Pluskim Simulation Center
From the very first day of our establishment, we have prioritized research and development (R&D) as a cornerstone of our operations. We are deeply committed to staying at the forefront of polyurethane technology, continuously exploring new techniques, application trends, and advancements in the field. By sharing this cutting-edge knowledge with our customers, we empower them with innovative product and system designs that deliver exceptional, tailor-made solutions. Our R&D Center plays a pivotal role in this process, overseeing every stage—from machine trials conducted in our state-of-the-art Application and Simulation Center to the final testing and validation of the product.
At Pluskim, our R&D laboratory and quality control department are dedicated to the pursuit of excellence. We meticulously analyze and refine every physical and chemical aspect of our products to ensure the highest standards of quality. Equipped with advanced analytical instruments and physical testing equipment, our facilities stand as a testament to our commitment to innovation and reliability. We strive to be a trusted and forward-thinking systems provider, delivering solutions that meet the evolving needs of our customers and the industry.
Polyurethane Raw Material Development
Our technical expertise enables us to respond swiftly and effectively to the demands and orders from our business partners, positioning us as a dynamic and responsive company. Our ultimate goal is to achieve continuous growth and innovation in everything we do. At Pluskim, we take immense pride in being at the forefront of producing high-quality polyurethane raw materials. Since our inception, our unwavering dedication to excellence and meticulous attention to detail have solidified our reputation as a trusted and dependable partner in the industry.
We are committed to delivering first-class polyurethane solutions that go beyond just high performance. Our products and systems are designed with a strong focus on sustainability and efficiency, ensuring that our business partners not only meet their operational goals but also contribute to a more sustainable future. By combining cutting-edge technology with environmentally conscious practices, we strive to set new standards in the polyurethane industry, helping businesses thrive while minimizing their environmental impact.
Research and development (R&D) activities aimed at improving the use of polyurethanes in various industrial applications focus on enhancing the material’s performance and making it more suitable for the specific needs of different sectors. Polyurethanes are of critical importance in industries such as automotive, construction, footwear, and textiles due to their lightweight nature, durability, flexibility, and insulation properties. The optimization of their use in these sectors is supported by innovative studies in areas such as material engineering, production processes, sustainability, and cost-effectiveness.
Sustainability-focused R&D efforts are carried out with the aim of developing more environmentally friendly polyurethane products, minimizing the negative environmental impacts of polyurethane materials, and offering more sustainable solutions across industries. These studies focus on the use of recycled materials, the development of eco-friendly production methods, research into bio-based raw materials, and innovative production processes that enhance energy efficiency.
By examining the relationship between temperature and viscosity, this analysis helps optimize material fluidity in production processes, ensuring efficient polyurethane processing.
These R&D efforts contribute to a broad range of applications, improving efficiency, durability, and eco-friendly properties of polyurethane materials. Continuous innovation in polyurethane research enables advancements in sustainability, mechanical performance, and industrial application.
Key areas of polyurethane research and development include:
✔ High-Pressure Polyurethane Machine Systems – Enhancing material processing efficiency.
✔ Spray Polyurethane and Polyurea Application Machines – Ensuring seamless and durable coatings.
✔ Shoe Sole and Slipper Polyurethane Machines – Optimizing flexibility and resilience in footwear production.
✔ Flow and Density Distribution with Custom Molds – Improving uniformity and material waste reduction.
✔ Tensile, Compression, and Stress Testing – Assessing mechanical properties for various applications.
✔ Air Conditioning and Climate Control – Enhancing polyurethane’s role in thermal regulation.
✔ Thermal Conductivity Coefficient Measurement – Evaluating insulation efficiency for energy savings.
✔ Flame Retardancy Testing (Cabin Test) – Ensuring compliance with fire safety standards.
✔ Temperature-Viscosity Change Analysis – Optimizing production parameters for material fluidity.
✔ Foamat-Reaction Profile and Stress Measurement – Monitoring polyurethane foaming reactions and strength.
✔ Comprehensive Material Development with NCO-OH and FTIR Analysis – Ensuring high-quality chemical formulations.
These advancements drive innovation, sustainability, and efficiency in polyurethane applications across diverse industries.
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