PVC's inherent flame retardancy is compromised by added plasticizers, increasing flammability and toxic smoke emissions—a major fire safety concern. Effective mitigation combines flame-retardant plasticizers, targeted inorganic additives, and crosslinking technology. Innovations like Guangzhou Yinsu’ s T-series antimony composite and antimony replacement T30 enhance safety while reducing costs and environmental impact.

7. The Hidden Truth Behind PVC Cable Material in the Cable Industryhttps://mp.weixin.qq.com/s/81izTCcFRF09itHwS6ktYg I. Flame-Retardant PVC Cable MaterialsPolyvinyl chloride (PVC) resin, a time-tested thermoplastic, can have its flexibility adjusted by adding varying amounts of plasticizers. It can

Explores the latest breakthroughs in flame retardant PVC cable technology, including ultra-high molecular weight PVC for EV charging cables and halogen-free formulations for industrial and building use. It addresses key challenges like smoke toxicity, flexibility, and cost control, while highlighting compliance with global standards such as UL 94, IEC 60332, and UL 2263. YINSU’s FR-03 additive provides a cost-effective, antimony-free solution for enhanced flame safety and environmental performance.

PVC vs. PE Cable Selection: → PE (XLPE/LSZH) excels in electrical performance (HF/HV), eco-safety (halogen-free), and low-temp flexibility. Dominates critical/sustainable applications. → PVC leads in cost, rigidity, intrinsic flame retardancy, and processability for general wiring. For high-efficiency halogen-free PE flame retardancy (e.g., LSZH), Guangzhou Yinsu Flame Retardant’s microencapsulated FRP-950X optimizes performance in infrastructure/transport.

Master LSZH cable formulation with YINSU’s expert guide: uncover the root causes—high filler load, low-temp cracking, smoke & toxicity—and the proven fixes (ADP-MCA-ATH, FRP-950X, nano-catalysts) that cut filler by 40 %, boost elongation > 320 %, and deliver UL-94 V-0, CPR B2ca/s1a/d1a compliance for rail, data-center and offshore PE cable compounds.

Low smoke zero halogen (LSZH) cables are critical for modern fire-safe wiring systems, but manufacturers face persistent challenges in both material formulation and processing. This article explores key pain points such as the contradiction between high flame retardancy and mechanical performance, thermal decomposition and bubble formation during extrusion, and interlayer delamination in multi-layer cable structures. Through advanced material innovations—like synergistic flame retardant systems and interface modifiers—and optimized extrusion techniques, cable producers can significantly improve product reliability and compliance with stringent flame retardant standards like EN 50575 and GB/T 31247. YINSU’s halogen-free flame retardant solutions, including the high-performance FRP-950X coated red phosphorus, provide tailored answers to these complex industry demands.

Low Smoke Zero Halogen (LSZH) cables are a safe alternative to traditional cables, producing minimal smoke and no harmful halogens when exposed to fire. They are widely used in public facilities, transportation systems, and industrial settings. When selecting LSZH cables, consider application requirements and compliance with standards for optimal safety and performance.

Yinsu Flame Retardant Company's FRP-950 series red phosphorus flame retardant combined with PPO for HIPS achieves effective halogen-free flame-retardant properties, being safer in storage and use and meeting the industry's demand for environmentally friendly solutions.

PVC insulated wire and cable is a widely used power transmission equipment with good electrical properties, corrosion resistance, mechanical strength and abrasion resistance.

Explore the innovation of flame retardant technology for polymer materials, and gain an in-depth understanding of the combustion characteristics of PP, PE, PS, PVC and other plastics and the application of environmentally friendly flame retardants, and how to balance the cost and achieve efficient flame retardancy.

Wire Show: Meet Us at the 12th China International Wire & Cable Industry Exhibition! Date: August 27–29, 2025 Location: Shanghai New International Expo Centre Booth: E5B72Guangzhou YinSu Flame Retardant New Material Co., Ltd. will showcase our latest innovations, including:✨ Antimony trioxi

A char-forming agent, synergizing with exfoliated organically modified montmorillonite, builds a low-smoke halogen-free flame-retardant system for cables. Within the 15-min “properly crosslinked” window, it simultaneously raises XLPE tensile strength by 26 % and elevates the breakdown field strength to 42 kV/mm. The char former rapidly promotes a dense char layer, while the nano-montmorillonite delivers barrier-and-smoke-suppression effects, endowing the flame-retardant system with three key strengths: high-efficiency flame retardancy, low smoke and zero halogen, and high-voltage insulation. This offers an industrially viable innovation for next-generation eco-friendly flame retardants.

Organic nanomontmorillonite improves barrier properties in single-material plastic packaging, aiding recyclability. It enhances barrier performance through its layered structure and nano-effects. Processing methods like intercalation and twin-screw extrusion optimize its dispersion. Applications in electronic and inflatable packaging are noted, with YINSU's K100 product highlighted for combining flame retardancy and barrier functionality.

PBT, a vital engineering plastic, is analyzed for its production processes, properties, and applications. With excellent heat resistance and mechanical strength, PBT is widely used in electronics, automobiles, and machinery. The article also highlights how YINSU Flame Retardant Company enhances PBT's safety with its flame retardant products, pointing to PBT's growing application potential and continuous innovation.

A concise review of epoxy powder coatings for EV batteries, detailing halogen-free additive (nano-fillers) and reactive (P-N-Si resins/curing agents) strategies to achieve UL-94 V-0 flame retardancy plus >30 kV/mm insulation. For immediate use, Yinsu’s YS-22E, YS-M220G and YS-9003 organophosphorus additives provide nano-dispersed, one-pack solutions.

The global fire-retardant coatings market is experiencing a green and technological transformation, with the Asia-Pacific region driving growth. Innovations in water-based and halogen-free coatings, nanotechnology, and intelligent applications are reshaping the industry. While international giants localize, Chinese enterprises are making breakthroughs. Despite challenges, emerging markets, policies, and circular economy models offer new opportunities. The future lies in integrating green materials, intelligent construction, and circular utilization.

Research on flame-retardant epoxy resins highlights three main modification methods: additive, reactive, and nano-flame-retardant. Various agents like halogen, phosphorus, and silicon compounds are discussed, along with composite materials' performance and applications. Future trends focus on halogen-free and synergistic systems to boost fire safety and broaden uses.

Flame-retardant materials have seen extensive cutting-edge development and application in high-end electronics, automotive electronics, and home appliances. This includes the transition from traditional brominated flame retardants to environmentally friendly halogen-free flame retardants, as well as the diverse requirements for flame-retardant materials across various application scenarios. With the strengthening of environmental awareness and the promotion of technological innovation, flame retardant materials are developing in the direction of multi-functionality, intelligence, and environmental protection. As an industry pioneer, YINSU Flame Retardant is committed to providing high-performance, environmentally friendly flame retardant solutions to meet the specific needs of different industries and promote the continuous advancement of flame retardant material technology.

Flame-Retardant Thermal Materials in Electronic Packaging: Uses & Future Trajectory In the context of increasingly sophisticated and high-performance modern electronic devices, the selection of packaging materials has become particularly critical. Flame-retardant thermally conductive packaging materFlame-retardant thermally conductive materials are essential for modern electronics, solving critical heat dissipation and fire safety challenges. These materials leverage advanced mechanisms to balance thermal management and flame retardancy. Widely used in consumer electronics, EVs, 5G infrastructure, and aerospace, they evolve toward nano-engineered composites, halogen-free formulations, and AI-driven multifunctional designs.

Low-smoke halogen-free (LSHF) materials prevent toxic gas emission and reduce fire risks in cables/construction, but face mechanical-performance trade-offs. Innovations like phosphorus-nitrogen composites and nano-additives solve these challenges while meeting UL94 V-0 standards.