Galvanized cowl
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- China Main Port
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- TT OR LC
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Product Description
Diameter: Φ 100mm Φ 125mm Φ 160mm Φ 200mm Φ 250mm
We are one of the biggest and professinal manufacturer of ventilation products including INLINE FANS, SPEED CONTROLLER, CARBON FILTER, PIPE FITTING, etc in China. We can provide you with high quality & competitive price & excellent service. Welcome to visit our Group Company at any time.
Model NO.:150mm
Material:Metal
Type:Centrifugal Fan
Certification:ISO, SGS
Electric Current Type:No Power
Mounting:The Chimney, The Tube, and The Roof
Blade Material:Stainless Steel
No Maintenance or Operating Costs:Water and Dust Proof
Improves Air Quality:Improves Productivity
Material: Stainless Steel, Color Coated:Type: 100mm/120mm/125mm/150mm/250mm/300mm
Delivery Time:Very Fast, Within 10 Days
Export Markets:Global
Trademark:WT
Packing:Box
Standard:The international standard
Origin:China
HS Code:84148090
Production Capacity:100000PCS/Per Month
1. Material: Stainless steel (SS201, SS304), Color steel, Aluminum, Galvanized steel.
Usually: Stainless steel, color steel. Please you choose according your requests. We can produce.
2. Type/size: 100MM/125MM/300MM/350MM/400MM/420MM/450MM/500MM/560MM/600MM/680MM/760MM/800MM/900MM/1000MM/1200MM.
Usually: 100mm/120mm/125mm/150mm/250mm/300mm/350mm/450mm/500mm/600mm/680mm/900mm/1000mm/1200mm.
We can according your requests to produce.
3. Products advantage:
1). No maintenance or operating costs
2). Water and dust proof
3). Improves air quality
4). Improves productivity
4. The more information of products:
1). The structure of the high quality,
2). The precision of the running device,
3). Green environmental protection ventilation equipment,
4). Applicability widely. All kinds of industrial factory building contour plate light steel structure roofing, concrete roof can also be installed.
- Q:How are steel structures used in military and defense installations?
- Due to their exceptional strength, durability, and versatility, steel structures find extensive use in military and defense installations. They play a crucial role in guaranteeing the security and operational efficiency of military facilities. One of the primary uses of steel structures in military installations involves constructing barracks and housing facilities for troops. Steel offers excellent resistance to extreme weather conditions, creating a safe and comfortable living environment for military personnel. These structures are easily assembled and disassembled, making them ideal for temporary military bases or rapid deployment situations. Additionally, steel structures are extensively employed in constructing command centers and military headquarters. These buildings necessitate a high level of security and protection, which steel provides through its strength and resistance against various threats, including explosions and ballistic impacts. Furthermore, steel structures offer the advantage of large open interior spaces, facilitating efficient command and control operations. Hangars and maintenance facilities for military aircraft are another significant application of steel structures. Steel's high strength-to-weight ratio allows for the construction of large, clear-span structures capable of accommodating multiple aircraft simultaneously. Moreover, steel structures can be easily modified or expanded to meet changing operational requirements, ensuring the adaptability of these facilities. Concerning defensive installations, steel structures are employed to construct bunkers, fortifications, and defensive barriers. These structures offer protection against artillery fire, projectiles, and other potential threats. Steel barriers, such as blast walls or anti-ram barriers, bolster the security and resilience of military installations, preventing unauthorized access or vehicular attacks. Furthermore, steel structures are utilized in building ammunition storage facilities and armories. These structures are specifically designed to withstand explosions, fire, and other hazards associated with storing military munitions. Steel's fire-resistant properties and ability to withstand high temperatures make it the ideal material for these critical storage facilities. In conclusion, steel structures occupy a vital position in military and defense installations. They are employed in various applications, including housing facilities, command centers, hangars, defensive installations, and ammunition storage facilities. The strength, durability, and versatility of steel make it the preferred choice for constructing these structures, ensuring the safety, security, and operational effectiveness of military operations.
- Q:How are steel structures designed for different landscaping systems?
- Steel structures are designed for different landscaping systems by considering factors such as load capacity, aesthetics, and functionality. The design process involves assessing the specific requirements of the landscaping system, determining the appropriate size and shape of the steel structure, and ensuring it can withstand the anticipated loads and environmental conditions. Additionally, the design may incorporate elements such as coatings or finishes to enhance the structure's durability and blend harmoniously with the surrounding landscape.
- Q:What are the different types of steel sections used in structures?
- There are various types of steel sections used in structures, including I-beams, H-beams, channels, angles, and tubes. These sections are available in different sizes and shapes, and each has its own unique properties and applications in construction and engineering projects.
- Q:Can steel structures be designed to have architectural aesthetics?
- Yes, steel structures can certainly be designed to have architectural aesthetics. Steel offers architects and designers a wide range of possibilities for creating visually pleasing and unique structures. The versatility of steel allows for the creation of bold and innovative designs that can capture the imagination. One of the key advantages of steel is its strength and durability, which allows for the creation of large, open spaces with minimal support columns or walls. This can result in sleek and elegant designs that are visually striking. Steel structures also allow for the use of large windows and transparent facades, which can create a sense of lightness and transparency in a building's design. Moreover, steel can be easily molded and shaped into various forms, allowing architects to create intricate and complex designs. This flexibility enables the incorporation of curves, cantilevers, and other unique features that can enhance the architectural aesthetics of a steel structure. Additionally, steel can be combined with other materials such as glass, concrete, or wood to create a harmonious blend of different textures and finishes. This combination of materials can add warmth, contrast, and visual interest to a steel structure, further enhancing its architectural aesthetics. Furthermore, advancements in technology and manufacturing techniques have made it possible to achieve different surface finishes, colors, and coatings for steel structures. This enables architects to create buildings that are not only visually appealing but also integrate well with their surroundings and the overall architectural context. In conclusion, steel structures can be designed to have architectural aesthetics. The strength, durability, flexibility, and aesthetic possibilities of steel make it a popular choice for architects looking to create visually stunning and innovative structures. With its ability to create large open spaces, incorporate unique designs, and blend with other materials, steel offers endless possibilities for creating beautiful and iconic architectural designs.
- Q:How do steel structures perform in terms of acoustics?
- Steel structures typically perform poorly in terms of acoustics as they have low sound insulation properties. Steel is a dense material that easily conducts sound vibrations, allowing noise to easily travel through the structure. To improve the acoustic performance of steel structures, additional measures such as insulation, soundproofing materials, and design modifications are often necessary.
- Q:How are steel structures designed to accommodate interior finishes and furnishings?
- The accommodation of interior finishes and furnishings is carefully considered in the design of steel structures. This is achieved through thoughtful planning, collaboration with architects and interior designers, and structural engineering. To begin, the structural engineer closely collaborates with the architect and interior designer during the initial design phase. Their aim is to understand the intended interior finishes and furnishings. This collaboration ensures that the steel structure can support the weight and layout of these elements. The load-bearing capacity of the steel framework is taken into account by the structural engineer. They incorporate necessary structural elements such as beams, columns, and braces to provide adequate support. The engineer also considers the location of walls, partitions, and openings to allow for proper placement of interior finishes and furnishings. Mechanical, electrical, and plumbing systems are also carefully considered in the design process. These systems need to be integrated into the steel structure, and their locations must be coordinated with the interior finishes and furnishings. This ensures that outlets, ducts, and pipes are strategically placed to avoid interfering with the desired layout. Additionally, the steel structure can be designed with features that make the installation of interior finishes and furnishings easier. For example, the engineer may incorporate chase walls or floor boxes to conceal electrical and plumbing components. This allows for seamless installation of wall finishes or floor coverings. During construction, close collaboration between the project team members is essential. The steel structure is erected based on detailed design drawings, and the interior finishes and furnishings are installed accordingly. This requires careful coordination between the construction team, interior designers, and tradespeople to ensure that the installation process aligns with the structural design. In summary, the design of steel structures takes into account the accommodation of interior finishes and furnishings through careful planning, collaboration, and coordination. By considering the weight, layout, and integration of these elements, the structural engineer ensures that the steel framework provides the necessary support while allowing for the desired interior design.
- Q:What are the different types of steel cladding systems used in structures?
- There are several different types of steel cladding systems used in structures, each offering its own unique benefits and characteristics. Some of the most common types include: 1. Corrugated Steel Cladding: This type of cladding features a series of ridges and grooves, creating a corrugated pattern. It is lightweight, durable, and easy to install. Corrugated steel cladding is commonly used in agricultural buildings, warehouses, and industrial structures. 2. Standing Seam Steel Cladding: This system consists of interlocking panels with raised seams that connect them together. It provides a sleek and modern appearance, as well as excellent weather resistance and durability. Standing seam cladding is often used in commercial buildings, residential homes, and architectural projects. 3. Insulated Steel Cladding: This type of cladding incorporates insulation material between two layers of steel panels. It offers improved energy efficiency, thermal performance, and soundproofing. Insulated steel cladding is frequently used in commercial buildings, warehouses, and cold storage facilities. 4. Ribbed Steel Cladding: Ribbed cladding features vertical ridges or ribs on the surface of the panels. It provides enhanced strength and rigidity, making it suitable for high-wind or seismic areas. Ribbed steel cladding is commonly used in industrial buildings, sports facilities, and infrastructure projects. 5. Composite Steel Cladding: This system combines different materials, such as steel and other alloys, to create a cladding panel with improved performance and aesthetics. Composite steel cladding offers versatility, customization options, and a wide range of finishes. It is often used in high-end architectural projects, commercial buildings, and modern residential homes. Overall, the choice of steel cladding system depends on the specific requirements of the structure, including factors such as design, functionality, durability, and budget.
- Q:How are steel structures designed for loading docks?
- Steel structures for loading docks are designed to withstand heavy loads and provide a safe and efficient platform for loading and unloading operations. The design process involves considering factors such as the anticipated weight of the loads, the frequency of use, the type of equipment to be used, and the overall layout of the loading dock area. Engineers use advanced modeling and analysis techniques to determine the appropriate size, shape, and configuration of the steel structure, ensuring it can withstand the required loads while maintaining structural integrity and safety standards.
- Q:How are steel structures used in bridges and infrastructure projects?
- Steel structures are widely used in bridges and infrastructure projects due to their durability, strength, and versatility. Steel is capable of withstanding heavy loads and extreme weather conditions, making it an ideal material for constructing bridges, highways, and other infrastructure. Its high strength-to-weight ratio allows for the creation of lighter and more efficient structures, thereby reducing material costs and construction time. Additionally, steel structures can be designed to accommodate various architectural and engineering requirements, ensuring the safety and functionality of these vital structures.
- Q:How are steel structures designed to accommodate plumbing and piping systems?
- Steel structures are designed to accommodate plumbing and piping systems by incorporating specific features and considerations. These structures have designated spaces and pathways to accommodate the installation of pipes and plumbing systems. Additionally, engineers and designers work closely with plumbing professionals to ensure that the design and layout of the steel structure allow for easy access, proper support, and efficient routing of the plumbing and piping systems.
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Galvanized cowl
- Loading Port:
- China Main Port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- -
- Supply Capability:
- -
OKorder Service Pledge
OKorder Financial Service
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