Aluminum sac Why?

Aluminum sac, using the rolling techniqueAluminumThe products obtained from The name of the sheets, which is one of the most important products of the metal sector, is different according to the thin and thick. In this context, thin sheets are called sheets, while thick sheets are called plates.Aluminum sacare as resistant as possible to atmospheric corrosion. With the help of these features, it is as simple as possible to take shape.

Aluminumelectricity and heat originating from the basic property of flourfactorsimilarly seen in sheets. It can be said that these sheets, which are very talented in terms of functionality, are also of high quality visually. For this reason, in decorative coatingsAluminum sacare used in different fields. Although it is the most suitable for welding, it is a product with low mechanical properties.

AluminumUsing the plates in the wrong areas causes wear of the machine parts.Aluminumto be exposed when buying sheet or plate.according to conditions İdeal Aluminumalloy must be determined.

Aluminum, excellent machinabilityIt is a light, silvery, rust-resistant metal with properties that are the most common (most well-known) element after oxygen and silicon.

AluminumIt is found in nature only as a compound. The basic substance for the production of this metal is bauxite (AluminumMove) which is formed as a result of weathering of limestone and silicate rocks by the effects of weather and has a high (often over 50%) A12O3 (Aluminum boxide) containing product.

PureAluminumIt is a low strength material. Significantly high strength qualities—relatively high tensile strength (regressibility) and flexibility limits—can be obtained by adding reasonable alloy components.Aluminumalloy materials are “naturally hard” and “thermalprocedurecan see" (heat-treatable) are classified as materials.

But first, whyAluminum” question should be addressed. Alternative products, notably a range of steels such as P-20, H13tool steeland stainless steel, plus copper, often with beryllium based (copper Based) alloys are used in part (tool) and mold programs. They provide high durability and resistance to wear, and thermal conductivity in the case of copper alloys. But no material has all the properties desired for a particular application; alternative materials are no exception to this situation. which are heavy, often less machinable (machine), and steel sampleas well asThey have poor thermal permeability.

Four times more thermalfactorialhas. This reduces the cooling cycle required in mold procedures and causes part warpage/distortion (distortion) minimizes local hotspots that causeAluminumadditionally lessdesignand allows easier cooling systems to be designed that require machining.

It is light.Aluminumhas a density of roughly one-third of steel. This facilitates the use of tools and dies; lower inertia (inertia) therefore enables the molds to be opened and closed more quickly. Also, the procedure with lighter weight tools results in less thrust wear, which reduces maintenance and downtime. These benefits are particularly relevant for large tools and dies.

It can be machined and polished more quickly.Aluminumthree to ten times faster than steel, depending on the nature of the alloymachinability(on the machine) may be possible. This shortens the time required to produce large molds with particularly deep cavities.

High electrical factorüshows. This, together with its lower melting point compared to steel, allows it to be used at a speed four to five times higher than steel.

Through these yardswith,aAluminumin mold programs according to the calculations of the manufacturerAluminumUsing mold production reduces costs by 30% compared to steel—up to 40% if part production cycle time is taken into account and therefore increased productivity.

One area where steel excels is in surface hardness. In some programs—ordinary (conventional) such as those that enclose the plastic mold—“Base”AluminumThe surface has reasonable qualities. However, in situations requiring higher wear resistance, hardanodizingor as a result of surface programs such as nickel platingAluminumsurface hardness levels approach those of steel.

Because tool and mold materials have a range of different conditions in which they must operate, different types of equipment are available to meet these various needs.Aluminumalloy andmenev to the procedurecombinations were designedIr. Both cast and rolled products are available in a wide range of thicknesses, widths and lengths. Each product type has very specific characteristics designed according to the application needs.

Relative Density (Relative Density)​

to alloy componentsby2.7 ile 2.9 g/cm3varies between This is only 1/3 the weight of steel.

Rust Resistance

Aluminumforms a natural surface protective layer when in contact with air. When this layer is removed, it reappears and thus shows a visible resistance to atmospheric corrosion. pure and pure (very pure) Aluminum,and additionally copper-free alloys are resistant to a wide range of environments. ThisbelowThese full-fledged products are widely used in the construction and chemical industries, the food and beverage industry, and the automotive industry. However, it has a very high power rating—over 500 N/mm2—Aluminumbased materials have limited resistance. This should be compensated by structural design solutions.

ColdAnd Hot Formatting (Forming) Properties

AluminumIt offers relatively high distortion (deformation) resistance. However, given that reasonable method facilities are used,AluminumandAluminuma wide range of alloys (rolling, extrusion, forging, casting) good to very good cold or hot forming (forming) denotes properties.

Good Electrical And Heat Conductor

Aluminumhas a high electrical conductivity (pureAluminumfrom 38 to approximately 34 m/Ohmto mm2). Materials used for electrical conductorson easy basispureAluminumand E-AlMgSiare materials. Its thermal conductivity level is roughly four times higher than that of 80-230 W/mo K iron.

Magnetic properties

Aluminumnon-magnetic—an important property in electrical engineering, electronics, and mechanical engineering.

Surfacetreatment (Surface Treatment)

AluminumThere are a number of surface treatment possibilities available, giving more or less the perfect compatibility to many programs.

Anodisation

Decorative surfaces

Wide range of colors

Technical facility / factory (plant) and surfaces for vehicles

Wear-resistant (wear resistant)

Manypowder coating in color tones (powder coating)

Manywet-spray painting in tints

Polishing

mechanical and chemical

Grinding (grinding) and brushing (brushing), etc.

high reflectivity

Aluminumsurfaces are naturally good reflectors of light and heat. reflection and absorption (absorptionA number of surface treatments can be applied to change the ) properties to values ​​in a wide Range.

CombiningMethods

Almost all normal joining methodsAluminumand possible to use for its alloys.

No health risk

According to current medical knowledge,Aluminumno health risks

Recycling opportunity

As used in the industry, the term "recycling" is particularly important for crumbs/spills.scrap) and the use of used finished products as secondary raw materials in the production of new products. All in useAluminumroughly 1/3 of raw materials, reasonable recycling procedureswith,produced without any loss of quality.

Recycleprocedurefor (process), primary (primary) AluminumOnly 5% of the energy required for its production is required. When a choice has to be made between most possible materials,AluminumIt will be the most peaceful and economical choice with nature.

Mechanical Properties and Comparative Alloy Table

Aluminum Processing Alloys Comparison Chart

Chemical Properties