Technical Specifications:

Property

Test Method

Specification

Moisture Content (H₂O)

GB 6284-2006

≤ 0.35 wt%

Density

ISO 1183-1:2019

≤ 1.3 g/cm³

Tensile Strength

ISO 527-2:2012

≥ 50 MPa

Bending Strength

ISO 178:2019

≥ 60 MPa

Flexural Modulus

ISO 178:2019

≥ 3000 MPa

Shore Hardness D

GB/T 2411-2008

≥ 60°

DIN Abrasion

ISO 4649 (B)

≤ 200 mm³

Key Characteristics:

Exceptional Mechanical Properties and Wear Resistance: The integration of graphene enhances the composite's strength and durability, ensuring longevity in demanding environments.
Superior Weather Resistance: Designed to withstand various environmental conditions, these composites maintain performance over extended periods.
Enhanced Flowability and Processing Performance: Optimized for manufacturing processes, they offer ease of molding and consistent quality.
Customizable Colors and Mechanical Properties: Tailored solutions are available to meet specific application requirements.

Applications:

Mining Pipes: The high abrasion resistance and mechanical strength make these composites suitable for transporting abrasive materials in mining operations.
Water Supply Pipes: Their durability and resistance to environmental factors ensure reliable performance in water distribution systems.
Automotive Electrical Parts: The lightweight and robust nature of the composites contribute to improved efficiency and longevity of automotive components.

Handling and Storage:

Store in a cool, ventilated, and dry environment, away from moisture. Due to slight water absorbency, it is recommended to dry the material at 80°C for 2-4 hours before use.

Transportation:

Avoid exposure to sunlight, rain, and physical damage during transportation. Handle with care to maintain product integrity.

Shelf Life:

Under proper storage conditions, the product maintains its properties over the long term. For applications requiring strict moisture control, drying before use is advisable.

Advancements in Graphene-Reinforced Composites:

The incorporation of graphene into HDPE matrices has led to significant improvements in composite materials. Graphene's exceptional electrical and thermal conductivity, combined with its mechanical strength, enhances the performance of these composites. Studies have demonstrated that graphene-reinforced composites exhibit superior mechanical properties, making them suitable for a wide range of applications, including automotive, aerospace, and construction industries.

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For instance, the use of graphene in composite materials has been shown to improve tensile strength and thermal stability, which are critical factors in demanding applications. Additionally, the lightweight nature of graphene composites contributes to energy efficiency and performance optimization in various sectors.

By leveraging the unique properties of graphene, these HDPE reinforced composites offer a combination of strength, durability, and versatility, positioning them as a preferred choice for advanced engineering applications.

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