Pioneering functional innovation in laser marking additives through specialized research facilities, application-focused equipment, and collaborative development.

Application-Driven Research Infrastructure

Laser-Material Interaction Lab

Core facility for evaluating and optimizing the marking performance of additives under various laser parameters.

Laser Marking Performance Testers

Contrast & Color Measurement Systems

High-Speed Imaging for Process Analysis

Surface Topography Analyzers

Controlled Lighting Assessment Booth

Polymer & Additive Characterization Lab

Comprehensive analysis capabilities for understanding material compatibility, dispersion, and thermal stability.

Application Prototyping Center

Practical testing and small-batch production facility for translating formulations into real-world samples.

Our dedicated facilities provide the focused environment and tools needed to develop and validate high-performance laser marking additives.

Fourier Transform Infrared Spectroscopy (FTIR)

Differential Scanning Calorimetry (DSC)

Melt Flow Index Testers

Dispersion Quality Microscopy

Thermal Gravimetric Analysis (TGA)

Pilot-scale Compounding Lines

Small-Batch Injection Molding Machines

Laser Marking Sample Production Stations

Physical Property Testing Equipment

Color Matching & Blending Systems

Current Research Initiatives

Developing enhanced formulations for achieving sharper, more durable white markings on dark engineering plastics, targeting improved contrast and production speed.

Innovating additive systems that maintain excellent marking quality and consistency under demanding high-temperature processing conditions.

Researching a versatile additive architecture designed to deliver reliable laser marking performance across a wider range of polymer bases.

Explore our active development initiatives focused on advancing laser engraving additive technology and expanding application boundaries.

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INNOVATION PIPELINE

Developing formulations optimized for next-generation high-speed laser systems, aiming to significantly increase production throughput.

Next Goal: Pilot-Scale Testing

Advancing technology to enable precise and stable multi-color laser marking, as well as unique visual effects on plastic surfaces.

Next Goal: Customer Sample Validation

Tailoring solutions for challenging high-performance materials (e.g., PEEK, high-glass-fiber composites) to enable clear and durable laser marking.

Next Goal: Formulation Prototyping

Strategic Innovation Partnerships

Joint Industry Development

Partnering with leading manufacturers to co-develop and test tailored additive solutions for specific applications.

University Collaborative Programs

Working with university research groups on fundamental studies of laser-material interactions and new additive mechanisms.

Knowledge & Technology Exchange

Regular technical workshops and seminars to share application knowledge, industry trends, and address common challenges.

Technology Development Pathway

Concept & Feasibility

Initial research and lab-scale validation of new additive concepts.

We foster progress through focused collaborations with academic institutions and industry leaders, translating insights into practical solutions.

Collaborating with academic institutions on fundamental research and technology development

University & Institute Partners

Formulation & Optimization

Developing robust formulations and optimizing for performance, stability, and cost.

Application Testing & Validation

Rigorous testing in simulated and real production environments to ensure reliability.

Our development process is structured to systematically advance from concept to commercial solution.

Technical Talent Development

Fostering practical expertise through project-based collaborations and specialist training

Contributing to technical advancements shared through industry forums and knowledge exchange

Joint Research & Publications

Building proprietary technology systems through cooperative innovation

Intellectual Property Development

We are dedicated to delivering excellence in every solution and look forward to partnering with you for success.

Contact Person: Alence / Jenny Wang

E-mail: guangfengpang@gmail.com / JennyWang1687@outlook.com

Tel: 86-0769-87778510 / 86-15577119749 / 86-19250561332

Add: Room 904, No.4, Tian'an Digital City,Fenggang Town, Dongguan City, Guangdong Province

Leading the future of materials science through advanced R&D capabilities and precision manufacturing excellence. ​

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Room 904, No.4, Tian'an Digital City,Fenggang Town, Dongguan City, Guangdong Province

86-0769-87778510

guangfengpang@gmail.com / JennyWang1687@outlook.com

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