China OEM Synthetic Turf Decor Furniture Outdoor Cushion Carpet Lawn Aluminium Parts

Product Description

Synthetic Turf Decor Furniture Outdoor Cushion Carpet Lawn
1.products specification  

Material Fiber Colour Dtex Fiber Density Gauge Stitch Rate Yarn weight
/g
Total weight
kg/sqm
Height/mm Backing
PP+PE Straight+curving Tricolor 88

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Color: Multicolor
Type: Mixture
Base: Gravel Base
Material: PE, PP
Ground Cloth: Complex
Density: 63000tuft/Sqm
Samples:
US$ 1/Bag
1 Bag(Min.Order)

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Customization:
Available

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oudoor furniture

Are aluminium parts suitable for outdoor applications due to their resistance to rust?

Yes, aluminium parts are generally suitable for outdoor applications due to their resistance to rust. Here’s a detailed explanation:

One of the key advantages of aluminium as a material is its natural resistance to corrosion. Unlike iron or steel, aluminium does not rust in the same way. This is because when exposed to the atmosphere, aluminium quickly forms a thin, transparent oxide layer on its surface. This oxide layer acts as a protective barrier, preventing further corrosion and rust formation.

The corrosion resistance of aluminium is primarily attributed to this oxide layer, which is known as aluminium oxide (Al2O3). This oxide layer is stable, adheres well to the surface of the aluminium, and effectively shields it from the surrounding environment.

Aluminium’s resistance to rust makes it highly suitable for outdoor applications where exposure to moisture, humidity, and other environmental elements is common. Here are some reasons why aluminium parts are well-suited for outdoor use:

1. Durability:

– The protective oxide layer on aluminium parts helps to ensure their long-term durability in outdoor environments. It acts as a barrier against corrosion-causing factors such as moisture, rain, and UV radiation from sunlight.

2. Lightweight:

– Aluminium is a lightweight material, making it easier to handle and transport for outdoor applications. This characteristic is particularly beneficial for applications such as outdoor furniture, signage, and architectural elements.

3. Low Maintenance:

– Aluminium parts require minimal maintenance in outdoor settings. The oxide layer provides ongoing protection, reducing the need for frequent cleaning or rust prevention measures.

4. Design Flexibility:

– Aluminium is highly versatile in terms of design and fabrication. It can be easily shaped, welded, and formed into various configurations, allowing for the creation of complex outdoor structures and components.

While aluminium is resistant to rust, it can still undergo other forms of corrosion, such as pitting or galvanic corrosion. These types of corrosion are typically rare in outdoor environments, but certain conditions, such as exposure to saltwater or corrosive chemicals, may increase the risk. Applying protective finishes or coatings, such as anodizing or powder coating, can further enhance the corrosion resistance of aluminium parts for prolonged outdoor use.

It’s important to note that the specific environmental conditions and the intended outdoor application should be considered when selecting aluminium parts. Consulting with experts in materials and design, as well as considering the specific requirements of the outdoor application, can help ensure the suitability and longevity of aluminium parts in outdoor environments.

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What industries commonly use CNC-machined aluminium parts in their production processes?

Industries across various sectors rely on CNC-machined aluminium parts as essential components in their production processes. Here’s a detailed explanation:

1. Aerospace and Aviation:

– The aerospace and aviation industries extensively use CNC-machined aluminium parts for aircraft and spacecraft manufacturing. These parts include engine components, structural elements, landing gear parts, wing components, and interior fittings. CNC machining allows for precise shaping and intricate detailing required for high-performance and lightweight aluminium parts in this industry.

2. Automotive:

– The automotive industry utilizes CNC-machined aluminium parts in the production of vehicles. These parts can be found in engine components, transmission systems, suspension parts, chassis components, steering components, and interior elements. CNC machining ensures high dimensional accuracy and tight tolerances necessary for automotive applications.

3. Electronics and Electrical Equipment:

– The electronics and electrical equipment industries rely on CNC-machined aluminium parts for various applications. These parts can include heat sinks, enclosures, connectors, brackets, and housings for electronic devices and equipment. CNC machining allows for intricate designs, precise dimensions, and efficient heat dissipation required in these industries.

4. Medical:

– The medical industry utilizes CNC-machined aluminium parts in the production of medical devices, equipment, and instrumentation. These parts can include surgical tools, implant components, prosthetics, diagnostic equipment, and enclosures for medical devices. CNC machining enables the production of complex and customized parts with high precision and biocompatible properties.

5. Industrial Machinery and Equipment:

– Industries involved in the manufacturing of industrial machinery and equipment often use CNC-machined aluminium parts. These parts can be found in pumps, valves, gears, bearings, frames, and structural components of various machinery and equipment. CNC machining ensures the production of durable and precise parts that can withstand demanding industrial environments.

6. Renewable Energy:

– The renewable energy industry, including sectors such as solar power and wind energy, relies on CNC-machined aluminium parts. These parts can be used in solar panel frames, mounting systems, wind turbine components, and electrical connectors. CNC machining allows for the production of lightweight and corrosion-resistant parts required in renewable energy applications.

7. Telecommunications:

– The telecommunications industry utilizes CNC-machined aluminium parts in the production of communication equipment and devices. These parts can include antenna components, connectors, enclosures, and mounting brackets. CNC machining enables the fabrication of high-quality parts that meet the specific requirements of the telecommunications industry.

8. Defense and Military:

– The defense and military sectors make extensive use of CNC-machined aluminium parts in various applications. These parts can be found in military vehicles, aircraft, naval vessels, weapons systems, and communication equipment. CNC machining allows for the production of robust and precise parts that meet the stringent standards and specifications of these industries.

These are just a few examples of the industries that commonly use CNC-machined aluminium parts in their production processes. The versatility, durability, and precise manufacturing capabilities of CNC-machined aluminium parts make them suitable for a wide range of applications across numerous sectors.

oudoor furniture

Are there specific guidelines for machining and shaping aluminium parts?

When it comes to machining and shaping aluminium parts, there are specific guidelines and considerations that can help ensure optimal results and avoid potential issues. Here’s a detailed explanation:

1. Selection of Cutting Tools:

– When machining aluminium, it’s important to use cutting tools specifically designed for aluminium or non-ferrous metals. High-speed steel (HSS) or carbide cutting tools are commonly used for aluminium machining due to their hardness and heat resistance. The tools should have sharp cutting edges to minimize heat generation and ensure clean cuts. Proper tool geometry, including rake angle and clearance angle, is crucial for efficient chip evacuation and reduced cutting forces.

2. Tool Coatings:

– Consider using cutting tools with appropriate coatings for aluminium machining. Coatings such as titanium nitride (TiN) or titanium carbon nitride (TiCN) help reduce friction and extend tool life by providing improved wear resistance. The tool coatings also aid in preventing built-up edge (BUE) formation, which can negatively affect surface finish and chip flow.

3. Cutting Speeds and Feeds:

– Aluminium has a relatively low melting point compared to other metals, so it’s essential to optimize cutting speeds and feeds to prevent excessive heat generation. High cutting speeds with moderate to high feed rates are generally recommended for aluminium machining. These parameters help dissipate heat efficiently and prevent chip welding or built-up edge formation. However, it’s important to refer to the specific recommendations provided by the tool manufacturer or machining guidelines for the best results.

4. Cooling and Lubrication:

– Proper cooling and lubrication are essential during aluminium machining to dissipate heat and improve tool life. Water-soluble or oil-based cutting fluids can be used to provide cooling and lubrication, reducing friction and preventing chip welding. However, some aluminium alloys, such as those containing high levels of silicon, may have a negative reaction to certain cutting fluids. It’s important to consult the material and cutting fluid compatibility charts or seek advice from the tool manufacturer to ensure compatibility and avoid potential issues.

5. Chip Evacuation:

– Aluminium chips tend to be stringy and can cause chip clogging or jamming in the cutting area. Proper chip evacuation is crucial to maintain continuous cutting and prevent tool damage. Using appropriate chip breakers or chip evacuation techniques, such as through-spindle coolant or air blasts, can help facilitate chip flow and prevent chip entanglement.

6. Workholding and Rigidity:

– Ensuring proper workholding and rigidity is important for machining aluminium parts. The workpiece should be securely clamped to minimize vibrations and chatter during the cutting process. Using appropriate fixtures, vises, or clamping methods that provide sufficient holding force and stability can help achieve accurate and consistent results.

7. Surface Finish:

– Achieving a desirable surface finish is important for aluminium parts, particularly when aesthetics or functional requirements are critical. Proper tool selection, feeds, and speeds can contribute to achieving a smooth surface finish. However, additional post-machining processes such as sanding, polishing, or anodizing may be required to further enhance the surface quality and appearance.

It’s important to note that the specific machining guidelines for aluminium parts can vary depending on factors such as the alloy composition, part geometry, and machining equipment. It’s advisable to consult the machining guidelines provided by the aluminium material supplier or seek expert advice from tool manufacturers to ensure the best practices and optimize the machining process for specific applications.

editor by CX 2024-03-10