6063 T5 Powder Coating Profiles Aluminum Windows Aluminium
Construction Aluminum Profiles:
Building products made of aluminum and aluminum alloy materials. It
is usually processed into castings, forgings, foils, plates, belts,
tubes, rods, profiles, etc., and then made through cold bending,
sawing, drilling, assembly, coloring and other processes.
Performance pure aluminum has low strength and its application is
limited. However, aluminum alloys with different properties can be
obtained by adding a small amount of one or several alloy elements,
such as magnesium, silicon, manganese, copper, zinc, iron,
chromium, titanium, etc. After cold working and heat treatment,
aluminum alloy is further strengthened and hardened, and its
tensile strength is greatly improved.
The standard potential of aluminum is -1.67v. Its chemical
properties are very active. It is easy to react with oxygen in the
air to form a firm and dense oxide film. Therefore, aluminum has
good corrosion resistance in ordinary atmosphere and clean water.
However, electrochemical corrosion will occur in contact with steel
or other metal materials, corrosion will occur in contact with
alkaline materials such as concrete, cement mortar and lime in
humid environment, and corrosion will also occur in contact with
wood and soil. Therefore, proper anti-corrosion treatment is
Production methods according to different production methods,
aluminum alloy can be divided into cast aluminum alloy and deformed
aluminum alloy. Deformed aluminum alloy is generally used in
buildings to roll into plates, foils and strips, and extrude into
rods, tubes or profiles of various complex shapes. Wrought aluminum
alloys can be divided into antirust aluminum alloy, hard aluminum,
super hard aluminum and special aluminum according to their
properties and uses. Industrial pure aluminum (L1 ~ L1), antirust
aluminum alloy (LF2, LF21, etc.) and forged aluminum (LD2) are
generally used in buildings.
Features and uses the biggest feature of aluminum and aluminum
alloys is that their bulk density is about 1 / 3 of that of steel,
while the specific strength (the ratio of strength limit to
specific gravity) can reach or exceed that of structural steel.
Secondly, aluminum and aluminum alloy are easy to be processed into
various shapes and can adapt to various connection processes, so as
to provide favorable conditions for the building structure to adopt
the most economical and reasonable section form. Therefore, the use
of aluminum alloy can not only greatly reduce the weight of
buildings and save materials, but also reduce the workload of
component transportation and installation and speed up the
construction progress. This has a more significant economic effect
on earthquake areas and mountainous and remote areas with
inconvenient transportation. Aluminum and aluminum alloys have
beautiful color, good corrosion resistance, high reflectivity to
light and heat and good sound absorption performance. Various
colors can be obtained by chemical and electrochemical methods.
Therefore, aluminum materials are widely used in roofs, walls,
doors and windows, frames, internal and external decorative plates,
ceilings, suspended ceilings, handrails, indoor furniture, store
containers and construction templates of industrial and civil
The construction industry is one of the three major markets for
aluminum materials. About 20% of the total aluminum output in the
world is used in the construction industry. In the construction
industry of some industrial developed countries, the aluminum
consumption has accounted for more than 30% of the total output.
The products of building aluminum materials are constantly updated,
and the application of new building products such as color aluminum
plate, composite aluminum plate, composite door and window frame
and aluminum alloy formwork is also increasing year by year. China
has applied aluminum alloy to make roofs, walls, doors and windows
in industrial and civil buildings, and gradually expanded to
internal and external decoration and construction formwork, which
has achieved good results.
|Description||6063 T5 Powder Coating Profiles Aluminum Windows Aluminium
|Material Thickness(t)||0.8-2.0 mm|
|Materiral||aluminum alloy 6063|
|Color||Wood, Silver White ,Bronze , Champagne, Black, (RAL series)etc.|
|Surface Treatment||anodized, powder coated, electrophoresis, wood grain, polished and
|Shape||Square, Round, Flat, Oval, and according to customer's drawing.|
|Length||Normal length=6m or in customer's order|
|Usage||Building, Production Line, Decoration, Industrial, Transportation,
Door and window, etc.|
|Package||1. Pearl cotton foam for each profile;|
2. Wrap with shrink film exterior;
3. Packed according to customer request.
|Advantages/Features||Providing colorful products with various mechanical|
performances to adapt all kinds of architectural styles
Anode effect is a special phenomenon in molten salt electrolysis,
especially in electrolytic aluminum production. In production, when
the anode effect occurs, the voltage of the electrolytic cell rises
sharply, reaching 20 ~ 50V, sometimes even higher. Its occurrence
has a great impact on the whole electrolysis series, reduces the
current efficiency, affects various technical indexes of
electrolysis, reduces the output and quality of aluminum, and
destroys the stable power supply of the whole electrolysis series.
In terms of treatment methods, there are no more than two kinds:
extinguish with effect rod (wood rod), or reduce the anode and
increase the blanking amount of alumina, so as to extinguish the
anode effect. No better treatment has been found.
The anode effect occurs because the oxygen-containing ions in the
electrolyte gradually decrease with the progress of the
electrolysis process. When it reaches a certain degree, fluorine
precipitates and reacts with the anode carbon to form carbon
fluoride. When the carbon fluoride decomposes, fine carbon
particles are precipitated. These carbon particles are attached to
the anode surface to prevent the contact between the electrolyte
and the anode, The electrolyte can't wet the anode well, just as
water can't wet the oiled surface, so a layer of gas film with poor
conductivity is formed between the electrolyte and anode, and the
anode overvoltage increases, causing the anode effect. When new
alumina is added, oxygen is precipitated on the anode, which reacts
with carbon powder to gradually calm the anode surface, reduce the
resistance, and the electrolysis process tends to be normal.
Q – What is the average lead time for pre production samples?
A – Our average lead time is normally 7 days for making new samples
and 7 days for testing , totally need about 14days.
Q – What is the average lead time for mass production?
A – Our average lead time is delivery within 20-30 days after
receive deposit and and moulds/samples are passed.
Q – What is CAD?
A – CAD stands for “computer assisted design” and it is a 3-D
program that is used by our clients to provide our technicians with
a three-dimensional example of the custom shape that they want made
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