With profound expertise in precision manufacturing, TTD provides efficient, accurate, and cost – effective machining services for the aerospace industry. Adhering to stringent industry standards, we ensure quality from material selection to final delivery, fueling aerospace innovation.
With TTD’s expertise in aerospace prototyping and component manufacturing, we ensure precision and reliability. Explore processes tailored to your aerospace project needs, and elevate your development experience with us.
In the aerospace industry, where performance under extreme conditions defines success, TTD’s technical prowess forms the backbone of reliable component manufacturing. We combine micron-level precision machining technologies, advanced material application expertise, and multi-process collaborative manufacturing to tackle the most demanding challenges—from aero-engine turbine blades operating at high temperatures to lightweight structural parts requiring exceptional strength. Every innovation in machining, material science, and process optimization is engineered to ensure our components meet the industry’s stringent standards for safety, durability, and performance, empowering aerospace projects to reach new heights.
Advanced CAD/CAM/CAE tools enable tailored designs. Finite element simulation optimizes reliability and shortens R&D cycles.
Global premium aerospace materials (titanium alloys, composites) undergo strict inspections via spectrometers and metallographic microscopes.
Multi-process collaboration (cutting, casting, additive manufacturing) with advanced equipment achieves high-precision production.
Specialized workshops provide anodizing/plating with strict process control, ensuring enhanced wear/corrosion resistance.
Laser measuring tools ensure precise assembly; real-condition testing verifies performance stability.
Comprehensive traceability system with coordinate measuring/non-destructive testing ensures quality compliance.
TTD specializes in manufacturing high-performance aerospace components across core systems. From aero-engine “heart” parts to aircraft structural frameworks and precision control components, each case integrates advanced materials, sophisticated processes, and strict quality control to meet the industry’s extreme demands for reliability and performance.
As the aircraft’s “heart,” aero-engine parts demand extreme precision. TTD manufactures turbine blades, combustion chambers, and compressor disks using high-temperature alloys, precision casting, and five-axis machining—ensuring stable operation under high temperature, pressure, and rotational speed.
Fuselage, wings, and empennage bear main loads, requiring high strength and lightweight performance. TTD uses aluminum alloys, titanium alloys, and composites with precision forging and CNC machining, plus advanced joining technologies, to ensure structural reliability and flight safety.
Control system parts (sensors, actuators, controllers) require ultra-high precision and reliability. TTD employs precision machining and microelectronic processes, with strict environmental and reliability tests to ensure stable operation in complex electromagnetic and extreme climate conditions.
Landing gear components (struts, wheels, brakes) endure extreme impact loads during takeoff and landing. TTD manufactures them using high-strength alloy steels and titanium alloys, combining precision forging and heat treatment to achieve superior fatigue resistance and structural toughness.
As the aircraft’s “heart,” aero-engine parts demand extreme precision. TTD manufactures turbine blades, combustion chambers, and compressor disks using high-temperature alloys, precision casting, and five-axis machining—ensuring stable operation under high temperature, pressure, and rotational speed.
Fuselage, wings, and empennage bear main loads, requiring high strength and lightweight performance. TTD uses aluminum alloys, titanium alloys, and composites with precision forging and CNC machining, plus advanced joining technologies, to ensure structural reliability and flight safety.
Control system parts (sensors, actuators, controllers) require ultra-high precision and reliability. TTD employs precision machining and microelectronic processes, with strict environmental and reliability tests to ensure stable operation in complex electromagnetic and extreme climate conditions.
Landing gear components (struts, wheels, brakes) endure extreme impact loads during takeoff and landing. TTD manufactures them using high-strength alloy steels and titanium alloys, combining precision forging and heat treatment to achieve superior fatigue resistance and structural toughness.
Partner with TTD for exceptional aerospace part quality and efficient service that surpasses expectations, significantly reducing costs associated with ineffective communication.
Typical materials include titanium alloys (e.g., Ti-6Al-4V), high-strength aluminum alloys (e.g., 7075-T6), nickel-based superalloys, and carbon fiber composites. These materials offer high strength-to-weight ratios, excellent thermal stability, and corrosion resistance, crucial for aerospace applications.
5-axis CNC machining enables the fabrication of highly complex, contoured aerospace parts (such as turbine blades and structural brackets) in a single setup. It improves machining accuracy, reduces setup times, and allows for better surface finish quality, meeting the stringent geometric and performance requirements of aerospace systems.
Aerospace parts must adhere to strict standards like AS9100 (quality management), NADCAP (special processes), and ISO 9001. They also need to comply with material specifications (e.g., AMS, MIL) and undergo rigorous inspection (e.g., CMM, NDT) to ensure dimensional accuracy, structural integrity, and safety for flight-critical applications.
For prototyping, CNC machining allows rapid iteration of designs with high precision. In production, advanced CNC systems optimize toolpaths, minimize material waste, and enable lights-out machining for high-volume runs. Additionally, multi-axis machining reduces the need for secondary operations, lowering overall manufacturing costs while maintaining aerospace-grade quality.
Swiss CNC machining excels at producing long, slender, and highly precise aerospace parts (e.g., valve components, instrumentation shafts) with tight tolerances. It uses a guide bushing to support the workpiece, reducing deflection during cutting. This results in superior concentricity, surface finish, and efficiency for small-diameter, complex aerospace components compared to traditional CNC methods.
