Aluminum
Aluminum offers a high strength-to-weight ratio, Ke kū'ē neiʻo Corrosion Corrossion, and thermal conductivity. It is known for its light weight, Hōʻike ', a me ka nui. KAHUIA, it is easy to form, huila, and anodize, making it a versatile material for a wide range of applications.
What Is Aluminum?
Aluminum(AL) is a lightweight, silvery-white metal known for its excellent strength-to-weight ratio and natural corrosion resistance. It is primarily composed of the element Al, which forms a thin, protective oxide layer on its surface, providing it with its characteristic resistance to rust and staining.
Al alloy often contains small amounts of other elements such as copper, Magnesum, a laiina, which can enhance its properties, including strength, durability, and formability. This versatile material is widely used in various industries, e komo pū me ka Aerospace, aitompetitive, kūkulu hoʻi, and packaging, due to its lightweight, ikaika ikaika, ʻO nā hoʻopiʻi Aesthetic, and excellent resistance to corrosion and heat.
Advantages and Applications
Aluminum’s distinctive combination of properties makes it essential across multiple industries. Its lightweight, Ke kū'ē neiʻo Corrosion Corrossion, and high strength provide numerous advantages, making it ideal for a wide range of applications.
Loaʻa
- Māmā māmā
- Ke kū'ē neiʻo Corrosionion
- Good processing performance
- ʻO ka pae kiʻekiʻe-kiʻekiʻe-kiʻekiʻe
- Good thermal conductivity
- Good conductivity
- Malleability and formability
- Wide application range
- 100% recyclability
- Non-toxic, Non-magnetic
Noi
- Nā'āpana automothetive
- Na'Āpanaʻo Aerospace
- Medical instruments
- Electronic components
- Marine equipment
- Oil and gas pipelines
- Kitchen Appliances
- Construction materials
- Sports equipment
- Springs and fasteners
ʻO nā lawelawe uila a Almiminum CNC
Aluminum is lightweight, corrosions-resistant, and highly versatile, making it an excellent choice for manufacturing projects. Its favorable strength-to-weight ratio and ability to withstand various environmental conditions make it widely used in CNC machining applications.
DEZE’s machine shop specializes in producing custom Al parts using advanced CNC lathes and both 3-axis and 5-axis CNC milling machines. We work with a range of Al alloys, me ka 6061, 6063, 7075, a 5083, ensuring that we can meet the specific needs of various industries, e like me Aerospace, aitompetitive, kūkulu hoʻi, and consumer goods.
As a reliable and cost-effective manufacturer, DEZE delivers high-precision Al components suitable for applications like structural supports, nā brackets, nā pā, and heat sinks.
Aluminum Die Casting Services
DEZE offers exceptional aluminum die casting and machining services, utilizing advanced techniques to produce high-quality, customized Al parts. Our precision casting process allows for the rapid production of intricate designs, ensuring that each component meets stringent quality standards.
We work with a variety of Al alloys, me ka 6061, 2024, 5052, a 7075, enabling us to cater to the specific needs of various industries such as aerospace, aitompetitive, a me nā huahana waiwai.
As a reliable and cost-effective manufacturer, DEZE provides precision-cast Al components with a range of finishing options, including anodizing, bead blasting, a he polish, to meet your exact specifications.
Custom Aluminum Parts
DEZE provides outstanding Al die casting and CNC machining services, specializing in the production of high-quality custom Al parts. We work with a range of Al alloys to deliver precision-engineered components that meet your specific needs.
Available Materials
Aluminum 1050
High corrosion resistance, excellent electrical conductivity, and good formability.
Aluminum 1100
Pure Al with excellent corrosion resistance, ke alakaʻiʻana i ka thermal, good formability, and low strength.
Aluminum 2024
Ikaika ikaika, excellent fatigue resistance, and good machinability. Limited corrosion resistance compared to other alloys.
Aluminum 3003
ʻO ke kū'ēʻana o ka corrossion maikaʻi, workability, a me ka ikaika kūpono. One of the most commonly used Al alloys for general purposes.
Aluminum 5052
Ke kū'ē neiʻo Corrosion Corrossion, good formability, and moderate to high strength. Well-suited for marine environments.
Aluminum 5083
Ikaika ikaika, and excellent resistance to seawater and industrial chemicals. Maintains its properties even at cryogenic temperatures.
Aluminum 6061
Good mechanical properties, ikaika ikaika, Ke kū'ē neiʻo Corrosion Corrossion, and good weldability. One of the most versatile Al alloys.
Aluminum 6063
Excellent extrudability, good surface finish, a me ke kū'ēʻana. Often referred to as an architectural alloy.
Aluminum 6082
Ikaika ikaika, ʻO ke kū'ēʻana o ka corrossion maikaʻi, a me ka wellingbility. Typically used in structural applications.
Aluminum 7050
Ikaika ikaika, excellent toughness, and good stress corrosion cracking resistance. Used in high-stress applications.
Aluminum 7072
Good mechanical properties and corrosion resistance. Often used for applications requiring protection from environmental factors.
Aluminum 8011
High corrosion resistance, ikaika, and good forming characteristics. Used primarily in packaging applications.
Aluminum 6061-T6
Ikaika ikaika, ʻO ke kū'ēʻana o ka corrossion maikaʻi, and excellent machinability. Often used in high-stress structural applications.
Aluminum MIC6
MIC6 is a cast Al plate made from a mix of metals. It offers high accuracy and easy machinability. The casting process gives it stress-relieving properties
Frequently asked questions
Al is lighter than steel and offers better corrosion resistance. While it may not be as strong as some other metals, its high strength-to-weight ratio makes it an excellent choice for many applications.
Al parts can be finished in several ways, including anodizing, ʻO ka paleʻana, Kāleka, a he polish, which enhance corrosion resistance and aesthetics.
Elua “aluminum” a “aluminum” are correct spellings, but the usage depends on regional differences. In the United States, “aluminum” is the preferred spelling, while in many other English-speaking countries, including the United Kingdom, “aluminum” is the standard spelling.
Extruded Al is shaped by forcing it through a die, while cast Al is formed by pouring molten Al into a mold. Each method offers different advantages in terms of shape complexity and mechanical properties.