Product Description
Laser cutting bending anodized aluminum parts are used in various applications, ranging from aerospace and automotive industries to consumer goods and electronics. Laser cutting is a process that employs a high-powered laser beam to cut materials accurately and quickly. On the other hand, bending refers to the process of altering the shape of a material by applying pressure.
One of the primary advantages is the accuracy of the cuts and bends. The laser beam used in the process is very precise and can be easily guided to produce intricate shapes and holes. With precision of up to 0.1mm, laser cutting can produce parts with tight tolerances that require minimal finishing. Additionally, the process is efficient and can be performed quickly, leading to increased production rates and reduced lead times.
Our Capabilities
Our company is a precision CNC machining factory that has been in business for 18 years, since 2005. With over 40 CNC machines, we have the capability to machine more than 90 types of metals and plastics and can offer 30 types of surface treatments. Our machining tolerances can reach as low as +/- 0.0004 inches (0.01mm), making our operations highly efficient and precise. We offer additional services such as electric discharge wire cutting, gun drilling, grinding, tube and rod bending, and more. Our expertise and experience in precision CNC machining, coupled with our extensive range of capabilities, make us a reliable and trusted partner for all our customer's manufacturing needs.
Product Feature
With the development of modern sheet metal forming technology, aluminum alloys have become an increasingly popular material due to their excellent performance in several applications.
1. 3003 Aluminum Alloy:
This type of aluminum alloy is widely used in sheet metal forming due to its strength, corrosion resistance, and moderate to high plasticity. The tensile strength of the 3003 aluminum alloy is around 140 MPa, with a yield strength of 115 MPa.
Advantages: The 3003 alloy has good weldability and formability, and it can be easily processed in cold-forming or hot-forming.
Disadvantages: It has a lower strength compared to some other aluminum alloys.
2. 5052 Aluminum Alloy:
The 5052 aluminum alloy is more robust and durable than the 3003 alloy. It has a tensile strength of around 230 MPa, with a yield strength of 193 MPa, making it an excellent choice for applications that require high strength.
Advantages: It has excellent weldability and is highly resistant to corrosion. Additionally, its high fatigue strength makes it ideal for heavy-duty applications.
Disadvantages: It can be challenging to cold-form and shape due to its high strength.
3. 6061 Aluminum Alloy:
The 6061 aluminum alloy is one of the most commonly used alloys in the automotive and aerospace industries due to its exceptional strength, durability, and high resistance to corrosion. It has a tensile strength of around 310 MPa, with a yield strength of 275 MPa.
Advantages: The 6061 alloy has excellent weldability and formability, making it ideal for complex shapes and designs. It also has good surface finish characteristics, which make it suitable for decorative and architectural purposes.
Disadvantages: The 6061 alloy is more expensive than other aluminum alloys, and it may be more susceptible to stress cracking.
4. 7075 Aluminum Alloy:
The 7075 aluminum alloy is known as an ultra-high-strength alloy, with a tensile strength of around 570 MPa and a yield strength of 505 MPa. It is commonly used in the aerospace and automotive industries, where high-performance materials are needed.
Advantages: The 7075 alloy has excellent mechanical properties, which include high strength, toughness, and fatigue resistance. It also has good machinability and corrosion resistance.
Disadvantages: The 7075 alloy is more challenging to form, making it unsuitable for complex shapes and designs. Additionally, it is more expensive than other aluminum alloys.
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Process
1. Laser cutting is a modern technology that uses a focused beam of light to cut and shape materials such as metal, plastic, and wood. The laser beam can cut intricate shapes with a high degree of accuracy and precision, making it a popular choice for industrial applications.
2. Press bending is a method of shaping sheet metal into desired shapes using a press brake. The press brake consists of a flat bed and a movable upper tool that presses down on the metal to form it into shapes. This technique allows for the creation of precise and accurate bends in sheet metal.
3. Anodizing is an electrochemical process that creates a protective coating on metals such as aluminum or titanium. The process involves immersing the metal in an acid electrolyte and applying an electric current to it. The resulting coating is hard, durable, and resistant to corrosion, making it ideal for outdoor or industrial use.
Application
1. Aerospace Industry:
Laser cutting bending anodized aluminum parts are essential in the aerospace industry. These micro parts are used in aircraft and satellites for various purposes such as flight control, communication, and navigation. For example, components such as antenna brackets, communication equipment brackets, and flight control system brackets can be manufactured using laser cutting and bending technology.
2. Robotics Industry:
The robotics industry relies heavily on precision and accuracy, and laser cutting and bending technology can help to produce small components that are required to build robotic systems. Examples of such components include gearboxes, arms, linkages, and sensors.
3. Renewable Energy Industry:
Laser cutting bending anodized aluminum parts can be used in renewable energy systems such as wind turbines and solar panels. These parts include brackets, clamps, fasteners, and frames. The use of laser cutting and bending technology helps to improve the efficiency and reliability of renewable energy systems.
4. Industrial Equipment:
Many industrial machines and equipment require precision components, and it can be used to produce these parts. Components such as brackets, supports, housings, and frames can be manufactured using this technology.
Product process
Packaging and shipping
FAQ
Q: Are you a trading company or manufacturer?
A: We are a manufacturer.
Q: When was your company founded?
A: Our company was founded in 2005.
Q: How long can you reply after getting RFQ?
A: Within 24 hours.
Q: Can you provide a sample? Is it free or extra?
A: Yes, We can. Just need some sample costs.
Q: Can you sign NDA (Non-disclosure agreement)?
A: Yes, We can.
Q: Deliver time of mass production?
A: Usually 25-35 days, it depends.