BASF PA6 Polyamide B3WG6 Plastic Raw Material Pellet Overview
Product Struction
What is BASF PA6 Polyamide B3WG6
In the current industrial system where engineering plastics are widely used, PA6 polyamide (polyamide 6) is widely applied in automobiles, electronics and electrical appliances, and industrial manufacturing due to its comprehensive mechanical strength and thermal stability performance. BASF B3WG6, as a 30% glass fiber reinforced low-viscosity injection-grade PA6 material, not only meets the requirements of structural stability, but also takes into account the molding efficiency and aging resistance. It is especially suitable for complex components with strict requirements for the thermal environment.
01 | PA6 polyamide performance focus: Synergistic Optimization of stability and fluidity
Unlike traditional PA6 polyamide, the research and development logic of B3WG6 leans more towards the dual considerations of "structural load + process friendliness" :
Glass fiber reinforced (30%) : Enhances tensile strength, modulus and dimensional stability, and inhibits warping caused by thermal expansion and contraction;
High thermal stability system: Heat-resistant aging additives are added to the formula, suitable for high-temperature long-term service scenarios.
Low viscosity and high fluidity: Suitable for thin-walled structures and complex mold designs, improving injection molding filling efficiency;
Integration of processing AIDS: Premixed lubricants and mold release agents reduce friction and wear, and extend the service life of molds.
This enables B3WG6 to maintain physical strength while also providing outstanding molding performance, making it particularly suitable for automated injection molding production lines and high-cycle injection molding part manufacturing.
02 | From materials to scenarios: Three typical practical applications of B3WG6
Automobile engine system
The heat aging resistance and high mechanical strength of B3WG6 make it an ideal material for engine intake manifolds, turbine connectors and cooling system brackets. It not only meets the rigidity maintenance requirements in a thermal environment, but also can cope with the vibration and thermal shock in the engine compartment.
Internal structural support components
Its low shrinkage rate and glass fiber reinforcement feature result in small warping and high dimensional accuracy of injection molded products. It is widely used in automotive pedals, modular mounting brackets and electrical housings, taking into account both structural load-bearing capacity and assembly accuracy.
Functional components in industrial equipment
For industrial connectors, bracket systems, motion mechanism housings and other components that require high load and anti-aging properties, B3WG6 offers excellent material stability and long-term reliability, making it a lightweight alternative to metal structural parts.
03 | Process compatibility and production advantages
PA6 polyamide B3WG6 is compatible with common engineering plastic injection molding equipment and has the following manufacturing advantages:
The fluidity is improved, making it suitable for designs with thin walls, dense reinforcing ribs or complex flow channels.
It has good molding consistency and small performance fluctuations within the range of temperature/shear rate.
The surface quality is good and it is suitable for products that require secondary processing, coating, electroplating or laser engraving.
For customer projects that require batch delivery and have high size requirements, B3WG6 reduces the quality risks caused by production fluctuations.
04 | PA6 polyamide B3WG6 Datasheet
| Electrical properties | Condition | Standard | Value | Unit | |||
| CTI | Solution A | IEC 60112 | 450 | ||||
| Dielectric | Constant 1MHz | IEC 62631-2-1 | 3.8 | 6.8 | |||
| Dissipation | Factor 1MHz | IEC 62631-2-1 | 0.023 | 0.22 | |||
| Surface | Resistivity | IEC 62631-3-2 | 1E10 | ||||
| Volume | Resistivity | IEC 62631 | 1E+13 | 1E10 | |||
| Flammability | Condition | Standard | Value | Unit | |||
| Flame | Rating BK 0.75mm | UL94 | HB | ||||
| Flame | Rating All Color 1.5mm | UL94 | HB | ||||
| Flame | Rating All Color 3.0mm | UL94 | HB | ||||
| Mechanical behavior | Condition | Standard | Value | Unit | |||
| Charpy | Notch Impact 23°C 1eA | ISO 179 | 15 | 30 | |||
| Charpy | Notch Impact -30°C 1eA | ISO 179 | 11 | 10.2 | |||
| Charpy | Un-notch Impact 23°C | ISO 179 | 95 | 110 | |||
| Charpy | Un-notch Impact -30°C | ISO 179 | 80 | 85 | |||
| Elongation | Break | ISO 527 | 3.5 | 8 | |||
| Flexural | Strength | ISO 178 | 270 | 180 | |||
| Flexural | Modulus | ISO 178 | 8600 | 5000 | |||
| Izod | Notch Impact 23°C | ISO 180 | 15 | 20 | |||
| Izod | Notch Impact 23°C | ASTM D256 | 150 | 300 | |||
| Tensile | Modulus | ISO 527 | 9500 | 6200 | |||
| Tensile | Strength Break | ISO 527 | 185 | 115 | |||
| Physical property | Condition | Standard | Value | Unit | |||
| Density | ISO 1183 | 1360 | kg/m³ | ||||
| Melt | Index 275°C 5kg | ISO 1133 | 30 | cm³/10min | |||
| Shrinkage | 0.31 | % | |||||
| Shrinkage | Flow | ISO 294 | 0.23 | % | |||
| Shrinkage | xFlow | ISO 294 | 0.63 | % | |||
| Viscosity | Number 0.5% in 96% H2SO4 | ISO 307 | 140 | cm³/g | |||
| Water | Absorption 23°C Saturation In Water | ISO 62 | 6.3~6.9 | % | |||
| Thermal | Condition | Standard | Value | Unit | |||
| CLE | Flow 23~80°C | ISO 11359 | 2.5E-5 | m/m/K | |||
| CLE | xFlow 23~80°C | ISO 11359 | 1.02E-4 | m/m/K | |||
| HDT | 1.8MPa | ISO 75 | 210 | °C | |||
| HDT | 0.45MPa | ISO 75 | 220 | °C | |||
| Heat | Conductivity Coefficient | DIN 52612 | 0.36 | W/(m·K) | |||
| Melting | Temperature DSC | ISO 11357 | 220 | °C | |||
| Service | Temperature Short Time | INTERNAL METHOD | 200 | °C | |||
| Service | Temperature 5000hr | IEC 60216 | 175 | °C | |||
| Service | Temperature 20000hr | IEC 60216 | 145 | °C | |||
| Specific | Heat | INTERNAL METHOD | 1500 | J/(kg·K) | |||
05 | Value Comparison with Conventional PA6 polyamide Materials
| Property | Conventional PA6 | BASF PA6 B3WG6 |
|---|---|---|
| Glass Fiber Reinforcement | None / 15% | 30% |
| Thermal Stability | Standard | Long-term resistance to high heat |
| Injection Molding Flowability | Moderate | High flowability for faster molding |
| Dimensional Accuracy | Prone to warping | Dimensionally stable with low shrinkage |
| Aging Resistance | Average | Extended lifespan under thermal-oxidative conditions |
06 | Summary: PA6 Polyamide material born for structural reliability
BASF PA6 B3WG6 is not only a glass fiber reinforced engineering plastic, but also a solution-type material designed for high strength, high precision and thermal environment. It combines the physical properties of materials, processing efficiency and terminal application requirements, and plays a key role in automotive manufacturing and industrial engineering.
If you are looking for a PA6 Polyamide material that has good fluidity during the injection molding process, as well as thermal aging and structural stability, B3WG6 will be a reliable choice.
If you need to know the Technical Data Sheet (TDS), obtain samples or quotations, please feel free to contact us at any time. We have been providing long-term and stable supply of original BASF engineering plastics, and offer support for project material selection and development.
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