DAWIN FRICTION
See us at Seoul ADEX 2025 · Booth: 8-P11
Namdong-gu, Incheon, South Korea
Aerospace
Products & Services
B737 Stator and Rotor
Dawin Friction
Optimized Friction Materials: Ensures consistent braking performance under diverse operational conditions.
Extended Service Life: Designed to reduce wear and improve cost-efficiency for operators.
Enhanced Safety & Reliability: Engineered to comply with global aviation standards for maximum operational safety.
Sustainable Technology: Developed with advanced manufacturing processes that minimize environmental impact.
Extended Service Life: Designed to reduce wear and improve cost-efficiency for operators.
Enhanced Safety & Reliability: Engineered to comply with global aviation standards for maximum operational safety.
Sustainable Technology: Developed with advanced manufacturing processes that minimize environmental impact.
E-Brake
Dawin Friction
Weight Reduction: Eliminates complex hydraulic lines, pumps, and fluids, thereby reducing overall aircraft weight.
Maintenance Efficiency: Simplifies maintenance requirements by removing hydraulic components that are prone to leakage and degradation.
Improved Reliability: Provides precise braking control with fewer mechanical parts, resulting in higher system reliability and reduced downtime.
Integration with Advanced Systems: Enables seamless connection with modern avionics and aircraft health monitoring systems, supporting predictive maintenance and optimized performance.
Maintenance Efficiency: Simplifies maintenance requirements by removing hydraulic components that are prone to leakage and degradation.
Improved Reliability: Provides precise braking control with fewer mechanical parts, resulting in higher system reliability and reduced downtime.
Integration with Advanced Systems: Enables seamless connection with modern avionics and aircraft health monitoring systems, supporting predictive maintenance and optimized performance.
Main Wheel
Dawin Friction
The main wheel assembly refers to the complete structural unit that includes the wheel, tire, axle, bearings, and in most cases, the braking system. As the primary load-bearing gear, the assembly is engineered to absorb high-impact forces during landing and provide strong braking performance during deceleration. Its design integrates durability, safety, and serviceability, making it a critical element of aircraft ground operations.
Advanced Hydraulic Braking Systems for Aircraft
Dawin Friction
Superior Performance: Stable braking power under extreme operating conditions, from taxiing to high-speed landings.
Proven Reliability: Robust structures and advanced materials that guarantee long service life with minimal maintenance.
Optimized Safety: Redundant design features and compliance with international aviation standards to meet the highest levels of operational safety.
Custom Solutions: Tailored brake designs to fit the specific requirements of fixed-wing aircraft, rotary aircraft, and unmanned aerial platforms.
Proven Reliability: Robust structures and advanced materials that guarantee long service life with minimal maintenance.
Optimized Safety: Redundant design features and compliance with international aviation standards to meet the highest levels of operational safety.
Custom Solutions: Tailored brake designs to fit the specific requirements of fixed-wing aircraft, rotary aircraft, and unmanned aerial platforms.
Nose Wheel
Dawin Friction
The nose wheel assembly refers to the complete integrated unit consisting of the wheel, tire, axle, bearings, and associated structural components. In some configurations, it also includes steering mechanisms, shock absorbers (oleo strut), and braking systems (for specific aircraft types). The assembly is engineered for durability, precision, and reliability, enabling the aircraft to safely absorb impact forces during landing and provide accurate steering during taxiing.
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