"aluminum extruded heat sink"

CNC Machined Aluminum 6063 Extruded Heat Sink For LED Lights High heat dissipation efficiency: 6063/6061 aluminum high thermal conductivity+integrated extrusion non-contact thermal resistance, fast heat absorption+efficient convection, meeting the heat dissipation needs of medium and low power (50-300W); Copper aluminum composite models can cope with higher power (300-800W) scenarios. Lightweight+Strong Structure: With low aluminum density and integrated extrusion molding, it

High Rigidity Extruded Aluminum Heat Sink For Industrial Power Unit 1. Integrated extrusion molding process Adopting precise extrusion molding with molds, the radiator fins are integrated with the base without splicing, and there are no faults or gaps in heat conduction, greatly improving heat transfer efficiency; Multiple structures such as dense teeth, wide surfaces, and irregular shapes can be formed at once. The fin pitch is uniform and the thickness is consistent,

Aluminum Alloy Extruded Universal Industrial High-Efficiency Heat Sink 1. High temperature precision extrusion process: core forming, laying the foundation for heat dissipation Integrated extrusion molding: After heating and softening the 6063/6061 aluminum rod, the integrated structure of the substrate and fins is extruded in one go through a 10000 ton extruder and customized mold. No splicing or welding, eliminating contact thermal resistance from the root, and improving

High Efficiency Extruded Aluminum Heat Sink For Power Devices 1. High temperature precision extrusion process: core forming, laying the foundation for heat dissipation Integrated extrusion molding: After heating and softening the 6063/6061 aluminum rod, the integrated structure of the substrate and fins is extruded in one go through a 10000 ton extruder and customized mold. No splicing or welding, eliminating contact thermal resistance from the root, and improving thermal

Lightweight Extruded Aluminum Heat Sink For New Energy Inverter 1. Integrated extrusion molding process Adopting precise extrusion molding with molds, the radiator fins are integrated with the base without splicing, and there are no faults or gaps in heat conduction, greatly improving heat transfer efficiency; Multiple structures such as dense teeth, wide surfaces, and irregular shapes can be formed at once. The fin pitch is uniform and the thickness is consistent, maximizing

Black Anodized Extruded Aluminum Heat Sink With Dense Stacked Fins For High-Power Equipment This Black Anodized Extruded Aluminum Heat Sink with Dense Stacked Fins is engineered for robust thermal management in high-power equipment, delivering reliable passive heat dissipation for demanding industrial, power electronics, and heavy-duty applications. Crafted from high-thermal-conductivity aluminum alloy via precision extrusion, its dense stacked fin array maximizes heat

Extruded Aluminum Heat Sink With Pin-Fin Structure For Electronic Component Thermal This Extruded Aluminum Heat Sink with Pin-Fin Structure is expertly designed for electronic component thermal management, delivering efficient passive heat dissipation to maintain optimal operating temperatures for sensitive electronics. Crafted from high-purity aluminum via precision extrusion, its uniform pin-fin array maximizes surface area for enhanced thermal convection, effectively

High Thermal Extruded Aluminum Heat Sink For Industrial Equipment 1. Integrated extrusion molding process Adopting precise extrusion molding with molds, the radiator fins are integrated with the base without splicing, and there are no faults or gaps in heat conduction, greatly improving heat transfer efficiency; Multiple structures such as dense teeth, wide surfaces, and irregular shapes can be formed at once. The fin pitch is uniform and the thickness is consistent,

Anodized Extruded Aluminum Heat Sink For Industrial Cabinet 1. Integrated extrusion molding process Adopting precise extrusion molding with molds, the radiator fins are integrated with the base without splicing, and there are no faults or gaps in heat conduction, greatly improving heat transfer efficiency; Multiple structures such as dense teeth, wide surfaces, and irregular shapes can be formed at once. The fin pitch is uniform and the thickness is consistent, maximizing the

Dense Fin Extruded Aluminum Heat Sink for General Heat Dissipation 1. Integrated extrusion molding process Adopting precise extrusion molding with molds, the radiator fins are integrated with the base without splicing, and there are no faults or gaps in heat conduction, greatly improving heat transfer efficiency; Multiple structures such as dense teeth, wide surfaces, and irregular shapes can be formed at once. The fin pitch is uniform and the thickness is consistent,

Efficient Extruded Aluminum Heat Sink For Industrial Equipment 1. Integrated extrusion molding process By using high-precision extrusion equipment and customized molds, high thermal conductivity materials (mainly aluminum alloy) are molded in one piece to create dense teeth, wide surfaces or irregular structures. The fin tooth spacing is uniform, without splicing faults, and there is no gap in heat conduction, maximizing the expansion of heat dissipation area. At the same

Standard Extruded Aluminum 6063 Profile Radiator For PCB Heat Dissipation Crafted from high-purity 6063 aluminum alloy, this standard extruded profile radiator is engineered to deliver exceptional heat dissipation performance for printed circuit boards (PCBs) across industrial, consumer electronics, and telecommunications applications. Leveraging advanced aluminum extrusion technology, the radiator features a precisely designed fin structureincluding optimized fin density