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Applications

Applications

Aluminum matrix composites are used for structural and thermal management applications in aerospace, electronic packaging, equipment manufacturing and marine industries, replacing selected traditional metal solutions.

Aerospace application scenario

AEROSPACE APPLICATION

Aerospace

Focused on lightweight structures and high-precision opto-mechanical payloads, balancing high specific stiffness, dimensional stability and thermal management.

Suitable for opto-mechanical structures, remote-sensing payloads, aircraft load-bearing structures and rocket housings, offering a better balance between weight reduction and structural stability than selected traditional titanium and aluminum alloy solutions.

  • Typical uses: remote-sensing satellites, turret pods, mirror systems and inertial navigation structures.
  • Applicable parts: brackets, rudders, blade hub clamps, bushings and precision ranging structures.
  • Core value: lighter structural loads, more stable dimensional control and higher stiffness.
Infrared Cameras Remote-Sensing Cameras Space Camera Structures
Electronic packaging application scenario

ELECTRONIC PACKAGING

Electronic Packaging

Designed for high-heat-flux devices, emphasizing high thermal conductivity, low thermal expansion and thermal matching.

Focused on thermal management for wireless communication, radar systems and power modules, including RF and microwave packages, power amplifier heat sinks, PCB cores, cooling plates and multi-chip module packaging.

  • Key capability: coordinated optimization of high thermal conductivity, low expansion, thermal matching and structural stability.
  • Applications: active phased-array radar, high-energy lasers, hybrid circuits and ultra-high-power modules.
  • Value: improves packaging efficiency and reduces performance risks caused by thermal mismatch.
IGBT Package Structures Power MOSFETs Phased-Array Radar T/R Modules
Equipment manufacturing application scenario

EQUIPMENT MANUFACTURING

Equipment Manufacturing

Supporting lightweight upgrades for high-end equipment while balancing load reduction, structural strength and stability under complex operating conditions.

Suitable for housings, support frames, payload systems, suspension systems, navigation systems and optical systems, helping equipment manufacturers balance weight reduction, heat dissipation, wear resistance and structural stability.

  • Covers UAV pylons, optoelectronic pods, navigation systems and engineering machinery structures.
  • Suitable for complex conditions requiring wear resistance, thermal conductivity, heat dissipation and structural stability.
  • Easier to form scalable material solutions for structural component upgrades.
Housings UAV Pylons Optoelectronic Pods
Marine application scenario

MARINE INDUSTRY

Marine Industry

Combining corrosion resistance, pressure resistance and thermal management to maintain structural reliability in complex marine environments.

For high-pressure valves, pump bodies, diesel engine cylinder blocks, gearbox housings, turbine blades, coolers, pipelines and propellers, providing stable material support for power systems, underwater equipment and thermal packaging.

  • Suitable for key components in marine power systems, underwater equipment and complex offshore environments.
  • Combines thermal stability and structural reliability for long-cycle operating conditions.
  • Supports combined requirements in marine equipment and precision electronic thermal management.
Marine Power Systems Underwater Equipment Radar Thermal Structures

Why Choose Hanyin Optoelectronic

Strong Technical Qualifications

With deep expertise in aluminum matrix composites, high-tech enterprise qualifications, core preparation processes and independent intellectual property, we continuously improve material formulas and production technologies for high-end applications.

Strict Quality Control

A professional in-house testing system covers the full production process, with support for authoritative third-party inspection and certification to ensure stable and reliable product quality.

Outstanding Material Performance

Our aluminum matrix composites feature high thermal conductivity, low expansion, high rigidity, light weight and high strength, with comprehensive performance beyond many traditional metal materials.

Customized Service

We provide custom development based on operating conditions, performance parameters and dimensional requirements, supporting projects from sample trials and pilot production to scaled supply.

Case Studies

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