Your Best Source for Aluminum Blanks

We are China metal distribution and processing center in providing high quality aluminum circles, sheets, coils, foils and aluminum blanks.

Our main products include aluminum coil/discs, aluminum sheet, aluminum circle, aluminum plate, aluminum strip, aluminum slug, aluminum foil etc.

E-mail: [email protected]

About Us

We are a large modern aluminum processing enterprise that integrates processing, manufacturing, and scientific research of aluminum coil/discs, aluminum sheet, aluminum circle, aluminum plate, aluminum strip, aluminum slug, aluminum foil etc. It primarily engaged in the producing and selling.

Our high-quality aluminum serves the following industries:

  • Theater and industrial lighting equipment
  • Professional cookware
  • Industrial ventilation
  • Wheel rims
  • Freight vans and tank trailers
  • Fuel tanks
  • Pressure vessels
  • Pontoon boats
  • Cryogenic containers

Call us today at [email protected]

Products

An aluminum alloy is a chemical composition where other elements are added to pure aluminum in order to enhance its properties, primarily to increase its strength. These other elements include iron, silicon, copper, magnesium, manganese and zinc at levels that combined may make up as much as 15 percent of the alloy by
6/2/2021  An aluminum alloy is a composition consisting mainly of aluminum to which other elements have been added. The alloy is made by mixing together the elements when aluminum is molten (liquid), which cools to form a homogeneous solid solution. The other elements may make up as much as 15 percent of the alloy by
Aluminum alloys are second only to steels in use as structural metals. Aluminum has a density of only 2.7 g/cm3, approximay one-third as much as steel (7.83 g/cm3). One cubic foot of steel weighs about 490 lb; a cubic foot of aluminum, only about 170 lb. Such light weight, coupled with the high strength of some aluminum alloys (exceeding that of
Aluminum and its alloys are popular metals because of their low weight, good corrosion resistance, and weldability. Although they typically possess low strength, certain alloys can have mechanical properties similar to steels. Aluminum alloys can be joined by a wide range of
Aluminium Committee. LME Aluminium Alloy can be traded on LMEselect from 01.00 - 19.00 London time, 24 hours a day on the inter-office e market and during the below times on the Ring: Ring trading time - First session (UK) 1st Ring. 11:45 -
Aluminium alloy 6061 – complete analogue national AD33 alloy according to GOST 4784-97 – belongs to the 6xxx series of aluminum alloys (Al-Mg-Si). The main alloying elements are: magnesium (0.8-1.2 %) and silicon (0.40-0.6
aluminium alloy It has good electrical and thermal conductivities and high reflectivity to both heat and light. It can easily be worked into any form and readily accepts a wide variety of surface
Aluminum Alloys. Aluminum alloys, the most widely used lightweight alloy, have also entered into many industrial fields for its SPF applications. At present, the commonly used aluminum alloys for SPF are mainly aluminum lithium alloy, 7475 aluminum alloy, 2024 aluminum alloy and 5083 aluminum
Alloy Designations. Aluminium is most commonly alloyed with copper, zinc, magnesium, silicon, manganese and lithium. Small additions of chromium, titanium, zirconium, lead, bismuth and nickel are also made and iron is invariably present in small
the ability of aluminum alloys to heat up more slowly than steels in the early stages of a fire, allowing more time for occupants to escape the fire. While emissivity varies greatly depending on surface quality and cleanliness, steel members may heat up approximay four times faster than comparable aluminum alloy members in a
Some main alloys used in automotive industry Aluminium alloy AA6016A, with excess silicon content originally launched by Alusuisse at the turn of millennium is mainly used in Europe for external panels in vehicles. Most of the major aluminium sheet suppliers such as Novelis, Aleris, Conslium, Hydro and Amag produce the
Aluminum alloys are widely used in engineering structures and components where lightweight or corrosion resistance is required. The strength and durability of aluminum alloys vary widely, not only as a result of the components of the specific alloy, but also as a
Aluminum and its alloys are popular metals because of their low weight, good corrosion resistance, and weldability. Although they typically possess low strength, certain alloys can have mechanical properties similar to steels. Aluminum alloys can be joined by a wide range of
3/4/2011  Aluminum is a chemical element while an alloy is a mixture of several chemical elements. Hence, the key difference between alloy and aluminum is that an alloy is a substance formed from mixing two or more different chemical elements whereas aluminum is a chemical element that we can find on earth’s crust as a
3105 aluminum alloy has good corrosion resistance, good plasticity and processability, and the performance of gas welding and arc welding is good. 3105 aluminum has slightly higher strength than 3003 aluminum, others properties are similar to 3003 aluminum alloy. 3105 aluminium has good anti-rust property, good conductivity, electrical conductivity can be up to 41%, 3105 aluminum sheet has high
aluminium alloy It has good electrical and thermal conductivities and high reflectivity to both heat and light. It can easily be worked into any form and readily accepts a wide variety of surface
Aluminium alloy wheels manufacturing process have developed a lot since 1970s. Due to sophisticated wheels design, casting has become the dominant manufacturing process. Alloy wheel material has evolved too: car wheels alloys now contain 7 to 12% silicon content, and varying contents of magnesium in addition to aluminium, in order to meet the demand for metal-mould casting properties
Aluminium alloys are based on aluminium, in which the main alloying elements are Cu, Mn, Si, Mg, Mg+Si, Zn. Aluminium alloy compositions are registered with The Aluminum Association. The aluminium alloys are divided into 9 families (Al1xxx to
Aluminum Alloy Plate 5083. With excellent corrosion resistance and weldability, together with high strength, this alloy was designed for welded structures requiring maximum joint strength and efficiency. It has high resistance to both sea water and industrial chemical environments due to mainly aluminium and relatively high magnesium
Alloy Designations. Aluminium is most commonly alloyed with copper, zinc, magnesium, silicon, manganese and lithium. Small additions of chromium, titanium, zirconium, lead, bismuth and nickel are also made and iron is invariably present in small
6061 (Unified Numbering System (UNS) designation A96061) is a precipitation-hardened aluminium alloy, containing magnesium and silicon as its major alloying elements. Originally called \"Alloy 61S\", it was developed in
Aluminum alloys are formed by combining aluminum with other metals, mainly manganese, magnesium, copper, silicon, nickel, zinc and beryllium. In most cases, Al99.5 (EN AW-1050A) is used as the base material. In this way, the strength values can be significantly increased, and other properties can also be positively
It is the most pure form of aluminium and the most common plate alloy. The alloy has a good property regarding bending and welding, and it is suitable for surface treatment. It contains 99.5 % aluminium, and they mainly produce it in thickness from 0.5 mm - 6
the ability of aluminum alloys to heat up more slowly than steels in the early stages of a fire, allowing more time for occupants to escape the fire. While emissivity varies greatly depending on surface quality and cleanliness, steel members may heat up approximay four times faster than comparable aluminum alloy members in a
Aluminum alloys are widely used in engineering structures and components where lightweight or corrosion resistance is required. The strength and durability of aluminum alloys vary widely, not only as a result of the components of the specific alloy, but also as a
Aluminium alloy wheels manufacturing process have developed a lot since 1970s. Due to sophisticated wheels design, casting has become the dominant manufacturing process. Alloy wheel material has evolved too: car wheels alloys now contain 7 to 12% silicon content, and varying contents of magnesium in addition to aluminium, in order to meet the demand for metal-mould casting properties
Now, material scientists have tweaked an iron-aluminum alloy at the nano-scale to make a material that\'s as strong and light as titanium, another expensive material, but just a tenth of the