Helicopter uses carbon fiber reinforced PEEK composite case
In the history of the development of carbon fiber, thermoset carbon fiber gradually outlawed the traditional metal materials, very good to improve the performance of the product, common such as carbon fiber car lightweight, very good to improve the car power performance, reduce energy consumption; such as carbon fiber Kun Shaft, very good to reduce the cost of manufacturers, better to ensure mass production; and then for example, carbon fiber corrosion-resistant panels, in some places with a harsh environment, regardless of the wind and sun, not easy to corrosion, greatly saving labor costs and so on. That thermosetting carbon fiber development at the moment, we also hope to improve, that is, the performance of more excellent thermoplastic carbon fiber, in the development of thermoplastic carbon fiber, much attention is paid to the reinforced PEEK composite material, that carbon fiber peek composite material can better performance of high toughness, can be the second field are excellent performance in the military field of helicopters have used carbon fiber reinforced PEEK composite case,SMARTNOBLE will come to give you a detailed explanation.
In the past, helicopters mainly used thermoset composites, but thermoset composites are prone to delamination under low-speed impact loads, and their toughness and fatigue resistance are difficult to meet the special needs of high damage resistance, high fatigue resistance and ballistic damage tolerance for specific structures such as the central part of the propeller hub and the drive shaft.
Helicopters have low altitude, low speed and hovering back and other maneuvering flight capabilities, can take off and land vertically in small areas, but in special environments such as plateau areas are vulnerable to low-speed impact damage from sand and dust and other foreign particles. The service environment of military helicopters is often more severe. When performing low-altitude combat missions, the height of military helicopters will be exposed to the effective firing distance of light weapons, in order to avoid being hit by ground fire and crashed, the tail beam, rotor and drive shaft and other important parts of the bullet damage tolerance directly determines the viability and safety of military helicopters. Therefore, carbon fiber reinforced thermoplastic composites with good weather resistance, corrosion resistance and fatigue resistance have become an effective way to enhance the flight safety of helicopters, especially military helicopters.
The use of carbon fiber PEEK composites in helicopters is a good alternative to metal parts and central parts of helicopters, which reduces the cost and is better able to effectively reduce the weight of helicopters, making the range of helicopters greatly improved, and in the use of helicopters, it is good to improve the ability to resist wear and reduce the fatigue and cracks of the structure.
As a leader in thermoplastic carbon fiber - reinforced peek composites also have important properties of recyclability and skin-friendly properties of medical devices. When used as artificial joint prosthesis, it also showed good pro-osteoblast proliferation and adhesion ability. The interfacial bonding strength of carbon fiber-reinforced polyetheretherketone composites and bone is better than other artificial joint materials, and the clinical application efficacy is significantly better than that of metal products.
Similar to thermosetting carbon fiber composites, carbon fiber-reinforced polyetheretherketone composites have good X-ray penetration ability, which is not easy to form obscuring barriers during radiolocation diagnosis and also can avoid artifacts around them. In clinical practice, this X-ray penetration helps to clearly observe the healing of the lesion and facilitates the physician to better perform orthopedic type related revision treatment.
In this case, carbon fiber PEEK materials are rapidly gaining recognition is not without reason, carbon fiber reinforced PEEK composite materials using long fiber carbon fiber, can better make the product performance is improved, in the tensile strength of the performance of better, so the military field is not simply helicopters using this composite material, there are more high-precision parts are also constantly The use of carbon fiber reinforced PEEK material.This is also an important reason why SMARTNOBLE is optimistic about the future of thermoplastic carbon fiber. Then to find out whether your products also have thermoplastic carbon fiber products, welcome to SMRTNOBLE official website.
In the past, helicopters mainly used thermoset composites, but thermoset composites are prone to delamination under low-speed impact loads, and their toughness and fatigue resistance are difficult to meet the special needs of high damage resistance, high fatigue resistance and ballistic damage tolerance for specific structures such as the central part of the propeller hub and the drive shaft.
Helicopters have low altitude, low speed and hovering back and other maneuvering flight capabilities, can take off and land vertically in small areas, but in special environments such as plateau areas are vulnerable to low-speed impact damage from sand and dust and other foreign particles. The service environment of military helicopters is often more severe. When performing low-altitude combat missions, the height of military helicopters will be exposed to the effective firing distance of light weapons, in order to avoid being hit by ground fire and crashed, the tail beam, rotor and drive shaft and other important parts of the bullet damage tolerance directly determines the viability and safety of military helicopters. Therefore, carbon fiber reinforced thermoplastic composites with good weather resistance, corrosion resistance and fatigue resistance have become an effective way to enhance the flight safety of helicopters, especially military helicopters.
The use of carbon fiber PEEK composites in helicopters is a good alternative to metal parts and central parts of helicopters, which reduces the cost and is better able to effectively reduce the weight of helicopters, making the range of helicopters greatly improved, and in the use of helicopters, it is good to improve the ability to resist wear and reduce the fatigue and cracks of the structure.
As a leader in thermoplastic carbon fiber - reinforced peek composites also have important properties of recyclability and skin-friendly properties of medical devices. When used as artificial joint prosthesis, it also showed good pro-osteoblast proliferation and adhesion ability. The interfacial bonding strength of carbon fiber-reinforced polyetheretherketone composites and bone is better than other artificial joint materials, and the clinical application efficacy is significantly better than that of metal products.
Similar to thermosetting carbon fiber composites, carbon fiber-reinforced polyetheretherketone composites have good X-ray penetration ability, which is not easy to form obscuring barriers during radiolocation diagnosis and also can avoid artifacts around them. In clinical practice, this X-ray penetration helps to clearly observe the healing of the lesion and facilitates the physician to better perform orthopedic type related revision treatment.
In this case, carbon fiber PEEK materials are rapidly gaining recognition is not without reason, carbon fiber reinforced PEEK composite materials using long fiber carbon fiber, can better make the product performance is improved, in the tensile strength of the performance of better, so the military field is not simply helicopters using this composite material, there are more high-precision parts are also constantly The use of carbon fiber reinforced PEEK material.This is also an important reason why SMARTNOBLE is optimistic about the future of thermoplastic carbon fiber. Then to find out whether your products also have thermoplastic carbon fiber products, welcome to SMRTNOBLE official website.