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Polyester PU Top Coat
Polyester PU top coats are formulated using polyester-based polyurethane resin systems that deliver high hardness, strong adhesion, and excellent abrasion resistance. After curing, the coating forms a tough film with very good resistance to weathering, UV radiation, oils, fuels, and a wide range of industrial chemicals. Compared to polyether systems, polyester PU top coats offer higher surface hardness and improved scratch resistance. They maintain good flexibility to accommodate normal thermal movement while ensuring long-term film integrity. Smooth flow and leveling properties provide uniform, high-gloss or semi-gloss finishes. These coatings can be applied by spray, roller, or brush over properly prepared and primed substrates. Combining strength, durability, and high-quality appearance, polyester PU top coats remain a trusted solution for industrial finishing systems.
Polyester Sealer
Polyester sealers are available in unsaturated polyester sealer, pre-accelerated polyester sealer, and low-styrene or styrene-free grades, depending on environmental and performance requirements. Typical applications include wood furniture, MDF panels, kitchen cabinets, doors, musical instruments, and decorative wooden products, as well as selected composite and engineered boards. The main ingredients generally include unsaturated polyester resins, styrene or alternative reactive diluents, fillers, flow modifiers, accelerators, and organic peroxide catalysts used during curing. Key advantages of polyester sealers are high solid content, excellent pore filling, rapid curing, good hardness development, and superior sandability, which significantly reduce production time in industrial finishing lines.
Polyester Staple Fiber (PSF)
PSF can come in various lengths, typically ranging from 10mm to 120mm, depending on the intended end-use. Varieties of the PSF are available, it can be produced in different deniers , linear density , and is either hollow or solid. The fiber can also be siliconized to give it a smooth feel or remain non-siliconized. Both hollow and solid PSF are available to supply , in Hollows PSF there is more space in the fiber, giving a fluffy and light appearance. In Solid PSF (microfiber) – the fibers have tiny diameters with no space between them. These look thinner and finer. Some chemicals are used to treat the two types of fiber. The treatment gives them various properties. These are fire-resistant, non-static, non-shrinking, anti-fungal, conjugated, siliconized, and non-siliconized.
Polyester–Epoxy Hybrid Powder Coating
This coating ensures excellent flow, surface leveling, and gloss uniformity, making it ideal for a variety of metal substrates and interior manufacturing uses. Typical applications of Polyester–Epoxy Hybrid Powder Coating include office furniture, home appliances, lighting fixtures, HVAC components, indoor machinery frames, electrical enclosures, shelving units, metal cabinets, decorative hardware, industrial tools, automotive interior parts, and general consumer goods. With strong impact resistance and durable film thickness consistency, hybrid systems outperform conventional epoxy coatings in aesthetics while offering better yellowing resistance and improved cost-to-performance ratio. Ingredients & formulation include polyester resin, epoxy resin (in tailored ratios like 50/50 or 60/40), curing agents, flow modifiers, degassing agents, pigments, fillers, and stabilizing additives.
Polyesterimide Base Enamelled Copper Wire
Manufactured from high-purity electrolytic copper and coated with advanced polyesterimide enamel, this wire delivers excellent thermal endurance and mechanical strength. It is commonly available in commercial grades compliant with IEC, NEMA, JIS, and GB standards, ensuring global usability and consistent quality. Polyesterimide enamelled copper wire is supplied mainly in round cross-sections, with size ranges from fine diameters around 0.04 mm up to heavy gauges suitable for high-power windings. The wire is typically offered in temperature classes 180°C and 200°C, making it suitable for continuous operation under elevated thermal stress. Key technical features include high dielectric strength, superior resistance to abrasion and chemicals, uniform enamel thickness, excellent winding performance, and strong resistance to thermal aging. These characteristics ensure reliable insulation integrity even in compact, high-speed winding designs.
Polyether PU Top Coat
Polyether PU top coats are formulated using polyether-based polyurethane resin systems that provide superior resistance to hydrolysis compared to polyester-based systems. After curing, the coating exhibits excellent adhesion, high elasticity, and strong impact resistance, allowing it to withstand mechanical stress, vibration, and thermal movement without cracking. Polyether PU top coats show very good resistance to water, moisture, oils, fuels, and many industrial chemicals. They also provide good abrasion resistance and stable performance in both indoor and outdoor exposure. Smooth flow and leveling ensure uniform coverage when applied by spray, roller, or brush over properly prepared and primed substrates. Combining moisture resistance, flexibility, and durability, polyether PU top coats offer a reliable solution for heavy-duty industrial protection systems.
Polyethylene Compounds
In the compounding process, the polymer is physically and chemically modified by incorporating various additives. The selection of additives and of compounding conditions depends on the end application of the compounded product. It is possible to modify PE with the following additives and are also able to make additives that are not listed here.
- Mineral Filled (Talc and CaCo3): 20% to 50%
- Glassfiber Reinforced: 20% to 50%
- Impact Modified
- Flame Retardant: Halogen and Halogen free systems
- UV and Heat stabilized options
- Various colours available
Polyethylene Glove ( Disposable )
This type of PPE is loose-fitting for quick and easy glove changes and help to maintain a hygienic environment in low-risk situations like food service and preparation. They function to keep germs away from people and food but do not offer a layer of protection from substances like food-grade oil.
Polyethylene gloves are re widely used in various industries, including food handling, healthcare, janitorial services, and more such as hair salons for hairdressing and dying , petrol stations .
Polyethylene Wax
Thanks to its chemical resistance, thermal stability, and low viscosity, polyethylene wax is a preferred solution for both industrial manufacturing and advanced formulation systems. Its consistent performance makes it essential raw material for modern industrial applications.
Polyethylene wax is available in several types including oxidized polyethylene wax, non-oxidized (homopolymer) PE wax, micronized polyethylene wax, low-molecular-weight PE wax, and modified polyethylene wax. These grades differ in melting point, acid value, molecular weight, and particle size to meet specific application requirements. PE Wax is widely applied as an internal and external lubricant in PVC processing, a slip and anti-scratch additive in masterbatches, a dispersion aid in color concentrates, and a matting or rub-resistance agent in coatings and printing inks. In rubber and tire manufacturing, it improves mold release and surface smoothness, while in hot-melt adhesives it enhances flow and thermal stability. Typical technical characteristics include controlled melting range (90–140°C), low penetration, excellent hardness, and outstanding compatibility with polymers, resins, and solvents.
Polymethyl Methacrylate (PMMA)
It is a tough plastic, easy to shape, and a great alternative to the high-cost and less resilient glass. It is a cost-effective alternative to polycarbonate when desired properties are tensile strength, flexural strength, and transparency. Polymethyl methacrylate is a transparent material that is also known as acrylic or acrylic glass. It is a rigid thermoplastic widely used as a shatterproof replacement for glass. PMMA has many technical advantages over other transparent polymers (PC and PS) such as:
- High resistance to UV light and weathering
- Excellent light transmission
- Unlimited coloring options
Polyolefin Based Hot Melt Adhesives
In addition to the base polymer Polyolefin, these hotmelts usually also contain a resin and a wax . Mostly the polyolefin hot melt adhesives can be recognized by their white color and water clear, fully transparent fluid in the hot pot (hot melt tank).
Polyolefin based hot melt adhesives, includes APAO/ Polyolefin based and MPO based. APAO/ Polyolefin based: low odor, safe in operation, low density and dosage- saving, cold& heat resistant, excellent bonding on low polarity materials. MPO based: low odor, safe in operation, low density and dosage- saving , best thermal stability among all types of hot melt adhesives.
polyolefin based hot melt adhesives are applied in film attached packaging, straw attachment, hygiene material lamination, furniture assembly, household sanitary & cleaning products, insect/ rat glues traps.
Polyurea Grease
Understanding the role and types of lubricating grease is essential for maintaining the longevity and efficiency of mechanical systems. By selecting the appropriate grease for a given application, one can ensure optimal performance and protection for machinery and components. Whether it’s in an industrial setting or for personal use, lubricating grease plays a crucial role in reducing wear and extending the life of equipment.
Polyurea grease has become very popular due to its amazing characteristics, such as outstanding water resistance, great oxidation stability, rust and corrosion prevention, durability, versatility, good mechanical stability, as well as high-temperature performance. Due to these features, polyurea grease is recommended for long-life applications and used across various industries. It is considered vital for the proper lubrication of steel plants and electric motors.
Polyurea grease is a synthetic grease and a premium first-class multipurpose that offers exceptional stability, high-temperature resistance, and extreme pressure (EP) properties.