© 2026 Anhui Liwei Chemical Co., Limited,
All Right Reserved
|
HS Code |
494164 |
| Product Name | Reny High Performance FR |
| Material Type | Polyamide MXD6 |
| Flame Retardant | Yes |
| Color | Natural (off-white) |
| Density | 1.44 g/cm³ |
| Tensile Strength | 200 MPa |
| Flexural Modulus | 9200 MPa |
| Heat Deflection Temperature | 235°C (at 1.8 MPa) |
| Flammability Rating | UL94 V-0 |
| Water Absorption | 0.5% (24h immersion) |
| Glass Fiber Content | 50% |
| Electrical Insulation | Excellent |
| Chemical Resistance | Good |
As an accredited Reny High Performance FR factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The Reny High Performance FR is packaged in a sturdy blue 25 kg plastic drum, labeled with hazard symbols and product details. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Reny High Performance FR: 16-20 metric tons packed in 25 kg bags or customized packaging options. |
| Shipping | **Shipping for Reny High Performance FR:** Reny High Performance FR should be transported in tightly sealed, clearly labeled containers, protected from moisture and direct sunlight. Handle with standard industrial safety procedures. Shipping must comply with local regulations for chemical materials, ensuring the product remains stable and uncontaminated throughout transit. Consult the SDS for any specific handling requirements. |
| Storage | Reny High Performance FR should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and incompatible materials. Containers must be tightly sealed to prevent moisture absorption and contamination. Avoid exposure to flames and strong oxidizing agents. Proper labeling and adherence to local regulations for storing flame-retardant engineering plastics are recommended to maintain product integrity and safety. |
| Shelf Life | Reny High Performance FR has a shelf life of 12 months when stored in cool, dry conditions, away from direct sunlight. |
Competitive Reny High Performance FR prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365186327 or mail to sales3@liwei-chem.com.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: sales3@liwei-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Daily operations in the plastics industry push us to expect more than just durability. The world’s engineers choose Reny High Performance FR for its unique blend of mechanical strength, flame resistance, and dimensional stability. We manufacture this grade using aromatic polyamide combined with 50% glass fiber reinforcement, a hallmark of robust engineering resins. Unlike commodity plastics, this product works in environments where both toughness and fire safety matter to designers, production managers, and maintenance crews.
We have walked shop floors in automotive, electronics, and industrial plants. Feedback echoes a common theme: equipment keeps evolving, but performance needs never let up. Legacy materials in similar segments—like PBT, PA6/PA66, or standard reinforced nylons—teeter when exposed to heat, load, moisture, or fire risk. Reny High Performance FR is not just a tweak to traditional nylon. Our compounding line adds flame retardants without compromising the core mechanical properties. Parts molded from Reny High Performance FR pass stringent UL94 V-0 flame tests at reduced wall thickness, which is fundamental in modern design, especially for electrical and electronic fields.
Through thousands of hours on extruders and injection machines, we have watched rival products crack, warp, or fade after thermal cycling and load over time. Reny High Performance FR keeps its shape and integrity long after installation. The glass-fiber content lives up to its promise—components retain their dimensional accuracy and high modulus, meaning gears, brackets, and connectors hold up under demanding mechanical loads. Moisture uptake, a chronic enemy of standard nylons, gets controlled here. This means reduced creep, improved stability, and reliable fits even after shipping products through humid climates or running them in condensation-prone equipment.
Our engineers have worked side-by-side with customers troubleshooting failures in control panels, power distribution blocks, and automotive relay housings. Often, competitors’ materials delivered either strength or flame retardance but rarely both. Reny High Performance FR bridges that divide. By closely monitoring our polymerization and compounding steps, we keep impurities low and molecular weights consistent, which translates to fewer unexpected production halts and rejects down the line.
The safety standards in electrical products keep ratcheting up. Arc-tracking, accidental short-circuits, and fire propagation all remain real risks on today’s factory floors and construction sites. We see these risks reflected in stricter certification requirements, deeper customer audits, and more rigorous testing of insulation components. Reny High Performance FR responds with not just a rating on paper. During our own accelerated aging and glow-wire testing, molded specimens retain self-extinguishing characteristics even after environmental cycling. Designers who choose our resin lay out slimmer, lighter enclosures that meet safety codes without adding bulk or unnecessary costs.
In automotive interiors and under-hood applications, customers faced mounting pressure from both regulatory agencies and end-users to minimize fire hazards. Components like fuse boxes, sensors, and hybrid vehicle battery systems rely on materials that resist both flame and heat distortion. We saw a need for a resin that could survive constant vibrations, temperature swings, and chemical exposures without embrittlement or significant loss of mechanical strength. By offering Reny High Performance FR, we allow project managers to use fewer part revisions, reduce in-field failures, and speed up certification cycles for new product lines.
Throughout the years, each formula iteration of Reny High Performance FR underwent rounds of batch testing and customer-run field trials. End users always notice balance: tensile strength approaches that of metals—yet the finished weight stays low, supporting broader adoption in lightweighting initiatives. Charpy and Izod impact values, monitored on every large production lot, show that parts resist sudden shocks, especially when compared to standard unfilled or mineral-filled grades.
Manufacturing teams know even the toughest, safest resin can fall short if it clogs hoppers or causes downtime at the molding press. Our team focuses on dependable pellet geometry and moisture control, which delivers smooth feeding and clean releases from tools. We follow strict process routines for each production batch, ensuring color consistency and fiber distribution—a necessity for demanding automotive and electronics projects. Conversations with processors show that weldline strength and low tendency to warp allow for more freedom in mold design, reducing time to market for new products.
The global demand for flame retardant plastics continues to grow, tied to more electronics in homes, vehicles, and offices. At sites installing solar inverters, EV battery packs, and high-output industrial drive systems, the legacy fire hazards dog every design review. Some materials trade strength for flame resistance by adding halogen compounds, which can create toxic fumes or corrosive smoke once ignited. For Reny High Performance FR, we use a balanced flame-retardant package that minimizes toxic off-gassing and supports safer working and living conditions.
Sustainability drives many customer questions. Recyclability and process waste reduction matter as much as finished part strength. By controlling glass fiber length and distribution, we support several closed-loop projects with key clients—granulate scrap finds a second life in under-the-hood covers, relay supports, and non-cosmetic mechanical parts. Each batch is tracked for ROHS, REACH, and other international compliance standards, aligning both production and finished parts with responsible sourcing policies.
Years of dealing with shutdowns, restarts, and short runs have honed our understanding of flow characteristics. Reny High Performance FR maintains melt flow rates optimal for small, intricate objects and larger structural components. This allows manufacturers to confidently produce multi-cavity tools, thin-wall sections, or deep-draw parts without excessive scrap or cycle time penalties. Parts release quickly and remain dimensionally stable under cooling and demolding.
Day-to-day, molders appreciate a resin that keeps up with shifts in humidity, ambient temperatures, and processing windows. Our team tweaks compounding temperatures and the flame-retardant package to deliver consistent, low-haze finishes and sharp edge retention. Less downtime adjusting screw speed, pressure, and temperature settings means presses spend more time producing and less time under maintenance.
The marketplace offers dozens of glass fiber-reinforced and flame-retardant resins. We have extensive experience with polyamide 6/66, polybutylene terephthalate (PBT), polyphenylene sulfide (PPS), and polycarbonate blends. Standard FR PA6 or PA66 provide reasonable flame ratings but often lose mechanical edge and warp more in humid or high-heat settings. Fire-safe polycarbonates show good electrical properties but struggle in long-term load-bearing or vibration-heavy tasks.
Reny High Performance FR’s aromatic backbone imparts greater rigidity and heat resistance, so it sees less creep under load, even in appliances running 24/7 or automotive modules in hot weather. Its high glass content brings exceptional flexural strength, and unlike some halogen-free systems, our resin avoids pronounced brittleness or delamination under thermal shock. Engineers building test fixtures, motor housings, and electrical frames have seen service life extended thanks to reduced cracking, even after repeated assembly and disassembly cycles.
We spend considerable time and resources on navigating certification protocols with our partners. Reny High Performance FR achieves UL94 V-0 or better on wall sections down to 0.8mm and passes Glow-Wire test protocols at elevated amperages. Environmental agencies monitor what goes into building products, from wire harnesses to consumer-grade smart devices. Our product shows negligible halogen and meets the technical files for hazardous substances, supporting confident export throughout Europe, North America, and Asia-Pacific regions.
We work directly with independent labs to validate ongoing claims for Comparative Tracking Index (CTI), Limited Oxygen Index (LOI), and Relative Thermal Index (RTI). These numbers translate to lower insurance risk, better audit results, and customer trust. For years, finished components built from Reny High Performance FR have powered reliable streetlights, household circuit breakers, appliance control boards, and the infrastructure that backs up public safety and transportation.
It takes more than a chemical structure and a certificate to win in competitive industries. We work with R&D engineers tackling next-generation power arrays, sensor housings, EV battery enclosures, and even robotics joints. Their challenges span higher electrical loading, miniaturization, and stricter fire safety. Reny High Performance FR adapts to these requirements without falling short on either strength or flame rating.
Real-world adoption builds on reliable, repeatable results. Over multiple product generations, our resin lines show few surprises on the line, cutting down on costly tool changes or project delays. Teams using Reny High Performance FR report improved first-pass yields, fewer scrap parts, and easier compliance paperwork. It’s not just about ticking specification boxes—customers return when field installations go right the first time and last through repeated inspections.
The drive to build safer, longer-lasting, and more efficient assemblies motivates every improvement in our compounding process. Close collaboration with customers helps us pinpoint new challenges—thermal expansion in microelectronics, tribological concerns in high-speed actuators, or color consistency on visible automotive interior trims. Reny High Performance FR has been modified to suit color-matched housings, UV-exposed covers, and conductive or anti-static builds. We remain ready to support both large and small scale projects, whether it’s a regional appliance builder or a global automotive platform.
To us, the development cycle doesn’t end at ship date. We routinely collect field data, track defect reports, and gather insights from maintenance and assembly technicians. This feedback sharpens each production run and deepens our knowledge of how Reny High Performance FR performs under daily field conditions. Our technical and customer service teams take pride in rapidly diagnosing molding challenges, qualifying processes on new tools, or helping retool failed lines with solutions that work, not just on paper but in plant-wide production settings.
Reny High Performance FR evolved through hands-on know-how. Resin blends that take shortcuts—in formulation, additive packages, or process controls—rarely hold up to sustained scrutiny in real-world, risk-averse sectors. Our investment in process analytics, batch-to-batch quality management, and material traceability provides steady support for projects where there is simply no room for unexpected failures.
The rise of high-density electronics, smart vehicles, and distributed energy storage only raises the stakes. We expect coming generations of products to push for more compact, powerful, and intelligent components—all fused into architectures that demand exceptional safety and reliability. Reny High Performance FR stands ready for those challenges, backed by the deep experience, continuous improvement mindset, and customer-centered approach earned over years in competitive manufacturing.
