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Product name :6063 aluminum tube microchannel radiator
PRODUCT DESCRIPTION | ||
NO. | ITEM | DESCRIPTION |
1 | Material | AA6061, AA6063, AA3003 |
2 | Temper | H14 |
3 | Length | Up to 6 meters |
4 | Width | Up to 1 meter |
5 | Thickness | At least 0.5mm |
6 | Surface finish | Powder coating, oxidation, painting, etc |
7 | Color | Black, white, grey, silver, etc |
7 | Application | Typically used in heat transfer fields |
▲Multiple microchannel flat tubes
Metalli's microchannel tube applications
Metalli's microchannel tube technology is characterized by several key features that have made it increasingly popular, particularly in the automobile industry.
Firstly, these tubes are exceptionally lightweight, with a compact size and reduced internal volume. This not only reduces transportation and handling costs, but also lowers the cost of labor.
In addition, Metalli's microchannel tubes are highly resistant to corrosion. The use of special long-life aluminum alloys and non-corrosive fluxes during manufacturing ensures significant corrosion resistance.
The technology also boasts high heat transfer ratios, thanks to the brazing process that creates a metallurgical bond between the tubes and fins. This eliminates contact resistance, resulting in higher heat transfer rates compared to traditional finned tube heat exchangers.
Moreover, microchannel heat exchangers require smaller sizes and compact designs. In fact, a 32-mm tube width microchannel heat exchanger can perform almost as well as a 6-row finned tube heat exchanger with the same surface area. This allows for a smaller and less costly microchannel heat exchanger to replace a traditional heat exchanger with a lower number of rows. In some cases, it may even permit an increase in heat exchanging surface.
Finally, the overall cost of equipment using microchannel heat exchangers is significantly lower than traditional heat exchanger-based systems. This is due to the technology's smaller size and the reduction in the number of parts required for construction. In fact, experience has shown that the end cost of equipment using microchannel heat exchangers is at least 10% lower than traditional heat exchangers.
Product name :6063 aluminum tube microchannel radiator
PRODUCT DESCRIPTION | ||
NO. | ITEM | DESCRIPTION |
1 | Material | AA6061, AA6063, AA3003 |
2 | Temper | H14 |
3 | Length | Up to 6 meters |
4 | Width | Up to 1 meter |
5 | Thickness | At least 0.5mm |
6 | Surface finish | Powder coating, oxidation, painting, etc |
7 | Color | Black, white, grey, silver, etc |
7 | Application | Typically used in heat transfer fields |
▲Multiple microchannel flat tubes
Metalli's microchannel tube applications
Metalli's microchannel tube technology is characterized by several key features that have made it increasingly popular, particularly in the automobile industry.
Firstly, these tubes are exceptionally lightweight, with a compact size and reduced internal volume. This not only reduces transportation and handling costs, but also lowers the cost of labor.
In addition, Metalli's microchannel tubes are highly resistant to corrosion. The use of special long-life aluminum alloys and non-corrosive fluxes during manufacturing ensures significant corrosion resistance.
The technology also boasts high heat transfer ratios, thanks to the brazing process that creates a metallurgical bond between the tubes and fins. This eliminates contact resistance, resulting in higher heat transfer rates compared to traditional finned tube heat exchangers.
Moreover, microchannel heat exchangers require smaller sizes and compact designs. In fact, a 32-mm tube width microchannel heat exchanger can perform almost as well as a 6-row finned tube heat exchanger with the same surface area. This allows for a smaller and less costly microchannel heat exchanger to replace a traditional heat exchanger with a lower number of rows. In some cases, it may even permit an increase in heat exchanging surface.
Finally, the overall cost of equipment using microchannel heat exchangers is significantly lower than traditional heat exchanger-based systems. This is due to the technology's smaller size and the reduction in the number of parts required for construction. In fact, experience has shown that the end cost of equipment using microchannel heat exchangers is at least 10% lower than traditional heat exchangers.
