Fortune Cat® can produce Carbon Fiber Drone Accessories.
Item Name: Carbon Fiber Drone Accessories.
Brand: Fortune Cat®
If you are interested in this product, please feel free to contact us: fortunecatyarns@outlook.com
Fortune Cat® Carbon Fiber Production Base specializes in the research and development, as well as production, of PAN-based carbon fiber precursor, carbon fiber filaments, carbon fiber composite materials, and carbon fiber products. Fortune Cat® can provide customers with integrated full industry chain services, including carbon fiber precursor, carbon fiber filaments, carbon fiber fabrics, liquid resins, adhesives, carbon fiber prepreg, carbon fiber composite components, and aviation composite structural components. The production capacity can reach 40000 tons of carbon fiber precursor and 20000 tons of large tow carbon fiber per year. By testing, the 48K carbon fiber produced by the Fortune Cat® carbon fiber production base has a tensile strength of 4000Mpa, a tensile modulus of 240Gpa, and an interlayer shear strength of 60Mpa.
PAN based carbon fibers can be divided into small and large fiber tows according to fiber tow size. Fiber tows below 24k refer to small tow carbon fiber, which consist of 1000-24000 individual fibers; And the specification of large tow carbon fiber is ≥ 48k, which means that the number of single fibers in the bundle exceeds 48000. In addition to distinguishing between simple tow specifications, there are significant differences in mechanical properties and application fields between small and large tow carbon fibers.
Small tow carbon fiber has excellent mechanical properties, with a tensile strength of 3.5-7.0 GPa and a tensile modulus of 230-650 GPa. It is mainly used in aerospace, defense and military industries, as well as high-end sports and leisure products, and is therefore also known as aerospace grade carbon fiber. Aerospace grade small fiber tows have extremely strict requirements for reliability, processability, stability, and so on.
Large tow carbon fibers have a tensile strength of 3.5-5.0 GPa and a tensile modulus of 230-290 GPa, and are generally used in fields such as textiles, medicine and health, electromechanical, civil engineering, transportation, and energy, hence they are also known as industrial grade carbon fibers. The technical barriers for large tow carbon fiber are quite high. As an industrial grade carbon fiber, its core driving force lies in low cost, so enterprises must effectively control production costs. The rapidly growing global wind power industry has brought business opportunities for the development of Fortune Cat®‘s large tow carbon fiber.
In the subsequent application process of large tow carbon fiber, due to the large size and easy aggregation of fiber bundles, the yarn spreading effect is not good, which leads to poor resin infiltration into the fibers and is prone to defects such as pores. In addition, during the process of developing large tow carbon fibers, there may be disordered and broken yarns, resulting in significant dispersion of mechanical properties, further increasing the difficulty of applying large tow carbon fibers.
In the medical field, carbon materials have advantages such as good biocompatibility, low irritation to living tissues, non-toxic, non-carcinogenic, low specific gravity, and similar elastic modulus to human bone, making them a potential fourth generation implant material.
In the field of transportation, the application of large tow carbon fiber is mainly in civil aircraft, automobiles, fast trains, and other transportation vehicles. For example, it can be used to manufacture carbon/carbon composite brake systems and automotive transmission shafts, which can significantly reduce the weight of automobiles, thereby reducing energy consumption and improving automotive control systems, which is beneficial for environmental protection and has become the preferred choice for automotive lightweighting.
Carbon fiber has broad application prospects in the energy field. At present, in the field of energy, carbon fiber reinforced composite materials mainly solve two problems. Firstly, improving energy utilization efficiency. For example, carbon fiber used in automotive components can reduce vehicle weight and improve fuel utilization efficiency; The second is to provide clean energy, such as carbon fiber wind turbine blades and carbon fiber wind turbine propellers applied in the wind power field.
In the field of sports and leisure, large tow carbon fiber products mainly include fishing rods, golf clubs, snowboards, badminton rackets, etc.
In terms of infrastructure, large tow carbon fibers can be used to enhance cement. Carbon fiber reinforced cement composite materials have high strength and stiffness, and can be applied in bridges, buildings, and other fields to further increase the service life of buildings.
In the industrial field, carbon fiber can be applied in industries such as papermaking, metallurgy, chemical, textile, and medical machinery. Various components that require working in environments such as high strength, high stiffness, light weight, high temperature resistance, and corrosion resistance, such as various shafts, containers, pipelines, and platforms, can be manufactured using carbon fiber.
Fortune Cat®’s products mainly include carbon fiber basic materials, high-strength carbon fibers, carbon fiber fabrics, high-performance material fabrics, warp knitted reinforced fabrics, multi axial warp knitted composite materials, advanced carbon fiber composite materials for rail transit, multiple models of high-speed trains, carbon fiber composite material components for maglev trains and aerospace, high-performance prepregs, carbon fiber composite material products, etc. Fortune Cat®’s carbon fiber product is widely used in aerospace, weapons and equipment, wind turbine blades, photovoltaic thermal fields, high-pressure hydrogen storage, sports and leisure, building reinforcement and other fields.
E-mail us to get a free quote: fortunecatfibers@outlook.com
Fortune Cat® can produce Carbon Fiber Drone Accessories.
Item Name: Carbon Fiber Drone Accessories.
Brand: Fortune Cat®
Characteristics:
Long endurance: Carbon fiber has the characteristic of being extremely lightweight, and the carbon fiber drone frame made of it is particularly lightweight. Compared with other materials of drones, it has a longer endurance.
Strong sturdiness: The compressive strength of carbon fiber is above 3500MP, and it has the characteristic of high strength. The carbon fiber drone made of it has strong impact resistance and extremely strong compressive capacity.
Easy to assemble and disassemble: The carbon fiber multi rotor unmanned frame has a simple structure and is connected by aluminum columns and bolts, making it extremely convenient to arrange during component installation; Can be assembled anytime and anywhere, easy to carry; It is particularly convenient to use; And it uses aviation aluminum columns and bolts, which have strong firmness.
Excellent stability: The pan tilt of the multi rotor carbon fiber drone frame made of carbon fiber has the effect of shock absorption and stability enhancement, which counteracts the impact of body shaking or oscillation through the pan tilt. The combination of good shock-absorbing balls and pan tilt plates effectively increases stability and reduces shock-absorbing performance, allowing for smooth flight in the air.
Safety: The carbon fiber multi rotor drone frame ensures a high safety factor due to the power being dispersed across multiple arms; In flight, force balance can be achieved, making it easy to control and actively hovering, allowing it to fly along the desired path and avoid sudden landing causing danger.
Fortune Cat® has 6 quality control personnel responsible for quality control testing in each production process. Corresponding control personnel are equipped in the material pasting process, pressing process, precision carving design, CNC processing, product testing, and packaging processes to ensure that every customer is satisfied.
Pneumatic performance: smooth appearance, correct shape, and good symmetry.
Structural strength: Good overall and local rigidity, high strength, durability, resistance to fatigue damage, and high reliability of the body
Weight: Reduce the structural weight of the body by about 15% to 20%, and increase the useful load capacity.
Process and Economy: Simplify drone process equipment, reduce device workload, shorten manufacturing cycles, and lower overall lifecycle costs.
Because drones generally have the characteristics of small size and light weight, and the safety standards for manned aircraft are not the same, a new standard system needs to be developed and followed in material design and processing technology design. This is also the content that drone material designers around the world continue to research and explore. At present, several important manufacturing methods are used, including hot pressing can forming, vacuum bag forming, and molding.
If you are interested in this product, please feel free to contact us: fortunecatyarns@outlook.com
280 wheelbase, the boom is made of 3.0mm thick all carbon fiber board, and the body thickness is 1.5mm all carbon fiber board, ensuring the strength of the spacecraft during flight and effectively reducing vibration.
The entire unmanned aerial vehicle rack is made of pure carbon fiber board processing, which is lightweight. The entire empty weight of the aircraft is 135g (including bolt aluminum pillars and other unmanned aerial vehicle accessories), with a small volume and long endurance time.
The body is connected by aluminum alloy columns, which are easy to modify and ensure the strength of the body.
If you are interested in this product, please feel free to contact us: fortunecatyarns@outlook.com