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Aluminum alloy fin material for heat exchanger and method for producing same

A technology for heat exchangers and manufacturing methods, applied to heat exchange equipment, lighting and heating equipment, tubular elements, etc., can solve the problems of increased strength, difficulty in reaching the size of fins, and unoptimized fins, and achieve thin thickness and corrugated forming The effect of good resistance and excellent strength

Active Publication Date: 2016-01-13
FURUKAWA SKY ALUMINUM CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] However, as the thickness of the fin material is thinned, high strength is required at the same time. Along with this, there is a problem that the strength before brazing heating is increased, and it is difficult to achieve it when processing fins by corrugation. specified size
Therefore, when casting an alloy containing such an element, the second phase particles are coarsely crystallized, and there is a high possibility that the wear of the mold will be accelerated during corrugation forming, which is industrially unfavorable.

Method used

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  • Aluminum alloy fin material for heat exchanger and method for producing same
  • Aluminum alloy fin material for heat exchanger and method for producing same
  • Aluminum alloy fin material for heat exchanger and method for producing same

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Embodiment

[0074] Hereinafter, the present invention will be described in more detail based on examples, but the present invention is not limited thereto.

[0075] First, aluminum alloys having the alloy compositions shown in Table 1 were manufactured by the manufacturing methods shown in Table 2, respectively. It should be noted that, in the alloy composition of Table 1, "-" means below the detection limit, and the "remainder" includes unavoidable impurities.

[0076] For the test material cast by the twin-roll continuous casting and rolling method, the obtained plate-shaped ingot is cold-rolled, and intermediate annealing is performed in a batch-type annealing furnace at a predetermined thickness, and cold-rolled to the final thickness. Fin material (tempered: H1n).

[0077] With regard to the test material cast by the DC casting method, the prepared ingot was not homogenized, but was heated to 500° C., and then rolled to a desired thickness by hot rolling to produce a plate material....

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Abstract

Provided is an aluminum alloy fin material for a heat exchanger and characterized by containing 0.5-1.5 mass% of Si, over 1.0 mass% and no greater than 2.0 mass% of Fe, 0.4-1.0 mass% of Mn, and 0.4-1.0 mass% of Zn, the remainder comprising Al and unavoidable impurities, the pre-brazing-heating metal structure being such that the density of second phase particles having an equivalent circle diameter of less than 0.1 [Mu]m is less than 1*107 - particles / mm2 and the density of second phase particles having an equivalent circle diameter of at least 0.1 [Mu]m is at least 1*105 particles / mm2, the pre-brazing-heating tensile strength (TS-B) (N / mm2), post-brazing-heating tensile strength (TSA) (N / mm2), and fin material thickness (t) ([Mu]m) satisfying the relationship 0.4<=(TSB-TSA) / t<=2.1, and the thickness being no greater than 150 [Mu]m. Further provided is a method for producing same.

Description

technical field [0001] The present invention relates to an aluminum alloy fin material for heat exchangers excellent in corrugation formability and strength after brazing heating, and a method for producing the fin material, which is particularly suitable for use as radiators, heater cores, capacitors, intercoolers, etc. Fin materials for heat exchangers. Background technique [0002] Aluminum alloys are used in automotive heat exchangers such as radiators, capacitors, evaporators, heater cores, intercoolers, and the like because they are lightweight and have high thermal conductivity. [0003] Such heat exchangers have conventionally been used, for example, by brazing and joining fins of aluminum alloy formed into waves by corrugation forming. As the aluminum alloy fin material, pure aluminum-based alloys such as JIS1050 alloy excellent in thermal conductivity, and Al-Mn-based alloys such as JIS3003 alloy excellent in strength and buckling resistance are generally used. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C21/00B22D11/00B22D11/06C22F1/04C22F1/00
CPCF28F21/084B22D11/003B22D11/0622C21D1/26C22C21/00C22C21/02C22F1/00C22F1/04C22F1/043F28F1/06F28F1/126
Inventor 福元敦志望月淳一新仓昭男
Owner FURUKAWA SKY ALUMINUM CORP