UAE Insulation Panels Suppliers and Manufacturers

2. Specifications: Material: Copper wire with various degrees of insulation or bare copper. Types: Bare Bright Copper Wire: Clean, uncoated, unalloyed copper wire that is free of any impurities. Insulated Copper Wire: Copper wire with various types of insulation, including PVC (Polyvinyl Chloride), Teflon, rubber, etc. Copper Content: Generally ranges from 95% to 99.9% pure copper, depending on the grade. Gauge/Thickness: Typically ranges from very thin wires (e.g., 18 AWG) to thicker cables (e.g., 2/0 AWG or higher). Condition: Clean: Free from any contaminants or corrosion, suitable for direct recycling. Tinned: Copper wire coated with a thin layer of tin to enhance solderability. Burnt: Copper wire that has undergone burning or oxidation, affecting its physical properties and purity. Packaging: Usually bundled in coils, spools, or loose in containers depending on quantity and logistics requirements. Application: Used as a raw material in the production of new copper products such as electrical wiring, motors, transformers, and various electronic components. Environmental Considerations: Recycling scrap copper wire reduces the need for mining new copper ore, which helps conserve natural resources and reduces energy consumption and greenhouse gas emissions associated with copper production. 3. Quality Standards: Compliance with local and international standards for metal recycling and copper content purity. Adherence to environmental regulations regarding the handling and disposal of scrap materials. Quality control measures to ensure the absence of hazardous materials and proper sorting for optimal recycling efficiency.

Polyamide 6 (Nylon 6) Description Polyamide 6, also known as Nylon 6, is a synthetic polymer that belongs to the polyamide family. It is a versatile and widely used engineering thermoplastic known for its excellent mechanical properties, thermal stability, and chemical resistance. Here's a detailed description: Properties: High Strength and Durability: Polyamide 6 exhibits high tensile strength and toughness, making it ideal for demanding engineering applications. Excellent Wear Resistance: It has superior abrasion resistance, which contributes to its longevity in applications involving friction and wear. Good Thermal Stability: Polyamide 6 can withstand high temperatures, maintaining its properties and performance in various thermal conditions. Chemical Resistance: It is resistant to many chemicals, oils, and solvents, making it suitable for use in harsh environments. Good Impact Resistance: The material can absorb and withstand significant impacts without cracking or breaking. Low Friction Coefficient: This property makes it ideal for use in applications involving moving parts, reducing wear and tear. Applications: Automotive Industry: Used in manufacturing parts such as gears, bearings, and engine components due to its strength and durability. Textiles: Utilized in the production of fabrics, ropes, and threads owing to its excellent fiber-forming properties. Electrical and Electronics: Employed in making connectors, insulators, and other electronic components because of its good insulating properties. Industrial Machinery: Suitable for making various machine parts, including rollers, pulleys, and sprockets. Consumer Goods: Commonly used in the production of household items, sports equipment, and kitchen utensils. Advantages: Versatility: Can be molded into various shapes and forms, catering to a wide range of industrial and consumer applications. Lightweight: Despite its strength, Polyamide 6 is relatively lightweight, offering ease of handling and installation. Recyclability: It is recyclable, contributing to sustainability and environmental conservation efforts. Cost-Effective: Offers a good balance of performance and cost, making it a preferred choice in many industries. Polyamide 6 (Nylon 6) is an indispensable material in modern manufacturing, providing a blend of performance, reliability, and versatility that meets the needs of numerous applications.

Composition and Components: Li-ion Battery Scrap consists primarily of lithium-ion cells and batteries that are discarded or recycled. These batteries typically contain: Lithium cobalt oxide (LiCoO2), lithium nickel manganese cobalt oxide (NMC), lithium iron phosphate (LiFePO4), or other cathode materials. Graphite or other carbon-based anodes. Electrolytes (typically lithium salts in organic solvents). Aluminum or copper foils used as current collectors. Plastic casing and insulation materials. Physical Characteristics: Size: Varied sizes depending on the original battery type, ranging from small cylindrical cells to large battery packs used in electric vehicles (EVs). Weight: Varies widely based on the size and type of battery, typically ranging from a few grams to several kilograms per cell or pack. Condition: Typically used, damaged, or end-of-life batteries. May include intact or partially dismantled units. Chemical Composition: Lithium-ion batteries typically contain varying proportions of lithium, cobalt, nickel, manganese, iron, graphite, aluminum, copper, and plastics. Chemical makeup may vary significantly depending on the specific battery chemistry and manufacturer specifications. Packaging: Often sold loose or in containers such as bulk bags (super sacks) or palletized for ease of transportation and handling. Applications: Used extensively in portable electronics (laptops, smartphones, tablets), power tools, electric vehicles (EVs), and energy storage systems (ESS). Environmental Considerations: Li-ion Battery Scrap must be handled and recycled in accordance with environmental regulations due to the presence of potentially hazardous materials such as lithium and cobalt. Quality and Purity: Typically sold as mixed battery scrap containing various types and conditions of lithium-ion batteries. Sorting by chemistry or condition may be available depending on supplier capabilities. Certifications and Compliance: Suppliers may provide certifications ensuring compliance with recycling and environmental standards such as ISO 14001 or local regulatory requirements for battery recycling. Storage and Handling: Li-ion Battery Scrap should be stored in a dry, cool environment to prevent potential reactions or fires. Handling should follow established safety protocols due to the potential for short-circuiting or thermal runaway in damaged cells. Uses in Recycling: Valuable as a source of raw materials (lithium, cobalt, nickel, etc.) for the production of new batteries or other applications after proper recycling and processing. Documentation:

Aluminum Specification: Aluminum is a lightweight, silvery-white, and ductile metal known for its high corrosion resistance, excellent thermal and electrical conductivity, and versatility in various applications. It is commonly used in industries such as aerospace, construction, automotive, and packaging. Physical Properties: Density: Approximately 2.70 g/cm�³ Melting Point: 660.3�°C (1220.5�°F) Boiling Point: 2519�°C (4566�°F) Mechanical Properties: Tensile Strength: Varies with alloy, typically ranging from 70 to 700 MPa Yield Strength: Varies with alloy, typically ranging from 30 to 500 MPa Elongation at Break: Varies with alloy, typically from 1% to 30% Hardness: Varies with alloy, typically from 20 to 120 HB Chemical Composition: Pure aluminum is composed of 99.0% to 99.9% aluminum. Common alloying elements include copper, manganese, silicon, magnesium, and zinc. Thermal Properties: Thermal Conductivity: 205 W/m�·K (at 20�°C) Coefficient of Thermal Expansion: 23.1 x 10â?»â?¶ /K Electrical Properties: Electrical Conductivity: 37.7 x 10â?¶ S/m (at 20�°C) Corrosion Resistance: Excellent resistance to atmospheric corrosion due to the formation of a protective oxide layer. Good resistance to corrosion in marine environments and many industrial chemicals. Formability and Machinability: Highly ductile and can be easily formed into various shapes through processes like rolling, extruding, and drawing. Machinability varies with the alloy, with some aluminum alloys offering better machinability than others. Common Applications: Aerospace: Airplane fuselages, wings, and other structural components. Automotive: Engine components, wheels, and body panels. Construction: Window frames, roofing, and structural components. Packaging: Beverage cans, foil, and containers. Electrical: Conductors, wiring, and electronic components. Surface Treatment: Aluminum can be anodized, painted, or coated to enhance its surface properties and appearance. Recyclability: Aluminum is highly recyclable and retains its properties after recycling, making it a sustainable material choice. Standards and Grades: Common standards include ASTM B209 for aluminum sheet and plate, ASTM B221 for aluminum extruded bars, rods, wire, profiles, and tubes. Grades and tempers vary depending on the specific application and alloy composition.

Aluminum Specification: Aluminum is a lightweight, silvery-white, and ductile metal known for its high corrosion resistance, excellent thermal and electrical conductivity, and versatility in various applications. It is commonly used in industries such as aerospace, construction, automotive, and packaging. Physical Properties: Density: Approximately 2.70 g/cm�³ Melting Point: 660.3�°C (1220.5�°F) Boiling Point: 2519�°C (4566�°F) Mechanical Properties: Tensile Strength: Varies with alloy, typically ranging from 70 to 700 MPa Yield Strength: Varies with alloy, typically ranging from 30 to 500 MPa Elongation at Break: Varies with alloy, typically from 1% to 30% Hardness: Varies with alloy, typically from 20 to 120 HB Chemical Composition: Pure aluminum is composed of 99.0% to 99.9% aluminum. Common alloying elements include copper, manganese, silicon, magnesium, and zinc. Thermal Properties: Thermal Conductivity: 205 W/m�·K (at 20�°C) Coefficient of Thermal Expansion: 23.1 x 10â?»â?¶ /K Electrical Properties: Electrical Conductivity: 37.7 x 10â?¶ S/m (at 20�°C) Corrosion Resistance: Excellent resistance to atmospheric corrosion due to the formation of a protective oxide layer. Good resistance to corrosion in marine environments and many industrial chemicals. Formability and Machinability: Highly ductile and can be easily formed into various shapes through processes like rolling, extruding, and drawing. Machinability varies with the alloy, with some aluminum alloys offering better machinability than others. Common Applications: Aerospace: Airplane fuselages, wings, and other structural components. Automotive: Engine components, wheels, and body panels. Construction: Window frames, roofing, and structural components. Packaging: Beverage cans, foil, and containers. Electrical: Conductors, wiring, and electronic components. Surface Treatment: Aluminum can be anodized, painted, or coated to enhance its surface properties and appearance. Recyclability: Aluminum is highly recyclable and retains its properties after recycling, making it a sustainable material choice. Standards and Grades: Common standards include ASTM B209 for aluminum sheet and plate, ASTM B221 for aluminum extruded bars, rods, wire, profiles, and tubes. Grades and tempers vary depending on the specific application and alloy composition.