This guide covers all the vital information about A413 aluminum alloys.
Whether you want to learn about the properties, benefits or chemical composition – you will find all information right here.
So keep reading to learn more.
What Are A413 Aluminum Alloys?
It is a special type of aluminum alloy that exhibits properties of excellent pressure tightness.
You can use A413 aluminum alloys to manufacture pressure cylinders as well as casting intricate components.
Cast A413 aluminum alloys
What Are The Benefits Of A413 Aluminum Alloys?
You should consider using A413 aluminum alloys in different applications due to the numerous advantages.
Basically, A413 aluminum alloys have special properties that give then an edge over other types of aluminum alloys.
Here are the benefits that you will enjoy with the use of A413 aluminum alloys.
Excellent Pressure Tightness
You will use A413 aluminum alloys in applications of very high pressure because it provides excellent pressure tightness.
It is the material that will make up the pressure and gas cylinders with no room or minimal room for pressure escape.
Excellent Strength
You will also consider using A413 aluminum alloys in applications that require high strength because of its excellent strength.
In other words, it is capable of withstanding great pressure without bending or breaking into different constituent parts.
Perfect Resistance To Corrosion
A413 aluminum alloys have perfect resistance to corrosion because it does not have iron as part of the alloy making metals.
In addition to that, A413 aluminum alloy is capable of oxidizing to form a hard coating thus preventing agents of corrosion.
Light In Weight
A413 aluminum alloys is also very light in weight in comparison to the ratio of high strength it exhibits.
You can use it to make different types of appliances that are very strong and also very light at the same time.
Which Properties Do You Look At To Identify A413 Aluminum Alloys?
There are specific properties of A413 aluminum alloys that you have to know about when choosing the best aluminum alloys.
These are the defining properties that make A413 aluminum alloy unique from other types of aluminum alloys.
Here are the main properties of A413 aluminum alloys you ought to know more about.
Mechanical Properties
You have to look at the attributes and behavior of A413 aluminum alloys whenever you apply force.
The main mechanical properties that you will look at in A413 aluminum alloys are hardness, strength and elongation.
The table below shows more details on the mechanical properties of the A413 aluminum alloy.
Alloy | Elongation | Tensile Strength | Yield Strength | Shear Strength | Hardness |
% in 50 mm | MPa | MPa | MPa | Brinell (HB) | |
A413 | 35 | 290 | 130 | 170 | 80 |
Physical Properties
Apart from the mechanical properties, you should also concentrate on the physical properties of A413 aluminum alloys.
Physical properties are the measurable properties of A413 aluminum alloys whose values describe state of physical systems.
In this case, you will look at properties such as density which stands at 2.66 grams per cubic centimeters.
How Does A413 Aluminum Alloys Compare to Aluminum Alloy 383?
You can choose from the numerous types of aluminum alloys in the market including aluminum alloy 413 and 383.
Since the alloys have different descriptions, you should also note that the alloys have different properties.
Here is a comparison between A413 aluminum alloys and A383 aluminum alloys.
A413 Aluminum Alloys
You will use A413 aluminum alloys in high pressure applications since it exhibits very high strength capabilities.
Apart from that, it also has great resistance to high pressure in comparison to A383 aluminum alloys.
In addition to that, A413 aluminum alloys will cost a lot more than the A383 aluminum alloys due to superior qualities.
You can use A413 to cast thicker walls thus increasing the overall weight of the cast materials.
On top of that, A413 aluminum alloys have greater resistance to corrosion in comparison to the A383 aluminum alloys.
A383 Aluminum Alloys
This is a special type of aluminum alloy with low levels of copper and high levels of silicon.
It is different from A413 aluminum alloys because it has better resistance to hot cracking and less resistance to corrosion.
In addition to that, A383 aluminum alloys are less expensive in comparison to A413 aluminum alloys.
You can use A383 aluminum alloys to manufacture or cast materials with thinner than usual walls.
What Are The Limitations of Using Aluminum Alloy 413?
As you will be choosing the A413 aluminum alloys, you should look at the benefits as well as the limitations.
Despite having numerous benefits, you will also encounter a few setbacks with the A413 aluminum alloys.
Here are some of the limitations of using the A413 aluminum alloys.
A413 aluminum alloy casting
High Cost
In comparison to other types of aluminum alloys such as A383, you will have to pay more for A413 aluminum alloys.
Despite being so expensive, it will offer you the best of services in different applications in comparison to other alloys.
High Impurity Levels
You should also understand that A413 aluminum alloys can have very high impurity levels before noticing serious effects.
In other words, the level of purity is not as high as other aluminum alloys and may cause serios effects.
Which Types Of Metal Make Up The A413 Aluminum Alloy?
When making or testing A413 aluminum alloys, you have to look at the composition of different metals making A413 aluminum alloys.
The table below shows different types of metals that make up the A413 aluminum alloys.
Metals Making Up A413 Aluminum Alloys | % Composition of A413 Aluminum Alloys |
Aluminum | Balanced |
Copper | 1.0 |
Magnesium | 0.1 |
Tin | 0.15 |
Nickel | 0.5 |
Manganese | 0.35 |
Silicon | 11.0 – 13.0 |
Other Metals | 0.25 |
What Is The Best Manufacturing Method For A413 Aluminum Alloy Cast Parts?
The best manufacturing method that you will use to make A413 aluminum alloys is the die casting method.
Die casting is the manufacturing method of injecting different molten metals under pressure into hard steel dies or mold.
Here are the steps involved in the manufacturing process of A413 aluminum alloys.
Mixing The Metal Alloy
First, you will begin the whole process by gathering all the metal alloy that you need to make the A413 aluminum alloy.
You should note that the different metal compositions vary in terms of percentage.
In other words, you should know the various percentage compositions of the metals.
After that, you will heat and melt the different types of metals to make a complete mixture of the alloy.
You will come up with a billet which you can cast under pressure to make different A413 aluminum alloy shapes.
Die Casting
You will pour the molten or semi-solid billet comprised of all the metal components making up A413 aluminum alloys.
After pouring it into the hard stainless-steel die casting mold that will help in shaping up the A413 aluminum alloy.
Die casting mold
You will apply enough pressure on the billet to force it to emerge from the other end of the mold.
As it comes out on the other end, it assumes the shape of the die thus making a cast or shaped A413 aluminum alloy.
You will complete the process by cooling the A413 aluminum alloy cast.
Which Thermal Properties make Up A413 Aluminum Alloys?
One of the most important properties of A413 aluminum alloys is its behavior under heat or high temperatures.
There are quite a number of thermal properties that you should look at under A413 aluminum alloys.
Here are the main thermal properties to consider under A413 aluminum alloys.
- Latent Heat of Fusion
- Mechanical Maximum Temperature
- Melting Completion (Liquidus)
- Melting Onset (Solidus)
- Specific Heat Capacity
- Thermal Conductivity
- Thermal Expansion
How Do Tempers of A413 Aluminum Alloy Work?
You will name aluminum tempers using one letter and other numeric digits.
In case you are using fabricated or annealed aluminum, you will not use digits to name the alum9inum tempers.
You will also append the temper designation to the aluminum alloy designation using a hyphen such as 3003-H24.
Aluminum tempers with the letter H are special types of aluminum that are not heat treatable.
On the flip side, aluminum tempers with the letter T imply that the alloy is heat treatable.
The first digit after H or T will signify the general operation sequence while the second digit indicates tensile strength.
How Does A413 Aluminum Alloys Compare To Other Types Of Aluminum Alloys?
When comparing A413 aluminum alloys to other aluminum alloys, you have to look at differences and similarities.
You will note that most aluminum alloys are light in weight, corrosion resistant, and easy to cast like A413 aluminum alloys.
Apart from that, these aluminum alloys have great mechanical properties as well as dimensional stability.
Despite having such similarities, you will also see a few differences between A413 aluminum alloys and other aluminum alloys.
Here are some of the factors that distinguish A413 aluminum alloys from other aluminum alloys.
A360 Aluminum Alloys
This type of aluminum alloy has the best resistance to corrosion in comparison to A413 aluminum alloys.
Despite that, you should prepare to spend a lot more when using the A360 aluminum alloy over A413 aluminum alloys.
A380 Aluminum Alloys
You should consider A380 aluminum alloys over A413 aluminum alloys because it offers best combination between cost and utility.
A383 and A384 Aluminum Alloys
As a modification of aluminum alloy 380, you can opt for aluminum alloy 383 or aluminum alloy 384.
In comparison to A413 aluminum alloy, A383 and A384 aluminum alloys have lower mechanical properties such as toughness.
In addition to that, you should note that A383 and A384 aluminum have better die filling properties.
A390 Aluminum Alloys
You will select A390 aluminum alloys over A413 aluminum alloys due to the high strength and fluidity.
On top of that, A390 aluminum alloys also have better bearing or wear resistance properties than A413 aluminum alloys.
How Much Does The A413 Aluminum Alloy Cost?
Well, the cost you will pay for A413 aluminum alloys will vary depending on a number of different factors.
Depending on the shape of the cast and order quantity among others, you will pay between 0.3 to 50 dollars per piece.
Implying that, shape of the A413 aluminum alloy cast will vary thus attracting different costs.
The more complicated the shape of the A413 aluminum cast will be, the greater the manufacturing complications.
Apart from that, you will also note that an increase in quantity of A413 aluminum alloys, increases the overall cost.
What Are The Processing Properties Of A413 Aluminum Alloy?
You can process A413 aluminum alloys by adhering to the right alloy processing properties.
Processing properties are the characteristics of aluminum alloys that allow or guide you through the manufacturing process.
Here are the main properties of A413 aluminum alloy you need to know about.
Die casting process
Melt Temperature
You should consider the temperature at which A413 aluminum alloy will change from solid state to liquid state.
In this case, you have to know the melting temperature of A413 aluminum alloys which ranges between 649 and 760 degrees centigrade.
Casting Temperature
You must also know the right temperature where A413 aluminum alloys begins to react during the casting process.
The casting temperature of A413 aluminum alloy ranges between 635 and 704 degrees centigrade.
Are A413 Aluminum Alloys Capable of Conducting Electric Current?
Yes, A413 aluminum alloys are capable of conducting electric current.
Implying that, you can use A413 aluminum alloys to make materials for conduction of electric current.
To determine the electrical properties of A413 aluminum alloys, you should look at the electrical resistivity.
A413 aluminum alloys have electrical resistivity of 0.00000440 ohm-cm.
What Are The Primary Elements That Make Up A413 Aluminum Alloys?
There are different types of elements that you will find in A413 aluminum alloys.
Among the numerous elements, there are basic or primary elements that make up a huge chunk of it.
Here are the three main or primary elements that you would find in A413 aluminum alloys.
Aluminum (Al)
Aluminum is one of the primary elements that has a balanced minimum quantity and undefined maximum quantity.
Silicon (Si)
You must also have silicon which has a minimum of 11 and a maximum of 13 within the A413 aluminum alloys.
Magnesium (Mg)
Magnesium is also a very important element making up A413 aluminum alloys with no bare minimum but 0.1 maximum.
How Do You Test A413 Aluminum Alloys?
The best way of proving that you have true A413 aluminum alloys is by performing a variety of tests on it.
Typically, any aluminum ally has different metals making up different types of aluminum alloys.
Among the numerous types of aluminum alloys is A413 aluminum alloys which has different properties.
You should test all the constituent parts that make up the A413 aluminum alloy to determine the true nature of the alloy.
When testing the A413 aluminum alloys, you have to the right testing standards such as ASTM standard test methods.
You will use the ASTM test method to test the constituent parts that make up the A413 aluminum alloys.
Apart from that, there are machines that you can use to test A413 aluminum alloys such as aluminum weight-testing machine.
What Are The Uses And Applications Of A413 Aluminum Alloys?
Despite having very light weight, A413 aluminum alloys are also very strong and resistant too corrosion.
These properties, among other properties make A413 aluminum alloys suitable for a number of different applications.
Here are some of the applications where A413 aluminum alloys come in handy.
Aerospace Industry
You can the A413 aluminum alloys in the aerospace industry to make light, strong, and corrosion resistant aerospace materials.
Marine Industry
A413 aluminum alloy is also very important type of metal alloy that you can use to manufacture marine industry products.
Cycling Industry
You will note that A413 aluminum alloys are constituent parts of most of the bicycles, and motorcycles in the industry.
Automotive Industry
In addition to that, you will also have A413 aluminum alloy as part of the alloy metals in different automobiles.
Gas and Air Cylinder Industry
You can also use A413 aluminum alloys to make gas cylinders and air cylinders because of their tensile strength and corrosion resistance.
Which Quality Certifications Must A413 Aluminum Alloy Manufacturers Adhere To?
As a manufacturer handling A413 aluminum alloys, you have to ensure that the products you produce are of high quality.
You can ensure that A413 aluminum alloys that you produce are of the highest quality by adhering to international quality certifications.
Here are the main quality certifications that you must adhere to get the best quality A413 aluminum alloys.
- API Quality Certifications such as API Spec 5CT
- LLC Quality Certifications
- IEC Quality Certifications
- ASTM Quality Certifications
- ANSI Quality Certifications
Are A413 Aluminum Alloys Corrosion Resistant?
Yes, A413 Aluminum alloys are corrosion resistant.
Implying that, A413 aluminum alloys have special properties which protects them from rusting.
One of the reasons why A413 aluminum alloy does not rust is the absence of iron within the alloy making metals.
Apart from that, A413 aluminum alloys oxidize when exposed to water to form a film of the aluminum alloy oxide.
The aluminum oxide that forms on the surface of the A413 aluminum alloy is hard enough to prevent formation of rust.
What Makes A413 Aluminum Alloys Very Expensive?
Despite being the most abundant metal within the earth’s crust, you will note that aluminum is still expensive.
You will use a lot of resources such as electricity to mine aluminum thus increasing the overall cost of the alloys.
A413 Aluminum alloy is a bauxite metal which melt at very high temperatures thus increasing the cost of melting.
Apart from that, A413 Aluminum alloys have great properties such as corrosion resistance and good electric conductivity.
What Makes A413 Aluminum A Non Heat -Treatable Alloy?
A413 Aluminum alloys have silicon which you can add in sufficient quantities to lower melting point of aluminum alloys.
The presence of silicon which lowers the melting point of aluminum makes A413 aluminum alloy non heat-treatable.
It is also the same reason that allows you to perform non heat-treatment on A413 aluminum alloys without causing brittleness.
You can use the A413 aluminum alloys for brazing alloys and welding wires at lower melting points.
As a leading aluminum die casting company in China, we will help you choose the best grade of A413 aluminum alloys for all your applications – contact us now.