Aluminum Ingot 99.97% 2015 Hot Sale Items

Aluminum Ingot 99.97% 2015 Hot Sale Items System 1

Aluminum Ingot 99.97% 2015 Hot Sale Items

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Loading Port:: China main port

Payment Terms:: TT OR LC

Min Order Qty:: 10000 m.t.

Supply Capability:: 100000 m.t./month

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1.Structure of Aluminum Ingot Description

A material that has been cast into a shape in order to be transported and processed easier than in an unprocessed form. An ingot is typically rectangular in shape, which allows it to be stacked. Ingots are most commonly associated with metals, with ingots of gold held in the vaults of banks and brokerages being popular images.

2.Main Features of the Aluminum Ingot

•High Purity

•High strength

•Fast melting

•Best price

•Good after-service

3. Aluminum Ingot Images

Aluminum Ingot 99.97% 2015 Hot Sale Items

4. Aluminum Ingot Specification

Item	Aluminum Ingot 99.7,Aluminum bar/aluminum rod,Aluminum billet,Aluminum bar,6063 aluminium bar, Aluminium products
Standard	GB/T3191-1998,ASTM B221M-05A,JIS H4040-2006,etc
Material	1A99,1A97,1A95,1A93,1A90,1A85,1A80,1A80A,1070,1070A,1370,A1060,1050,1050A,1A50, 1350,1145,1350,1A30,1160,1200,1235 2A01,2A02,2A04,2A06,2A10,2A11,2B11,2A12,2A13,2A14,2A16,2B16,2A17,2A20,2A21,2A25, 2A49,2A50,2A70,2A80 3A21,3003,3103,3004,3005,3105 4A03,4A11,4A13,4A17,4004,4032,4043,4043A,4047,4047A 5454,5154A,5754, 5056,5356,5456,5082,5182,5086 6A02,6B02,6A51,6101A,6005,6005A,6351,6060,6061,6063,6063A,6070,6181,6082 7A01,7A03,7A04,7A05,7A09,7A10,7A15,7A19,7A31,7A33,7A52,7003,7005,7020,7022,7050, 7075,7475
Size	Diameter	1/2''-100''
	Length	1-12m,or as required.
Surface	Bright,polished,hair line,brush,embossed,etching,color coated,painted,etc
Delivery time	1.The products in stock will delivery immediately received the payment. 2.According to the order quantity,prompt delivery.
Export to	Ireland,Singapore,Indonesia,Ukraine,Spain,Canada,USA,Brazil,Thailand,Korea,Iran,India,Egypt, Kuwait,Oman,Viet Nam,South Africa,Dubai,Russia, England,Holland,etc
Package	Standard export package,such as wooden box or as required.
Application	Widely used in all walks of life,such as cars,ships,aerospace,aviation,electronics,agriculture, mechanical and electrical,home.
Container size	20ft GP:5898mm(Length)x2352mm(Width)x2393mm(High) 24-26CBM 40ft GP:12032mm(Length)x2352mm(Width)x2393mm(High) 54CBM 40ft HC:12032mm(Length)x2352mm(Width)x2698mm(High) 68CBM

5.FAQ of Aluminum Ingot

We have organized several common questions for our clients，may help you sincerely：

①How about your company？

A world class manufacturer & supplier of castings forging in carbon steel and alloy steel，is one of the large-scale professional investment casting production bases in China,consisting of both casting foundry forging and machining factory. Annually more than 8000 tons Precision casting and forging parts are exported to markets in Europe,America and Japan. OEM casting and forging service available according to customer’s requirements.

②How to guarantee the quality of the products？

We have established the international advanced quality management system，every link from raw material to final product we have strict quality test；We resolutely put an end to unqualified products flowing into the market. At the same time, we will provide necessary follow-up service assurance.

③How long can we receive the product after purchase?

In the purchase of product within three working days, We will arrange the factory delivery as soon as possible. The pecific time of receiving is related to the state and position of customers.Commonly 7 to 10 working days can be served.

Q: How are aluminum ingots used in the production of modular buildings?: Due to their unique characteristics and properties, aluminum ingots play a vital role in the production of modular buildings. These ingots are melted and then converted into different components, including beams, columns, panels, and other structural elements, which are used to construct the modular units. One advantage of aluminum is its lightweight nature, making it an ideal choice for modular construction. Aluminum ingots are significantly lighter than steel but still offer excellent strength-to-weight ratio, ensuring the durability and stability of the modular building. Furthermore, this lightweight characteristic allows for easier transportation and assembly of the modules, resulting in reduced construction time and costs. Additionally, aluminum provides exceptional corrosion resistance, which is particularly advantageous for modular buildings that may be exposed to harsh weather conditions or coastal environments. This resistance to corrosion guarantees that the building will maintain its structural integrity and appearance for a longer period, reducing the need for maintenance and repair. Moreover, aluminum ingots are highly versatile and can be easily molded and shaped into various forms and sizes. This flexibility enables architects and designers to create innovative and customized modular building designs that meet different functional and aesthetic requirements. Furthermore, aluminum can be easily recycled, making it a sustainable choice for modular construction projects that align with the growing demand for environmentally friendly and energy-efficient buildings. To summarize, aluminum ingots are used in the production of modular buildings due to their lightweight, corrosion-resistant, versatile, and sustainable properties. These ingots are transformed into various components that provide strength, durability, and flexibility to the modular units, facilitating faster construction, reducing costs, and ensuring long-term performance.

Q: What are the different machining techniques for aluminum ingots?: Aluminum ingots can be machined using various techniques to achieve different results. Some commonly used techniques include: 1. Turning: To create desired shapes or sizes, a cutting tool is employed to remove material from the surface of the aluminum ingot. This technique is commonly applied to produce cylindrical parts like rods or shafts. 2. Milling: By using a rotating cutting tool, material is removed from the surface of the aluminum ingot to create different shapes and features such as slots, pockets, and complex contours. 3. Drilling: This technique involves the creation of holes in the aluminum ingot using a rotating cutting tool. Holes of various sizes and depths can be achieved through this method. 4. Grinding: An abrasive wheel is utilized in this machining process to eliminate material from the surface of the aluminum ingot. Grinding is commonly employed to attain a smooth and precise surface finish. 5. Boring: To enlarge an existing hole in the aluminum ingot, a single-point cutting tool is used in this machining process. Boring is often used to create holes with larger diameters. 6. Sawing: The aluminum ingot is cut into desired lengths or shapes using a saw blade in this machining technique. Sawing is frequently utilized to divide aluminum ingots into smaller pieces for further processing. 7. Lathing: In this machining technique, the aluminum ingot is rotated while a cutting tool is employed to remove material from its surface. Lathing is commonly used to create symmetrical parts like cones or spheres. These are merely a few examples of the numerous machining techniques available for working with aluminum ingots. The choice of technique depends on the desired shape, size, and surface finish of the final product.

Q: How is aluminum ingot different from aluminum billet?: Aluminum ingots and aluminum billets are two variations of aluminum metal that vary in terms of their form, dimensions, and manufacturing techniques. Typically, aluminum ingots are produced through a primary aluminum production method known as smelting. These ingots are solid blocks or slabs of aluminum with a standardized shape and size, resembling a large rectangle. The production process involves pouring molten aluminum into a mold and allowing it to cool and solidify. Aluminum ingots serve as essential raw materials for subsequent processing, including rolling, extrusion, or forging, enabling the creation of diverse aluminum products. On the other hand, aluminum billets are semi-finished goods that are often derived from aluminum ingots. The creation of billets involves heating and continuously casting molten aluminum into a cylindrical form, which is then cooled and solidified. Unlike ingots, billets possess a smaller cross-sectional area and a longer length. They are primarily employed as starting materials for extrusion processes. In these processes, billets are heated and pushed through a die, enabling the production of intricate shapes such as rods, bars, profiles, or tubes. In conclusion, despite being composed of the same material, aluminum ingots and aluminum billets differ in their form, dimensions, and purpose. Ingots serve as large rectangular blocks, utilized as raw materials for further processing, while billets are smaller cylindrical shapes employed as the initial materials for extrusion processes.

Q: What is the lifespan of aluminum ingots?: The lifespan of aluminum ingots can vary depending on various factors such as storage conditions, handling practices, and environmental factors. However, aluminum ingots are known for their durability and ability to withstand corrosion, making them suitable for long-term use. If properly stored and protected from moisture and other corrosive elements, aluminum ingots can have a lifespan of several decades. They can retain their structural integrity and physical properties for an extended period, making them valuable in various industries. Furthermore, aluminum ingots can be recycled and reused, further extending their lifespan. The recycling process allows for the conversion of used aluminum products back into ingots, which can then be utilized in the production of new products. Overall, the lifespan of aluminum ingots is relatively long, and with proper care and maintenance, they can serve their intended purpose for many years.

Q: Process description of aluminium ingot: The casting process of aluminum ingot is molten aluminum liquid into the mold. When the billet is cooled and cast out, the injection process is the key step of the product. The casting process is the physical process of liquid aluminum being crystallized into solid aluminum. The technological process of casting aluminium ingots is as follows:Aluminum - slag - weighing batching furnace - refining - casting - Remelting aluminum ingot - finished product inspection, weighing and warehousingAluminum - slag - weighing batching furnace - scouring - casting alloy ingot casting alloy ingot - - - - - storage of finished product inspection work

Q: How are aluminum ingots used in the production of electrical conductors?: The production of electrical conductors heavily relies on aluminum ingots, which undergo a crucial transformation process. Initially, these ingots are melted and cast into different shapes, including wires, rods, or strips, depending on their intended use. The outstanding electrical conductivity of aluminum is one of the main factors contributing to its widespread use in electrical conductors. With approximately 61% of the electrical conductivity of copper, aluminum serves as a viable alternative in electrical applications. Moreover, its lightweight nature compared to copper offers advantages in terms of transportation and installation costs. To manufacture electrical conductors, the typical procedure involves various steps for processing aluminum ingots. Initially, the ingots are heated and extruded to form elongated aluminum rods or wires. These rods or wires are then drawn through a series of dies to decrease their diameter and increase their length. This wire drawing process refines the microstructure of aluminum, ultimately enhancing its electrical conductivity. Subsequently, the aluminum rods or wires undergo annealing to relieve any stress and enhance their mechanical properties. Following this, a thin layer of insulation, such as a polymer or enamel coating, may be applied to the aluminum conductors. This protective coating safeguards against electrical short circuits and corrosion. Once the aluminum conductors are prepared, they find application in a wide range of electrical uses. Commonly utilized in power transmission and distribution systems, aluminum conductors are frequently employed in overhead lines. Additionally, they are utilized in electrical cables, including building wiring and automotive wiring harnesses. To summarize, aluminum ingots are a vital component in the production of electrical conductors. Through processes like extrusion, wire drawing, and insulation application, aluminum ingots undergo a transformation into dependable and highly conductive components utilized in diverse electrical applications.

Q: How to calculate the price with or without ticket in the aluminum ingot trade? Does the invoice price increase with aluminum?: The difference between the price of the ticket and the price without the ticket is between the price of the ticket and the price of the ticket without the price of the ticket.

Q: How can I make aluminium ingots for cans?: Sales must not be a big problem, small and medium-sized aluminum factories will generally buy, but if you do not remove other components, and direct sell cans, there is no big difference in price

Q: How are aluminum ingots used in construction?: Aluminum ingots are widely used in the construction industry for various applications due to their excellent properties and versatility. One common use of aluminum ingots in construction is for the manufacturing of structural components such as beams, columns, and trusses. The lightweight nature of aluminum makes it an ideal choice for these applications as it reduces the overall weight of the structure, leading to cost savings in transportation and installation. Additionally, aluminum ingots are used in the production of cladding systems, which are used to cover the exterior of buildings. These cladding systems provide aesthetic appeal, weather protection, and insulation to the structure. Aluminum's corrosion resistance and durability make it a preferred material for cladding, as it can withstand harsh weather conditions and maintain its appearance over an extended period. Moreover, aluminum ingots are employed in the fabrication of windows, doors, and curtain walls in construction projects. Aluminum frames offer strength and stability while providing a sleek and modern aesthetic. The material's corrosion resistance also ensures that these components remain durable and low-maintenance for a long time. Furthermore, aluminum ingots find applications in roofing systems. Aluminum roofs offer excellent resistance to corrosion, as well as being lightweight and durable. They are also highly reflective, which helps to reduce heat absorption and energy consumption, making them a sustainable choice for buildings. In conclusion, aluminum ingots play a crucial role in the construction industry. Their lightweight nature, corrosion resistance, and durability make them an excellent choice for structural components, cladding systems, windows, doors, curtain walls, and roofing systems. The use of aluminum ingots in construction not only enhances the overall aesthetics of the building but also contributes to its longevity, energy efficiency, and sustainability.

Q: What are the advantages of using aluminum ingots in the production of automotive lightweighting solutions?: There are numerous benefits associated with the utilization of aluminum ingots in the manufacturing of lightweight automotive solutions. Firstly, aluminum is an incredibly lightweight material, making it ideal for reducing the overall weight of vehicles. Through the use of aluminum ingots, manufacturers are able to significantly decrease the weight of various automotive components, including body panels, engine parts, and structural elements. This reduction in weight results in enhanced fuel efficiency, as vehicles that are lighter require less energy to accelerate and maintain speed. Moreover, it provides improved handling and maneuverability, ultimately enhancing the overall driving experience. Secondly, aluminum possesses exceptional durability and a remarkable strength-to-weight ratio. Despite its lightweight nature, aluminum ingots offer sufficient strength and structural integrity to withstand the demands of everyday driving, ensuring the safety of passengers. Additionally, aluminum is corrosion-resistant, making it a suitable choice for automotive applications exposed to harsh weather conditions or road salt. Another advantage of employing aluminum ingots in automotive lightweighting is their versatility. Aluminum can be easily molded, shaped, and joined using various manufacturing techniques, enabling the production of intricate and complex designs. This versatility allows manufacturers to create innovative automotive components that meet specific performance requirements without compromising weight reduction objectives. Furthermore, aluminum is an environmentally friendly material due to its high recyclability. The recycling process for aluminum consumes minimal energy compared to primary production, resulting in fewer greenhouse gas emissions. This not only aids in reducing the carbon footprint of the automotive industry but also promotes a more sustainable manufacturing process. Lastly, aluminum ingots offer long-term cost advantages. While the initial production costs of aluminum components may be higher compared to traditional materials like steel, the overall lifecycle costs are often lower. The lightweight nature of aluminum reduces the strain on other vehicle systems, such as brakes and suspension, potentially leading to savings in maintenance and replacement expenses. Additionally, the recyclability of aluminum allows for the recovery and reuse of the material, minimizing the need for new raw material extraction. In conclusion, the utilization of aluminum ingots in the production of lightweight automotive solutions offers a range of benefits, including weight reduction, improved fuel efficiency, durability, versatility, environmental friendliness, and long-term cost savings. These advantages position aluminum as the preferred choice for manufacturers seeking to enhance the performance, efficiency, and sustainability of modern vehicles.

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