Key attributes
Other attributes
Place of Origin:United States
Brand Name:SABICS
Model Number:THERMOTUF WF006N
Packaging and delivery
Packaging Details:25kg per bag.
Few bags packing on cartons.
Large quantity packing on plastic pallet.
Port:ShenZhen
Supply Ability
Supply Ability:99999 Kilogram/Kilograms per Month
Samples
Maximum order quantity: 25 kilogramSample price:
Customization
Customized logo:Min. order: 25
Customized packaging:Min. order: 25
Graphic customization:Min. order: 25
For more customization details, message supplier
Place of origin:United States
Brand Name:SABIC
Model Number:THERMOTUF WF006N
Material:Polybutylene Terephthalate
Color:All
Type:Virgin
Feature:Glass Fiber Filled
MOQ:25KG
Form:Granules Plastic Pellets
Package:25 kg/bag
Certificate:COA
THERMOTUF WF006N
LNP™ THERMOTUF WF006N is a specialized structural grade compound developed by SABIC, featuring a polybutylene terephthalate (PBT) resin matrix reinforced with 30% glass fiber. This advanced formulation is specifically designed for nano-molding technology (NMT) applications, offering exceptional dimensional stability, impact resistance, and chemical resistance. With its high stiffness and excellent metal-adhesion properties, this compound is well-suited for a wide range of applications in personal accessories, electrical components, devices, and displays, as well as in electronics, consumer goods, and infrastructure.
Key Features: THERMOTUF WF006N
- Polybutylene Terephthalate (PBT) Matrix: The PBT resin matrix provides the foundation for the compound, imparting excellent mechanical properties, dimensional stability, and resistance to chemicals and environmental factors.
- Glass Fiber Reinforcement: Incorporation of 30% glass fibers enhances the structural integrity of the compound, resulting in increased stiffness, strength, and impact resistance, making it suitable for demanding applications.
- Nano-Molding Technology (NMT) Compatibility: Tailored for nano-molding technology applications, WF006N offers optimized processing characteristics and performance benefits in applications requiring intricate geometries and micro-scale features.
- Dimensional Stability: The compound exhibits exceptional dimensional stability, ensuring precise replication of mold details and tight tolerances in molded parts, critical for applications where accuracy is paramount.
- High Impact Resistance: WF006N provides high impact resistance, ensuring durability and reliability in applications subjected to mechanical stress and impact loads, minimizing the risk of part failure or damage.
- Chemical Resistance: With its good chemical resistance, the compound offers protection against a wide range of chemicals and solvents, enhancing the longevity and performance of components in harsh environments.
- Metal-Adhesion and Bonding Strength: The compound demonstrates excellent metal-adhesion properties, facilitating strong bonds between molded parts and metal components, enhancing assembly and structural integrity in multi-material applications.
Applications
- Personal Accessories: Suitable for personal accessory applications such as watch components, eyewear frames, and jewelry, where durability, dimensional stability, and aesthetics are essential.
- Electrical Components and Devices: Used in the manufacturing of electrical connectors, housings, and enclosures for electrical devices and displays, offering reliable performance and protection against environmental factors.
- Electronics: Applied in various electronic components and assemblies where high stiffness, impact resistance, and chemical resistance are required to ensure long-term reliability and functionality.
- Consumer Goods: Utilized in consumer products such as handheld devices, appliances, and tools, where high-performance materials are needed to withstand daily use and environmental exposure.
- Infrastructure: Used in infrastructure applications such as building and construction components, offering structural integrity, weather resistance, and long-term durability in outdoor environments.
Processing Method: Injection Molding