Carbon fiber advanced drone rack is a kind of frame made of carbon fiber reinforced polymer material, which has many advantages such as light weight, high strength, high rigidity, corrosion resistance and so on. Because of these superior properties, it is increasingly becoming one of the mainstream products in the drone manufacturing industry. It is a very good drone rack with many superior performances, and can bring more opportunities for innovation and development for the drone manufacturing industry. Therefore, people should actively use and promote this advanced material to expand the application range of UAVs.
The production processes
UAV is a new type of equipment in the field of aircraft in recent years, due to its application in military, civil, commercial and scientific research has been more and more extensive. The frame is the skeleton of the drone, which plays an important role in carrying and supporting the entire fuselage. Because of its light weight and high strength, carbon fiber material has become an ideal material for making drone frames. The production process goes through the following steps:
1. Material preparation
Carbon fiber cloth, epoxy resin, reinforcement materials, foil, rigid foam board and other materials need to be prepared. Among them, carbon fiber and epoxy resin are the necessary materials to make it.
2. Mold making
Using pure aluminum material as the mold, two large molds are produced, and there are multiple intermediate molds in the middle. The inner shape of the head and tail mold is the front head and tail structure of the UAV frame, and the inner shape of the middle mold is the middle structure and connection device of the fuselage. After the mold is made, the mold is covered with plastic paper, and the next task is to fix the carbon fiber surface and lining in the mold.
3. Carbon fiber processing
The carbon fiber rigid cloth is cut into a shape that matches the mold, and then an average layer of epoxy resin is applied to the surface of the carbon fiber cloth, and then the carbon fiber is spread flat and laid according to the inner shape of the mold. Repeat the above steps until the mold is made.
4. Carbon fiber synthesis
After laying multiple layers of carbon fiber, each layer of carbon fiber is coated with epoxy resin, and then covered with a layer of transparent tin foil to make the anti-voltaic effect better, and reinforced to make it more durable.
5. Rack assembly
When the glue is dry, disassemble the mold, assemble it into a complete drone fuselage, and make the necessary trimming, fix the connection, and install the required parts.
merits
1.It has the characteristics of light weight and high strength, its specific gravity is only 1/4 of aluminum, 1/7 of steel, and its strength is 5 times higher than that of aluminum. Such a material can significantly reduce the weight of the drone, improve its flight performance, and also increase its durability, reducing the possibility of accidental failure. Because carbon fiber has a lower density, the use of carbon fiber can reduce the weight of the frame itself, thereby improving the performance of the airframe in terms of speed, handling and endurance.
2.It is characterized by high strength and rigidity. Because carbon fiber material has good tensile strength and compressive strength, it can better withstand various loads during flight by combining carbon fiber fabrics in different directions into composite materials.
3.It also has very good vibration damping properties. In the case of high-speed flight or strong airflow, traditional metal frames are susceptible to shock and vibration, resulting in unstable drone flight. The vibration damping performance of carbon fiber material is excellent, which can effectively reduce the vibration of the frame and increase the stability and safety of the drone.
4.It has good corrosion resistance. Traditional metal racks are susceptible to corrosion due to the influence of external environment and oxidation, and carbon fiber materials can effectively resist this influence, enhance the durability and stability of the frame, and extend the service life of the drone. It has a good protective effect on flying in harsh environmental and climatic conditions. As a result, it is more durable and reliable than other materials, and can withstand a variety of complex and arbitrary flight conditions.
5.Because it has many advantages such as simple manufacturing process, high molding accuracy and convenient maintenance, it also has a wide range of application prospects in manufacturing process and engineering practice.
In short, its advantages of light weight, high strength, strong vibration damping performance and good corrosion resistance make it have a wide range of application prospects in the field of UAVs, driving the sustainable development of the UAV industry. Therefore, people should actively use and promote this advanced material to expand the application range of UAVs. In the future production, people can make a lighter and stronger drone fuselage through carbon fiber, develop a better drone, contribute their own strength to the rapid improvement of human development, and make greater contributions to the future world.
FAQ
Q1. How do you pack the goods?
A:We wrap the goods with soft plastic bags first and then pack it using a cardboard box with foam board inside.
Q2. What is the lead time?
A:The sample needs 1-5 days, mass production depends on order quantity. Normally 10-15 days.
Q3. What services can we provide?
A:Accepted Delivery Terms: FOB, CFR, CIF, EXW, Express Delivery; Accepted Payment Currency:USD,HKD,CNY,EUR;
Accepted Payment Type: T/T, L/C, D/P, D/A, PayPal, Western Union, Escrow;
Language Spoken:English,Chinese
We provide our clients with excellent after-sale service including logistics tracking, application guide, problem solution, etc.
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