Arrangement and number of pins for optimum air flow and suitable for forced and free convection, constant heat dissipation in the base and the pins in the direction of heat flow
– Arrangement and number of pins for optimum air flow
– suitable for forced and free convection
– excellent thermal conductivity by the alloy material (Al99,5; 220 W/mK) and homogeneous arrangement of materials
– constant heat dissipation in the base and the pins in the direction of heat flow
– low weight achieved by optimised geometry
– components fastened using glue, adhesive foil or clamps
– customer-specific modifications and special designs
– other pin-lengths and surfaces on request
– surface: A1-natural A4 : Black Aondize 3D View Datasheet Downlaod
If you need further information (STP/ CAD/PDF/Thermal Report), please do not hesitate in completing your request for samples as required.Our products are supported by our comprehensive and dependable technical support to help you make the right engineering and commercial decisions, so feel free to Email or call our engineering office today
Thermal resistance: 0.75 C/W Material : AL 1050 (99.5%) Surface : A1: raw degreased aluminium /A2: natural colour anodize / A4: black Anodize Pin Height: 30 mm (1.18 inch) ( Pin Height available) Base Diameter87mm Base thickness: 4 mm (0.16 inch) ( Base thickmess available) Volume (mm3) 131,719.19 mm3 Surface (mm2) 104,830.33 mm2 Cooling method Natural convection ,forced convection etc Dimensional Downlaod PDF
The following is the thermal resistance curve of natural convection. If you need heat dissipation performance parameters such as forced convection, please contactsales@renxin-precision.comor technical support info@renxin-precision.com.We provide thermal solution design and thermal analysis, structural design and cost optimization. Our laboratory can provide thermal performance testing, wind tunnel testing, reflectivity testing, airtight waterproof performance, coating thickness testing, color contrast testing, optical performance testing and other services.Thermal Performance