Vision
Vision of the R&D Center
Guided by market demand and aiming for technological leadership, we have established a product portfolio characterized by “first-generation products in mass production, second-generation products under development, and third-generation products in preliminary research.” This approach enables us to respond swiftly to and meet customer needs while developing high-value-added advanced materials that embody the unique strengths of Nanya New Materials.
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Establishing industry-academia-research collaboration models with renowned universities such as Tongji University, with a focus on achieving breakthroughs in research and building a strong research foundation.
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Exceptional supply chain collaboration capabilities, integrating resources and jointly developing customized solutions.
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By establishing an efficient materials validation platform, we have significantly improved new product development efficiency and respond quickly to customer needs.
Innovations in Copper-Clad Laminate Technology
NOUYA's core technologies lay a solid foundation for your high computing power foundation.
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Innovative Technical Solutions for Copper-Clad Laminates -
Localized produced, fully controllable, full-series materials -
Innovation Empowers PCB Industry Upgrades -
Establishing a Dual-Drive Model for Quality and Cost -
One-Stop R&D Service Platform
Key Points of Core Material Technology
High-Speed Materials: Optimized formulation and processes processes reduce dielectric loss (Df), enhance thermal resistance and reliability, ensuring signal integrity and stability during transmission to meet the application requirements of 5G communications, servers, and high-speed terminal devices.
High-Frequency Materials: Focused on low dielectric constant (Dk) to minimize signal delay, serving applications such as high-frequency communications (e.g., millimeter-wave and terahertz bands for 5G/6G).
Automotive Materials: Enhance resistance to CAF, heat, high voltage resistance, and toughness; integrate thick copper with flexibility; achieve high-frequency and high-speed reliability; develop substrate materials meeting electric vehicle and high-reliability automotive electronics application requirements.
HDI and Packaging Substrate Materials: Research to improve dimensional stability, optimize electrical properties, and develop ultra-thin processes; create halogen-free, eco-friendly HDI materials; Breakthroughs in IC packaging substrate technology featuring high Tg, high modulus, low thermal expansion, and low Dk/Df to meet application requirements for high integration and smart LED applications.
Thermal Interface Materials: Develop materials combining excellent reliability (e.g., CAF resistance), superior thermal conductivity, and compatibility with HDI manufacturing processes to address thermal management challenges arising from miniaturization and high power density in electronic devices.
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Electronically Reinforced Glass Fiber Fabric Composite Technology
Design optimized application solutions for glass fiber fabrics, conduct research and adaptation of formulation and processes systems, and achieve comprehensive application of various types of fiberglass cloth.
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High-Performance Resin Composite Technology
Conduct in-depth research on resin reactivity, optimize the process window, and enhance product consistency and reliability.
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Interface Application Technology for Fillers
By employing surface modification techniques and filler blending strategies, the interfacial compatibility between inorganic fillers and organic resins is enhanced.
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Innovative Formula Design Technology
Research on multi-component systems ratio optimization and synergistic effects to achieve precise control of material properties
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Key Technologies for Molecular Design and Structural Optimization
Achieving fundamental innovation in material properties through precision design and optimization at the molecular level
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Design optimized application solutions for glass fiber fabrics, conduct research and adaptation of formulation and processes systems, and achieve comprehensive application of various types of fiberglass cloth.
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Conduct in-depth research on resin reactivity, optimize the process window, and enhance product consistency and reliability.
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By employing surface modification techniques and filler blending strategies, the interfacial compatibility between inorganic fillers and organic resins is enhanced.
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Research on multi-component systems ratio optimization and synergistic effects to achieve precise control of material properties
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Achieving fundamental innovation in material properties through precision design and optimization at the molecular level
Unique Craftsmanship
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Integrated Product Development)-based Product and Technology Development Model -
Configured comprehensive performance testing equipment and established full-spectrum testing capabilities. -
Resin modification technology and dispersion technology for micron/nanometer-sized particles have established a high-filler-content processing system. -
Unique immersion technology and high-precision coating technology ensure Anti-CAF performance and thickness uniformity. -
Ultra-Thin Bonding Sheet (10μm) Manufacturing Process -
Unique immersion technology and high-precision coating technology ensure Anti-CAF performance and thickness uniformity. -
Ultra-Thin Bonding Sheet (10μm) Manufacturing Process
Performance Enhancement Measures
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Enhanced Electrical Performance
Reduce signal transmission loss and enhance electrical performance
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Enhanced Physical Properties
Enhance mechanical properties, improve thermal conductivity, and optimize dimensional stability
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Chemical Properties Provided
Enhancing chemical resistance and solderability
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Environmental Performance Enhancement
Meet environmental requirements and enhance environmental resistance
Technical Achievements and Awards
Technological innovation continues to achieve breakthroughs, empowering industrial upgrading at multiple levels.
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115patents granted
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8national standards formulated / participated in
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24academic papers published
Ready to drive innovation for your success?
We are committed to harnessing the immense power of technological innovation to provide global customers with efficient, sustainable full-range CCL solutions.
