Sustainable innovation in process
Saving water, energy, and resources.
Protecting the environment through chemical use reduction, and noise abatement.
Recycling to develope new technologies to separate materials.
Compliance to regulations and standards to prevent legal issues and fines.
AI solutions to optimize various aspects of the supply chain, including demand forecasting, inventory management, and production scheduling in order to adapt quickly to the needs of a highly volatile and unpredictable market.
Robotics and Automation through Industry 5.0 to enhance precision, speed, and efficiency for better handling of materials, reducing human error, and increasing productivity by integrating human creativity and expertise with advanced machines.
Digitalization to enable new models for coating, laminating, bonding, dyeing, finishing, printing.
New Machinery to manage waste, store energy.
Sustainable innovation in product
Innovation in Materials to explore advanced functional materials such as technical textiles, smart fabrics and antibacterial materials.
Innovative finishing techniques for advanced aesthetics and high-performance fabrics (water-repellent, fireproof, stretch).
Integration of electronics and embedded technologies to enable wearable tech
Protecting the environment through new materials such as bio-based and recycled fibers.
Recycling in a whole sense, identifying non-recyclable substances, developing pigment printers and enabling circular economy.
Digitalization to enable rapid prototyping, customization, experimentation with designs, product efficiency.
New Machinery to develop more performing products which meet sostainability goals
Use cases areas
Doing better, faster, with less waste
• Human-centric, sustainable, and resilient manufacturing integrating human creativity and expertise with advanced machines, AI and robotics
• Personalized and sustainable production processes with prioritization of environmental responsibility, resource efficiency, and worker well-being
• Energy management and predictive maintenance
• Lean production and continuous flow models
• Full process digitalization and data management
• Adapt quickly to the needs of a highly volatile and unpredictable market
Doing less harm, creating positive impact
• Water, energy, and chemical reduction
• Full traceability and ethical certifications
• Recyclable and biodegradable materials and processes
• Waste recovery, reuse, and closed-loop models
• Circular business models (take-back, resale, rental)
Connecting the entire value chain
• Transparent and integrated supply chain (Blockchain, AI)
• Collaboration among supply chain actors (co-making, open innovation)
• Interoperability and shared digital standards
• Collaborative B2B platforms for joint innovation
• Advanced traceability from fiber to final product
Creating new, smart,and sustainable products
• Advanced functional materials (technical textiles, smart fabrics, antibacterial, wearable tech)
• Sustainable, bio-based, and recycled fibers
• Innovative finishing techniques and advanced aesthetics
• High-performance fabrics (water-repellent, fireproof, stretch)
• Integration of electronics and embedded technologies
Improving Factory in terms of machinery and Workplace Well-being
• Improvement of Workplace Environment by noise reduction and better air quality
• Advanced Automation for Efficiency – AI-driven robotics, predictive maintenance, and real-time data analytics
• Energy-efficient machinery, renewable energy, and smart resource management
• Enhanced Safety Measures through AI-powered monitoring systems and automated emergency protocols