Flame retardant nylon materials have experienced continuous innovation and development in the past decades, from the initial halogenated flame retardant to the present halogen-free, nano-flame retardant and multifunctionalization, with its performance continuously optimized and application fields continuously expanded. Especially in the rapid rise of new energy industry, flame retardant nylon materials will play an important role in ensuring the safety and sustainable development of new energy field by virtue of its unique advantages.
Epoxy resin is one of the important polymer materials, and with the research of halogen-free flame retardants will inevitably expand the application field of epoxy resin. Therefore, when designing flame retardants, in addition to considering the excellent flame retardancy, it is also necessary to modify epoxy resin from the direction of mechanical properties and thermal conductivity, so as to make it both multifunctional.
Low-smoke halogen-free cable material is the most important matrix material for ethylene vinyl acetate copolymer (EVA), which has a low melting temperature, good mobility, polarity and halogen-free, compatible with a variety of polymers and halogen-free flame retardant, widely used in low-smoke halogen-free flame retardant cable material.
General-purpose plastics have a wide range of applications, mainly polypropylene (PP), polyethylene (PE), polystyrene (PS) and polyvinyl chloride (PVC), etc., which are used in a large number of industries such as packaging, automotive, sundries, electronic devices and electrics, tubing, and wires and cables.
Uncovering the fire code of flame retardant plastics: An in-depth look at high CTI and high scorch wire testing to keep your products safe and secure!
What is the effect of flame retardant and low smoke halogen free flame retardant, why most people make the choice of low smoke halogen free
The four major flame retardant principles of halogen-free flame retardants reveal how to effectively reduce fire hazards and protect the environment without producing toxic gases.
Discover the diverse range of flame retardants, their types, and their specific applications or characteristics in the field of material science and engineering.
Dive into an illuminating exploration of the UL94-V testing standards that ensure the safety of plastics used in everyday products, and discover the critical differences between V-0, V-1, and V-2 flame retardancy grades that could save lives.
Unlock the secrets of cost-effective plastics production with our guide to the advantages, processes, and recommended usage of filled masterbatch.
Discover the perfect combination of safety and efficiency: Uncover how Silver Plastics is leading the industry to new standards with its innovative flame retardants for epoxy resins.
Discover the fascinating world of foam materials that revolutionize industries from construction to aerospace, offering lightweight solutions with remarkable thermal and acoustic properties.
Uncover how calcium carbonate shapes the superior performance of plastic masterbatches, an article that brings you insight into the key elements of the plastics industry!
Exploring revolutionary breakthroughs in composite materials, YINSU brings three cutting-edge flame retardants, FRP-750A, FRP-950X and composite antimony T3, to lead a new era of material safety.
Explore the wonders of future technologies and gain insight into seven of the most promising composite materials that are reshaping every aspect of industry and everyday life.
Discover the secrets of polymer flame retardancy and smoke suppression: learn about the classification and selection of different flame retardants and smoke suppressants to protect you from fire smoke.
This paper details the pultrusion process for continuous fiber-reinforced polyurethane composites, including preparation of glass fiber mats and yarns, resin injection, heat curing, and haul-off and cutting of the final product, demonstrating an industrial approach to the efficient production of high-strength and lightweight composites.
EPS (Expanded Polystyrene) and XPS (Extruded Polystyrene) are two types of insulation materials with different properties and application scenarios. EPS is suitable for packaging and light-duty applications due to its lower cost, excellent insulation and recyclability, while XPS is more suited for heavy-duty and building insulation applications due to its high compressive strength, low water absorption and flame retardant properties.
Piperazine Pyrophosphate: A Synergistic Star in Polyolefin Flame Retardant ApplicationsPolyphosphoric Piperazine (PAPP), as a new generation of environmentally friendly flame retardant, is gradually becoming the focus of industry attention for its innovative applications in polymer flame retardancy.
Explore the cutting-edge world of high-temperature engineering plastics that are revolutionizing industries from aerospace to electronics with "Inventory of 8 Common High-temperature Resistant Engineering Plasticss" – a comprehensive guide to the materials that stand the test of heat and perform under pressure.