Functional Add-Ons for Advanced Aluminum Systems
Enhancing thermal, electrical, and durability performance beyond conventional aluminum.
Why Functional Enhancement Matters
As AI infrastructure and high-power electronics continue to evolve, conventional aluminum alone often reaches its performance limits.
Functional add-ons based on graphene and carbon nanotube (CNT) technologies enable targeted performance enhancement without redesigning the entire structure.
These solutions are designed to be compatible with existing aluminum components and manufacturing processes.
Graphene-Enhanced Thermal Coatings
Thin-layer graphene-based coatings applied to aluminum surfaces for selective or experimental performance enhancement, targeting improved heat transfer and surface thermal behavior.
Key Benefits
Enhanced in-plane heat spreading under validated conditions
Improved thermal interface efficiency for specific thermal designs
Minimal impact on component weight and geometry when properly implemented
Typical Applications
Heat sinks (evaluation and pilot use)
Cold plates for targeted thermal studies
High heat-flux aluminum components with customized validation
CNT-Based Conductive Layers
Carbon nanotube-based conductive layers applied to aluminum substrates for selective or application-specific use, targeting enhanced electrical conductivity or multifunctional performance.
Key Benefits
Improved electrical conductivity under defined and validated conditions
Enhanced multifunctional performance for targeted applications
Suitable for EMI-related or advanced electronic applications on a project-specific basis
Typical Applications
Structural conductive components with customized validation
Hybrid electrical-thermal aluminum parts for specialized designs
Anti-Corrosion & Anti-Oxidation Protection
Advanced surface treatments and protective coatings applied to aluminum components to enhance durability and service life in demanding operating environments.
For harsh or long-term exposure conditions, graphene-enhanced protective coatings can be evaluated as an optional solution.
Key Benefits
Improved resistance to oxidation and corrosion under industrial operating conditions
Enhanced durability in humid or aggressive environments
Compatibility with thermal and functional coatings for integrated surface solutions
Typical Applications
Data center environments
Long-term industrial installations
Export-oriented aluminum systems
Energy storage enclosures and outdoor systems
Custom Hybrid Material Solutions
We support the development of custom hybrid material solutions by combining aluminum with graphene, CNTs, or other functional materials for application-specific and system-level performance requirements.
Capabilities
Material selection and application-oriented evaluation
Surface functionalization concepts and feasibility assessment
Prototype support and early-stage validation
Production pathway planning based on validated project requirements
Designed for Integration-Oriented Engineering
Our functional add-ons are designed with integration compatibility in mind, supporting aluminum-based systems such as:
Aluminum extrusions
CNC-machined aluminum components
Thermal management structures
AI data center–related aluminum assemblies
The focus is performance enhancement while minimizing disruption to existing manufacturing and supply chains, subject to project-specific validation.
Target Application Scenarios
AI & HPC–related thermal management applications
High-power electronic components and assemblies
Advanced cooling solutions at component or module level
Next-generation aluminum-based infrastructure concepts and pilot projects