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Specialized in PE, PVC, TPE, TPU and Low Smoke Zero Halogen (LSZH) wire and cable compound and materials.
In high-rise buildings, subway tunnels, new energy power stations and industrial complex scenarios, the fire safety of wires and cables is directly related to life and property and system reliability.
YINSU Flame Retardant Company provides customized flame retardant solutions for global customers, covering PE (polyethylene), PVC (polyvinyl chloride), TPE (thermoplastic elastomer), TPU (thermoplastic polyurethane) and LSZH (low smoke and halogen free) wire and cable systems to meet all safety requirements, ranging from UL94 V-0 flame retardant certification to EN 45545 fire protection for rail transportation and IEC 60754 low smoke and halogen free toxicity. All-round safety requirements.
Material Common Use Typical FR Type YINSU Flame Retardant Item No.
PE HDPE, LDPE, LLDPE, Red phosphorus, halogen free FR, PRP-950X, PE-XT-20, YS-F22B, MCA-B
Cross-linked PE cables, Bromine antimony masterbatch MDH, ATH
Plastic insulated cables.
PVC PVC &Plastic insulated power cables, T3 / ATO alternatives T3, T30
Aluminum stranded wires,
Prefabricated branch cables.
TPE Insulated wires, flexible cables Organic phosphorus YS-F22B, YS-9003
Shielded insulated cables
TPU Special purpose cables Organic phosphorus YS-F22B, YS-9003
Power cables for frequency converters.
Others Welcome to consult more details.
Simultaneously introducing phosphorus-based flame retardants on both the cathode and anode sides—through flame-retardant separator coating and flame-retardant electrolyte additives—forms a "dual flame-retardant" barrier for lithium batteries. Experiments show this approach increases the onset temperature of thermal runaway in lithium metal batteries by 38°C, reduces the peak temperature by 120°C, and extends cycle life by 30%. It provides a scalable, low-impedance, high-safety solution for flame retardancy in high-end battery packs, directly meeting the stringent requirements for new energy vehicle battery pack flame retardancy in standards like GB 38031 and new European/American national regulations.
This report reveals how adhesives and flame retardants work together in new energy vehicle battery packs to block thermal runaway within 5 minutes, truly elevating the fire safety of electric vehicles.
Want your adhesive layer to be non-combustible yet remain strongly adhesive? Choosing the right "flame retardant for adhesives" is key! Check out this article, which breaks down three major formulation strategies: phosphorus-nitrogen synergy, intumescent char layers, and ultrafine aluminum hydroxide. Learn how to achieve UL 94 V-0 with the minimum amount of "adhesive flame retardant" additive, maintain peel strength without compromise, keep curing speed unchanged, and easily accomplish the halogen-free flame-retardant upgrade for epoxy, polyurethane, and acrylic systems!
Flame Retardants Deep Inside the Cell: The synergistic effect of high heat-resistant ceramic-coated separators and phosphorus-containing flame-retardant electrolytes enables immediate pore closure and ion channel blockage at 160°C during nail penetration tests, achieving no smoke emission from single cells and zero thermal runaway propagation in modules. This provides dual insurance for lithium battery flame retardancy at both the cell and battery pack levels.
New Focus in Battery Pack Flame Retardancy: Comparing aerogel, mica, and foamed ceramic insulation solutions, revealing how to synergize with halogen-free flame retardants to meet new energy vehicle flame retardancy standards – achieving no propagation ≥5 minutes after single-cell thermal runaway, easily complying with GB 38031 and EU ECE R100 battery pack flame retardancy regulations
Nylon gets brittle and flow rate plummets after adding flame retardants? Don't rush to cut costs! 5 sets of data reveal exactly how much flame retardants impact mechanical strength, MFI, and heat deflection—easy to understand at a glance
