wingspan of 1,000 mm, and the prototype (printed in PLA) flew successfully. Also, check out the glow-in-the-dark print of this plane from the creator!
This RC plane uses a brushless motor, two servos, and a 4S 3,300 mAh battery to fly – all contained in its 25-part 3D printed frame. It’s worth noting that the plane weighs a fair amount, around 1.6 kg, but the design was updated to make it lighter. The designer lists that they printed the pieces for the PLA Moose with a 5% infill density with supports activated, but no raft is required.
Modeled after the real Shark.Aero airplane, this 1/8 scale model is an easy-to-assemble build for more experienced fliers. It has a wingspan of 990 mm and is built for speed.
The creator of this model chose to print it with PLA on a Flashforge 2s. For assembling the plane, they recommend using regular CA glue such as Loctite. OEM CA adhesives can cause parts to eventually break apart.
A prototype modeled after the aerobatic glider of the same name, the Swift S1 is a RC model with a wingspan of 2,000 mm and a flying weight of about 2.08 kg.
The Swift’s entire body is made up of components that were 3D printed using various materials, including ASA for the fuselage, PETG for the wings and tail surface, and TPU for the attachment hinges. For a durable and lightweight construction, the body also includes carbon tubes inside.
To test the aircraft’s flight ability, the maker took it for a spin at the beach, and he noticed only one drawback: The ASA fuselage got pretty dirty by landing on the sand and grass. Other than that, it flies exceptionally well!
This RC plane stands out from the other selections on this list. Why? It has a mini jet-like engine!
Of course, the EL-39 doesn’t use the same jet as a commercial plane, but it has an electric ducted fan (EDF). The EDF functions similarly to real jet engines but uses electricity and functions at a much smaller scale. It allows the EL-39 to fly very fast.
This RC jet is almost entirely 3D printed, including the EDF unit and landing gear. The EL-39 also has a length of 1,858 mm, a wingspan of 1,451 mm, and weighs roughly 7.5 kg.
The designer of this plane 3D printed the larger parts with a JGAurora A5 and the smaller parts on a Wanhao Duplicator i3. Any machine with a print area of 300 × 300 mm will work for the larger parts, and many of the other parts fit on a 200 × 200 mm bed (or even smaller). It’s important to note that the main tires, nose tire, and a few of the fan components should be 3D printed in a flexible material like TPU.
This design is 400 mm wide and has only three printed parts. There’s a place to hold a camera, allowing for FPV capability. Plus, it flies very well.
This model was created in Tinkercad. According to the listed settings, it should be printed with two walls (each 0.4 mm thick), a grid infill pattern, and no bottom and top layers.
License: The text of "3D Printed RC Plane: The Best Models in 2024" by All3DP is licensed under a Creative Commons Attribution 4.0 International License.