- Schedule. Mon - Sat 9.00 - 18.00
Aerospace And UAV Parts Manufacturing
With profound expertise in precision manufacturing, Htsin provides efficient, accurate, and cost-effective machining services for the aerospace and UAV industry. Adhering to stringent industry standards, we ensure quality from material selection to final delivery, fueling aerospace innovation.
Over 40 Certified Aerospace-Grade Materials
Custom Surface Finishes for Extreme Environments
Flexible Order Sizes, No Minimum Requirement
Fast Turnaround Times for Urgent Missions
Htsin Core Technical Strengths in Aerospace Manufacturing
Engineering Excellence for Extreme Environments
In the aerospace industry, where performance under extreme conditions defines success, Htsin 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.
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Precision Machining Technologies
Precision is critical in aerospace manufacturing, where even minor deviations affect mission safety. Htsin masters manufacturing of key aero-engine components (casings, turbine disks) and high-complexity parts like landing gear frames.
With advanced five-axis machining centers (24,000r/min) and high-speed milling systems, we achieve ±0.001mm accuracy, meeting strict industry standards.
R&D projects like “Adaptive Cutting Technology for Complex Structures” optimize CNC efficiency, keeping us at the technological forefront.
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Material Application and Innovation
Htsin Precision manufactures critical components that meet the extreme demands of aerospace applications, operating reliably across a wide temperature range and under high-pressure conditions. We specialize in machining and fabricating advanced aerospace-grade materials, including:
Titanium Alloys (such as Ti-6Al-4V)
High-Strength Aluminum Alloys (e.g., 7075-T6)
High-Temperature Alloys & Composites
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Advanced Manufacturing Processes
Htsin integrates precision cutting, investment casting, forging, and additive manufacturing to tackle complex aerospace components. For turbine blades, we use multi-process synergy: investment casting (±0.1mm tolerance) → five-axis machining (Ra≤0.8μm) → heat-resistant coating. This ensures stable high-temperature/high-rotation performance. We explore near-net-shape manufacturing to enhance quality, efficiency, and cost-effectiveness.
Precision in Every Step
End - to - End Process Control for Reliable Component Production
Engineering
Our engineering team leverages advanced CAM and manufacturing analysis to transform your designs into optimized production plans. We focus on creating efficient machining processes that ensure precision, reduce costs, and shorten lead times.
Stringent Material Screening
Global premium aerospace materials (titanium alloys, composites) undergo strict inspections via spectrometers and metallographic microscopes.
Precision Machining
Multi-process collaboration (cutting, casting, additive manufacturing) with advanced equipment achieves high-precision production.
Surface Treatment
Specialized workshops provide anodizing/plating with strict process control, ensuring enhanced wear/corrosion resistance.
Full-Process Quality Inspection
Comprehensive traceability system with coordinate measuring/non-destructive testing ensures quality compliance.
Assembly and Debugging
Laser measuring tools ensure precise assembly; real-condition testing verifies performance stability.
Core Aerospace Component Manufacturing Cases
Proven Expertise in Critical Part Production
Htsin 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.
Aero-Engine Parts
As the aircraft’s “heart,” aero-engine parts demand extreme precision. Htsin 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.
Aircraft Structural Parts
Fuselage, wings, and empennage bear main loads, requiring high strength and lightweight performance. Htsin uses aluminum alloys, titanium alloys, and composites with precision forging and CNC machining, plus advanced joining technologies, to ensure structural reliability and flight safety.
Aerospace Control System Parts
Control system parts (sensors, actuators, controllers) require ultra-high precision and reliability. Htsin employs precision machining and microelectronic processes, with strict environmental and reliability tests to ensure stable operation in complex electromagnetic and extreme climate conditions.
Aircraft Landing Gear Components
Landing gear components (struts, wheels, brakes) endure extreme impact loads during takeoff and landing. Htsin manufactures them using high-strength alloy steels and titanium alloys, combining precision forging and heat treatment to achieve superior fatigue resistance and structural toughness.
Aero-Engine Parts
As the aircraft’s “heart,” aero-engine parts demand extreme precision. Htsin 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.
Aircraft Structural Parts
Fuselage, wings, and empennage bear main loads, requiring high strength and lightweight performance. Htsin uses aluminum alloys, titanium alloys, and composites with precision forging and CNC machining, plus advanced joining technologies, to ensure structural reliability and flight safety.
Aerospace Control System Parts
Control system parts (sensors, actuators, controllers) require ultra-high precision and reliability. Htsin employs precision machining and microelectronic processes, with strict environmental and reliability tests to ensure stable operation in complex electromagnetic and extreme climate conditions.
Aircraft Landing Gear Components
Landing gear components (struts, wheels, brakes) endure extreme impact loads during takeoff and landing. Htsin manufactures them using high-strength alloy steels and titanium alloys, combining precision forging and heat treatment to achieve superior fatigue resistance and structural toughness.