This guide covers all the vital aspects of aluminum alloy 383 such as casting properties, uses, features, benefits and limitations, just to mention a few.
So, if you want to learn more about aluminum alloy 383, read this guide.
What Is Aluminum Alloy 383?
It is a special type of aluminum alloy with proper casting performance as well as thermal and mechanical properties.
Apart from that, aluminum alloy 383 has low levels of copper and highest level of silicon at a pocket friendly price.
Aluminum alloy 383 Cast Part
What Advantage Does Aluminum Alloy 383 Have Over Other Metallic Alloys?
There are numerous reasons that should compel you to use aluminum alloy 383 over other metallic alloys.
Well, some of the reasons that ought to propel you to purchase aluminum alloy 383 over other metallic alloys are:
Improved Corrosion Resistance
In comparison to other metallic alloys, aluminum 383 has very hi9gh levels of corrosion resistance thus increasing the shelf life.
The levels of iron that contributes to corrosion is very low within the alloy low.
Aluminum alloy 383 also has great fluidity thus increasing the overall machinability in comparison to other metallic alloys.
In the molten state, aluminum alloy 383 is capable of flowing from one point to the next with a lot of ease.
High Strength Levels
You can depend on the high strength levels of aluminum alloy 383 even at very high temperatures.
In addition to that, you can use it in applications that require a lot of strength to support heavy structures.
What Are The Typical Mechanical Properties of Aluminum Alloy 383?
There are particular properties that define aluminum alloy 383 and among them are the mechanical properties.
Mechanical properties can be defined as the physical properties that aluminum alloy 383 exhibit when you apply force.
Here are the main mechanical properties you out to look at in aluminum alloy 383.
You should look at the point or stress at which aluminum alloy 383 with specific amounts of plastic deformation begin.
The yield strength of aluminum alloy 383 is 22(152) ksi (Mpa) which implies that plastic deformation begins at that point.
You must also look at the hardness or the measure of resistance that aluminum alloy 383 has towards plastic deformation.
The brinell hardness of aluminum alloy 383 is set at 75 which makes it a very hard alloy in comparison to others.
Elongation of aluminum alloy 383 is the process by which the alloy lengthens when you apply enough force.
Aluminum alloy 383 is capable of elongating at 3.5% which implies that it can lengthen at a rate of 3.5%.
Modulus of Elasticity
This is the ratio of stress in the body of aluminum alloy 383 to the corresponding strain or force applied.
You can simply identify aluminum alloy 383 by looking at the modulus of elasticity which remains at 10.3 psi x 10^6.
Which Physical Properties Define Aluminum Alloy 383?
You should look at the physical properties of aluminum alloy 383 to properly identify them.
Physical properties are the measurable attributes of aluminum alloy 383 whose value describes the physical system.
Here are the most important physical properties of aluminum alloy 383 that you have to consider.
Density of Aluminum Alloy 383
Density is the mass of unit volumes of different materials that make up the aluminum alloy 383.
Aluminum alloy 383 has a density of 274 grams per cubic centimeters.
Die Shrinkage of Aluminum Alloy 383
This is the scaling of metal oxide semi-conductors in order to create a product out of aluminum alloy 383.
You should note that the die shrinkage of aluminum is at 0.006 in/in.
Which Types of Metal Do You Use To Make Up The Aluminum Alloy 383?
There are different types of metals with various percentages that make up the aluminum alloy 383.
Your aluminum alloy 383 must have Silicon, Iron, Copper, Manganese, Magnesium, Nickel, Zinc, Silicon and Aluminum.
All the metal making up aluminum alloy 383 have different chemical compositions and have different effects on the alloy.
In addition to that, the concentration of the different metal within the aluminum alloy 383 will vary considerably.
How Does Aluminum Alloy 383 Compare to Aluminum Alloy 6061?
Among the numerous aluminum alloys, you can choose to use aluminum alloy 383 or aluminum alloy 6061.
You will note that the metallic or chemical composition of aluminum alloy 383 and aluminum alloy 6061 are 86% in common.
Despite having these properties in common, you will note that aluminum alloy 383 and 6061 have varying material percentages.
Aluminum alloy 6061 has relatively higher strength in comparison to aluminum alloy 383.
Apart from that, you can easily weld aluminum alloy 6061 in comparison to the difficulties experienced in welding aluminum alloy 383.
In addition to that, you can perform heat treatment on aluminum alloy 6061.
On the flip side, you will not perform solution heat treatment on aluminum alloy 383 as more heat causes damages.
What Are The Applications And Uses Of Aluminum Alloy 383?
Aluminum alloy 383 cast components
You will use aluminum alloy 383 in quite a number of applications in different industries.
It is the best type of aluminum alloys that you will use on die filling especially with intricate components.
It will help to improve resistance to the intricate components especially to hot cracking.
Apart from that, you can use it to make different materials such as:
- Lawn Moers
- Electrical Equipment Chassis
- Engine Brackets and Automotive drive cases in automotive industry
- Power and Hand Tools
- Home Appliances such as cookware
- Furniture and Railings in the Construction Industry
Why Is Aluminum Alloy 383 Best For Die Casting?
You should use aluminum alloy 383 in die casting because it is a cheaper method of making strong materials.
Apart from that, it is the most sustainable type of aluminum alloy that you can use for particular applications.
Aluminum alloy 383 offers very high strength even at high temperatures with very minimal chance of cracking.
Despite not being as durable as aluminum alloy 380, you will use it to form intricate components with specific die filling characteristics.
How Does Aluminum Alloy 383 Compare To Aluminum Alloy 360?
You may also have the chance to choose between aluminum alloy 383 and aluminum alloy 360.
To make the best decision, you have to know the difference between the aluminum alloy 360 and 383.
First, both aluminum alloy 360 and 383 offer very high strength even at high temperatures.
Despite having that in common aluminum alloy 360 has better ductility in comparison to aluminum alloy 383.
In addition to that, aluminum alloy 360 also has very high resistance to corrosion in comparison to aluminum alloy 383.
Apart from that, you will experience more difficulty in casting aluminum alloy 360 than aluminum alloy 383.
Implying that, aluminum alloy 360 is more difficult to cast and aluminum alloy 383 is easier to cast.
What Is The Difference Between Aluminum Alloy 383 and Aluminum Alloy 380?
Well, aluminum alloy 383 is a slight improvement of aluminum alloy 380 with better characteristics.
In other words, aluminum alloy 383 and aluminum alloy 380 have common features but with slight differences.
Aluminum alloy 383 and 380 are light in weight, corrosion resistant, strong at high temperatures with retained stability.
Apart from that, both of the aluminum alloys have very high thermal and electrical conductivity.
Despite sharing these characteristics, you will not that aluminum alloy 383 are less durable in comparison to aluminum alloy 360.
How Much Does The Aluminum Alloy 383 Cost?
Depending on the size and quantity of aluminum alloy 383, you will pay varying amounts of money.
In most cases, you will purchase the aluminum alloy 383 in kilograms.
Usually, the price of aluminum alloy 383 ranges between 2 to 3 US dollars per kilogram.
You should note that there is a minimum order quantity requirement that you should adhere to.
Which Quality Specifications Must Aluminum Alloy 383 Adhere To?
When manufacturing aluminum alloy 383, you must pay attention to a great number of details.
Among the most important of details that you have to take care of is the quality of the aluminum alloy 383.
Here are the international standards of quality that your aluminum alloy 383 must adhere to.
- ASTM Quality Certifications
- cGMP Quality Certifications
- RoHS Quality Certifications
- IEC Quality Certifications
Which Electrical Properties Do You Consider When Choosing Aluminum Alloy 383?
Aluminum alloy 383 also have the capability of conducting electricity.
There are specific electrical properties that you should consider when choosing aluminum alloy 383.
In this case, the most important electrical property that you should know about is electrical resistivity.
Electrical resistivity is the measure of how strongly aluminum alloy 383 resists flow of electric current.
Aluminum alloy 383 has an electrical resistivity of 0.00000750 ohm-cm.
What Are The Thermal Properties That Define Aluminum Alloy 383?
Other than the electrical properties, you should also look at the thermal properties of aluminum alloy 383.
The thermal properties of aluminum alloy 383 will detail the behavior of the alloy under different temperature ranges.
Here are the main thermal properties that define aluminum alloy 383.
Heat Of Fusion
Heat fusion is the heat that aluminum alloy 383 will absorb at melting point to completely convert it to liquid.
The heat of fusion of aluminum alloy 383 is 389 J/g.
Linear Coefficient Of Thermal Expansion
You should also look at the extent to which aluminum alloy 383 can expand on a straight line under specific temperatures.
The linear coefficient of thermal expansion of aluminum alloy 383 is at 20.8 µm/m-°C at Temperature 20.0 – 100 °C.
Specific Heat Capacity
You must also look at the heat that you will require to raise the temperature of aluminum alloy 383 by a given degree.
The specific heat capacity of aluminum alloy 383 is at 0.963 J/g-°C.
You can refer to thermal conductivity as the rate to which heat flows through the aluminum alloy 383.
The thermal conductivity of aluminum alloy 383 is 92.0 W/m-K.
Melting point is the point where aluminum alloy 383 achieves highest temperature that will change it into liquid state.
The melting point of aluminum alloy 383 ranges between 516 and 582 degrees centigrade.
Solidus is the highest temperature at which aluminum alloy 383 will remain in solid state before melting begins.
In aluminum alloy 383, the highest temperature where the alloy remains in solid state is 516 degrees centigrade.
This is the most appropriate temperature at which aluminum alloy 383 is completely melted to liquid state.
In identifying aluminum alloy 383, you will note that the liquidus temperature is at 582 degrees centigrade.
Are There Processing Properties To Consider in Aluminum Alloy 383?
Yes, there are processing properties of aluminum alloy 383 that you have to pay close attention to.
The main processing properties of aluminum alloy 383 you have to consider are annealing temperature and casting temperature.
The annealing temperature of aluminum alloy 383 ranges between 177 to 260 degrees centigrade.
On the flip side, the casting temperature ranges between 616 to 699 degrees centigrade.
Which Surface Treatment Options Do You Have For Aluminum Alloy 383?
You will apply surface treatment options to aluminum alloy 383 to improve or provide decorative finish.
Apart from that, you may also have the aluminum alloy 383 with surface treatment to protect the internal or constituent parts.
You can apply a proper surface treatment on the aluminum alloy 383 through:
What Does The Manufacturing Process Of Aluminum Alloy 383 Part Entail?
You will manufacture aluminum alloy 383 part using the die casting process.
The process involves heating different aluminum alloy forming metals and mixing them to form the alloy.
Here is a step-by-step procedure you have to follow in the process of die casting aluminum alloy 383.
Prepare Metal Alloy
You have to prepare all the metal alloy and machines that you will need in the production of aluminum alloy parts.
In this case, you will have to melt and mix all the metals that make up the aluminum alloy 383.
After that, you will leave it in a semisolid state before pouring it into a die for casting.
Usually, the die is heavy with stainless steel materials thus making the whole die casting process simpler.
Die Cast Process
After that, you will apply enough pressure on the semi-solid aluminum alloy 383 to force it through the die mold.
Die casting process
It will emerge on the other side of the die assuming the shape of the die that you initially intended for it.
You will follow that step with proper aging of the aluminum alloy 383 to make it stronger.
As soon as that is complete, you will cool the aluminum alloy 383.
Finally, you will cut the aluminum alloy into different sizes before packaging and distributing.
What Are The Advantages of Using Aluminum Alloy 383?
When choosing aluminum alloys, you should opt for aluminum alloy 383 due to the numerous advantages.
In other words, there are quite a number of benefits that should compel you to use aluminum alloy 383.
Here are the benefits of using aluminum alloy 383.
High Corrosion Resistance
Aluminum alloy 383 has very high rates of corrosion resistance with an oxide forming exterior to prevent corrosion.
You can use it in different applications where agents of corrosion are present with no worry of damage from the alloy.
Light In Weight
This type of alloy is also very light in weight and will not burden you or the structures with too much weight.
In other words, you can use it to make light weight structures that are very strong and resistant to corrosion.
On the same note, you will use aluminum alloy 383 in applications that require very strong support.
Implying that, aluminum alloy 383 is a very strong material that can withstand various weights and forces without breaking.
What Are The Limitations Of Using Aluminum Alloy 383?
Despite having numerous benefits, you are bound to experience a few limitations with aluminum alloy 383.
One of the greatest limitations of aluminum alloy 383 is the level of durability.
In comparison to aluminum alloy 380, you will note that aluminum alloy 383 is less durable.
What Is The Chemical Composition That Make Up Aluminum Alloy 383?
You must know the various chemical compositions of different metals to achieve the right composition of aluminum alloy 383.
Implying that, there are various percentages of different metals that make up the aluminum alloy 383.
Here is a list of the chemical composition of different metals within aluminum alloy 383.
- Copper at 2.0-3.0%
- Silicon at 9.5 – 11.5 %
- Magnesium at 0.10 – 0.30 %
- Zinc ranging from ≤3.0 %
- Iron at ≤1.3%
- Manganese at ≤0.5%
- Nickel at ≤0.5%
- Silicon ≤0.15 %
- Aluminum ranging between 79.3 – 88.4 %
- Others metals ≤0.5%
Why Should You Avoid Heat Treatment Of Aluminum Alloy 383?
Usually, when handling aluminum alloy 383, you should avoid solution heat treatment.
Application of solution heat treatment will not give the most suitable results and characteristics of alumi9num alloy 363.
In case of dimensional stability and stress relief, you should consider using low temperature aging treatments.
Apart from that, you will use a T2 or a T5 temper in order to improve the properties of aluminum alloy 383.
What Is The Significance Of Having Silicon In Aluminum Alloy 383?
Having silicon within the aluminum alloy 383 has a profound effect on the properties of the aluminum materials.
You should consider having silicon content at a rate of 11.7% within the aluminum alloy 383 for the following reasons.
- Silicon will increase the fluidity of the liquid aluminum alloy 383
- It will also decrease solidification shrinkage of aluminum alloy 383
- Silicon will improve pressure tightness of the alloy
- Reduction of hot shortness on the aluminum alloy
- Presence of silicon will increase the modulus of elasticity on the metal alloy
- Since silicon is less dense in comparison to aluminum, the specific gravity will decrease
- In addition to that, it will improve corrosion resistance and decrease thermal expansion
Why Should You Have Copper As Part Of Aluminum Alloy 383?
You should also have copper within the aluminum alloy 383 to improve desirable characteristics.
Apart from that, you may also restrict the quantity of copper presence within the alloy to reduce particular characteristics.
Having copper within a range of 2 to 3 percent will increase mechanical properties such as hardness and tensile strength.
These concentrations of copper within the aluminum alloy will influence alloy density since copper is denser than aluminum.
What Difference Does Magnesium Contribute To In Aluminum Alloy 383?
You should consider reducing the quantity of aluminum with the aluminum alloy 383 to 0.10%.
In case you increase the magnesium content of aluminum alloy 383 to 0.30% ductility reduces and embrittlement occurs.
Proper control of magnesium within aluminum alloy 383 will enhance chip formation and removal during machining process.
Which Advantages Do Iron Bring In Aluminum Alloy 383?
You should consider having iron as part of the aluminum alloy 383 because it reduces severe erosion within the alloy.
Having iron within the 0.6% to 1.2% in aluminum alloy 383 will inhibit hot shortness on the alloy.
Apart from that, the presence of iron within aluminum alloy 383 will adversely affect ductility.
What Are The Benefits of Having Manganese And Zinc As Part Of Aluminum Alloy 383?
You will have manganese as part of the aluminum alloy 383 to improve the iron-aluminum intermetallic phase.
Apart from that, you will also add zinc within the alloy to have solution strengthening effects and concentration.
For any inquiry or question on Aluminum alloy 383, you can contact us.