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Nanjing Metalli Industrial Co., Ltd.

Brazing Aluminum Coil, Brazing Aluminum Foil, Brazing Aluminum Strip manufacturer / supplier in China, offering Aluminum Coil for Vacuum Brazing, 6061 T6 Aluminum Manifold Tube, Deep Drawing Part Wear Resistant Bolster Center Bowl Liner and so on.

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Aluminum Coil for Vacuum Brazing

FOB Price: US $3,000 / Ton
Min. Order: 1 Ton
Min. Order FOB Price
1 Ton US $3,000/ Ton
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Production Capacity: 1000 Tons Per Month
Transport Package: to Be Packed in Wooden Crate
Payment Terms: L/C, T/T, D/P, Western Union, Money Gram

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Basic Info
  • Model NO.: AACB1001
  • Panel Thickness: 0.05-4 mm
  • Function: Heat Transfer
  • Certification: ISO
  • Width: 12 to 1300 mm
  • Temper: O-H112
  • Surface Finish: Original or Custom
  • Alloy or Not: Is Alloy
  • Applicaiton: Heat Exchanger and Industrial Fields
  • Origin: Jiangsu, China
  • Surface Finishing: Original
  • Aluminum Thickness: 0.05-4 mm
  • Usage: Heat Exchanger Fields
  • Alloy Number: AA4004,4104,4045,4343
  • Thickness: 0.05 to 4 mm
  • Max Weight Per Packing: 1.5 Ton
  • Place of Origin: Jiangsu,China
  • Type: Plate
  • Trademark: YB
  • HS Code: 7606920000
Product Description
1. Aluminum alloy number
No.ClassificaitonLayerAlloy NumberCladding ratioRatio tolerance
1.1Non-CladdingLayer 1AA4004,4104,4045,4343NANA
1.2Single side claddingLayer 1AA4004,4104,4045,43434%-30%±2%
CoreAA3003NANA
1.3Both sides claddingLayer 1AA4004,4104,4045,43434%-15%±2%
Layer 2AA4004,4104,4045,43434%-15%±2%
CoreAA3003NANA
2. Product size and tolerance
No.ItemSizeTolerance
2.1Length (mm)500-6000±2
2.2Width (mm)450-1300±1
2.3Thickness (mm)0.1-4min ±0.005,max ±0.08
3. Chemical composition for some typical alloys
No.Internal
Alloy Number
AA numberChemical Composition (%)
SiFeCuMnMgZnTiZrBiOthersAl
EachTotal
3.4300330030.60.70.05-0.21-1.50.050.1   0.050.15RE
3.6400440049.0-10.50.80.250.11.0-2.00.2   0.050.15RE
3.7404540459.0-11.00.80.30.050.050.1   0.050.15RE
3.9410441049.0-10.50.80.250.11.0-2.00.2  0.05-0.20.050.15RE
3.10434343436.8-8.20.80.250.10.050.2   0.050.15RE
3.114343A4343A6.8-8.20.60.10.10.020.1   0.050.15RE
4. Mechanical properties for some typical alloys 
No.Alloy numberThick.
(mm)
TemperYield Strength
Rp0.2(Mpa).
Min
Tensile Strength
Rm (Mpa)
Elongation
(%)
A50,Min
Typical usage
4.130030.08-0.15O3595-1358Fins
4.230030.16-0.35O3595-13510Fins
4.330030.15-0.3H1290120-1750.5Fins
4.430030.06-0.08H14125145-1850.5Fins
4.530030.081-0.3H14125145-2000.5Fins
4.630030.06-0.16H16160165-2050.5Fins
4.730030.2-0.3H24125145-2056Fins
4.83003-10.35-3.0O3595-13520Plate
4.93003-10.40-3.0H14125145-1853Plate
4.103003-11.0-3.0H24125145-18510Plate
4.1443430.07-3.0O3595-1508Sheet for brazing
4.1543430.07-3.0H14120140-2000.5Sheet for brazing
4.1640450.07-3.0O3595-1508Sheet for brazing
4.1740450.07-3.0H14120140-2000.5Sheet for brazing
4.1841040.07-3.0O3595-1508Sheet for brazing
4.1941040.07-3.0H14120140-2000.5Sheet for brazing
4.2430030.25-0.35H24130155-2056Fins for air cooler
4.2530030.1-0.2H14125145-1851Fins
4.2630030.1-0.3O3595-13510Fins
4.2730030.3-0.8H14125145-1852Plate
4.2830030.8-2.5H14125145-1854Plate
4.2930030.5-1.6O35145-18520Plate
4.303003-10.3-1.8O3595-13520Band
4.313003-10.5-4.0O3595-13525Plate
4.323005 Mod0.25-0.6H24150185-2358Long life tube
5. Surface finish and other properties
No.ItemDescription
5.1Surface finisha. The material shall bright finish; b. The material shall be from pinholes and tearing
5.2Diagonal VariationThe sheets shall not have any diagonal outs beyond 0.5mm
5.3Bend testThere shall be no sign of cracking or peeling off effect while longitudinal or transverse or close bends of 180 or angular.
6. Packing,Shipping and others
No.ItemDescription
6.1PackingTo be packed in wooden crate with polythene cover for water protection
6.2MarkingEach box to be legibly marked with the name of the manufacturer or supplier, the alloy designation of material,condition,dimensions and weight
6.3Shipping toolsShip goods by van to departune port then by sea to desitination port
6.4Quantity variation±10% quantity variation with order quantity shall be acceptable

7. Introduction of brazing

Brazing is a joining method which provides a permanent bond between the parts to be
joined with the help of a brazing filler metal. The composition of the filler alloy is such
that its melting point is slightly below the melting range of the parent metal of the parts.
Brazing is distinguished from welding by the fact that the parent metal does not melt
during the process. It differs from soldering by the facts that
a) the brazing filler metal is an aluminium-base alloy and
b) the working temperatures for soldering are appreciably lower.
By accepted general definition of DVS (Deutscher Verband für Schweißtechnik,
Düsseldorf) the working temperature for brazing is above 450 °C, whereas it is below
450 °C in the case of soldering (Note: 800 °F, resp. 426 °C, by definition of the
American Welding Society).
At the brazing temperature the molten filler metal ?wets" the surfaces of the joint and is distributed by capillary action. During "wetting" the filler and parent metals will come into tight contact (about 0,4 nm) and the inter-atomic attraction will bind them together in permanent metallic bond (brazing / soldering). Due to rapid diffusion kinetics at the high brazing temperatures the metallic bond is also characterised by an interchange of atoms between filler and parent metals.
Diffusion, preferably along the grain boundaries, will result in a solid solution or
precipitation of intermetallic phases which are not desirable if the mechanical strength is not to be impaired. However, due to diffusion during brazing especially designed alloys ("long-life-alloys") for heat exchanger applications, will develop a surface layer with different electrochemical potential, thereby providing better corrosion properties by cathodic protection.
The oxide surface of aluminium, although very thin, prevents the tight contact of the
metals. During brazing, therefore, the oxide has to be removed and, at the same time, the bare surface has to be protected against oxidation. It has to be remembered that oxide will immediately be formed on aluminium upon exposure to air and that the oxide melting point is very high (2038 °C). Aluminium oxide is neither molten nor reduced at the melting temperatures of the aluminium alloy itself.
Generally, brazing of the various aluminium alloys is restricted by the available filler
alloys which are based on the binary system Al - Si.
Alloys of type 2XXX and 7XXX are, therefore, not brazeable as their solidus/liquidus
temperature are too low for the filler metals.
Alloys with higher magnesium content (> 1 - 2 %) are difficult to braze due to increased oxide layer formation which cannot effectively be removed by fluxes. Alloys with higher Mg content (5XXX series) can be brazed by vacuum techniques.
Modern techniques of brazing aluminium have been established as an important mass
production method over the past decades. Some of brazing's advantages are
summarised below:
? joining of components of very small thicknesses
? joining of aluminium alloys to dissimilar metals
? if welding temperatures required which are not permissible
? if small distortion of components is required
? if large scale joint areas
? compact components containing many junctions per unit of area
? less personnel training required
? meniscus surface formed by the filler metal is ideally shaped for good
fatigue properties
? finishing costs are low.
 
Vacuum and Controlled Atmosphere Brazing
Many of those techniques which have been developed to reduce or eliminate flux in
brazing of aluminium are protected by patents. In one patented approach the furnace
atmosphere is replaced by a non-oxidising gas in order to limit or remove oxygen from the surface. Optimum quality joints can be obtained with a minimum of flux. Another approach is the use of vacuum. Generally, vacuum brazing does not need any flux.
Controlled atmosphere means a dry, inert gas atmosphere. The dew point has to be kept below - 60 °C. Gases used are argon, helium, nitrogen or carbon dioxide. Parts to be brazed in controlled atmosphere have to be prepared as usual.
Vacuum brazing is attractive as it produces higher quality joints than any other known
brazing technique, the process is non-polluting, the as-brazed-surface is free of any
contaminants that are considered corrosive to aluminium and the processing costs are
commercially attractive (no flux, post-cleaning). The preparation of the assemblies to be brazed are generally the same as discussed before. However, more emphasis has to be put on surface control and pre-cleaning (e.g. aqueous type chemical cleaning of clad vacuum brazing sheet must be avoided). In principle, the process works as follows: the thin oxide layer cracks during heating as the coefficient of thermal expansion of aluminium is three times greater than the coefficient of the oxide. Due to a vacuum of between 10-4 and 10-6 Torr the nascent aluminium surface will not oxidise again. The process is supported by magnesium containing filler metals, since magnesium vaporizes and reacts with traces of oxygen ("getter effect").
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