• Quality Steel Z-Channel (Thickness: 2.0mm) System 1
  • Quality Steel Z-Channel (Thickness: 2.0mm) System 2
  • Quality Steel Z-Channel (Thickness: 2.0mm) System 3
Quality Steel Z-Channel (Thickness: 2.0mm)

Quality Steel Z-Channel (Thickness: 2.0mm)

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Loading Port:
China main port
Payment Terms:
TT or LC
Min Order Qty:
20000 PCS
Supply Capability:
2000000 PCS/month

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OKorder is offering high Quality Steel Z-Channels (Thickness: 2.0mm) at great prices with worldwide shipping. Our supplier is a world-class manufacturer of steel, with our products utilized the world over. OKorder annually supplies products to European, North American and Asian markets. We provide quotations within 24 hours of receiving an inquiry and guarantee competitive prices.

 

Product Applications:

Quality Steel Z-Channels (Thickness: 2.0mm) are ideal for structural applications and general fabricating.

 

Product Advantages:

OKorder's Steel Channels are durable, strong, and resists corrosion.

 

Main Product Features:

·         Premium quality

·         Prompt delivery & seaworthy packing (10-25 days after receiving deposit)

·         Corrosion resistance

·         Can be recycled and reused

·         Mill test certification

·         Professional Service

·         Competitive pricing

 

Product Specifications:

Grade: Q195-Q345/SPCC

Manufacture: Cold forming

Shape: Z-channel

Dimensions:     

Base: 35mm – 400mm

Width: 15mm – 25mm

Height: 80mm – 350mm

Thickness: 0.3mm – 6mm

Place of Origin:          Tianjin, China

Certifications: ISO 9001:2000, TUV

Production: 20,000 tons/month

Processing Available: Threading, coupling, plastic cap protection

 

FAQ:

Q1: Why buy Materials & Equipment from OKorder.com?

A1: All products offered byOKorder.com are carefully selected from China's most reliable manufacturing enterprises. Through its ISO certifications, OKorder.com adheres to the highest standards and a commitment to supply chain safety and customer satisfaction.

Q2: How do we guarantee the quality of our products?

A2: We have established an advanced quality management system which conducts strict quality tests at every step, from raw materials to the final product. At the same time, we provide extensive follow-up service assurances as required.

Q3: How soon can we receive the product after purchase?

A3: Within three days of placing an order, we will begin production. The specific shipping date is dependent upon international and government factors, but is typically 7 to 10 workdays.

Q4: What makes stainless steel stainless?

A4: Stainless steel must contain at least 10.5 % chromium. It is this element that reacts with the oxygen in the air to form a complex chrome-oxide surface layer that is invisible but strong enough to prevent further oxygen from "staining" (rusting) the surface. Higher levels of chromium and the addition of other alloying elements such as nickel and molybdenum enhance this surface layer and improve the corrosion resistance of the stainless material.

Q5: Can stainless steel rust?

A5: Stainless does not "rust" as you think of regular steel rusting with a red oxide on the surface that flakes off. If you see red rust it is probably due to some iron particles that have contaminated the surface of the stainless steel and it is these iron particles that are rusting. Look at the source of the rusting and see if you can remove it from the surface.

 

Images:



Q:How do steel channels contribute to sound insulation?
Minimizing the transmission of sound waves, steel channels contribute to sound insulation. When utilized in the construction of walls or ceilings, steel channels establish a framework that can be filled with sound-absorbing materials such as insulation or acoustic panels. This combination of steel channels and sound-absorbing materials effectively dampens and absorbs sound energy, subsequently reducing the amount of noise that can permeate through the structure. Moreover, steel channels can also be employed to fashion double or staggered wall systems, thereby enhancing sound insulation by establishing air gaps that act as barriers against sound transmission. In essence, steel channels assume a vital role in sound insulation through the provision of a sturdy foundation and structure for sound-absorbing materials, as well as the creation of a barrier that impedes the travel of sound throughout the building.
Q:The following steel is not section bar, is it? A. thread steel, B. steel pipe, C. track, D. channel steel
C orbitals are a combination of many materials. The other 3 are single profiles.
Q:How do steel channels contribute to the stability of crane runways?
The stability of crane runways is enhanced by steel channels in multiple ways. Firstly, these channels provide a robust and rigid support structure for the crane to operate on. Typically constructed from high-quality steel, known for its durability and ability to bear heavy loads, they ensure that the crane runway can withstand the weight and dynamic loads imposed during operation. In addition, steel channels are designed to evenly distribute the load across the supporting beams or columns. This prevents concentrated stress points and spreads the load over a larger area, reducing the risk of structural failure or collapse. By effectively distributing the load, steel channels maintain the stability of the crane runway, even when subjected to heavy loads or sudden movements. Another significant role of steel channels in crane runways is their capacity to withstand lateral forces. These forces may arise from wind, uneven loading, or sudden changes in direction as the crane moves along the runway. Steel channels provide a strong framework that effectively resists these lateral forces, preventing excessive deflection or sway in the runway structure. This is vital for maintaining the stability and safety of the crane during operation. Furthermore, steel channels are easily fabricated and installed, allowing for efficient construction of crane runways. They can be customized to meet the specific requirements of the crane and the site, ensuring a precise fit and optimal performance. The versatility of steel channels also allows for various configurations and layouts, making it possible to design crane runways that can accommodate different crane sizes and load capacities. In conclusion, steel channels play a crucial role in ensuring the stability of crane runways. Their strength, load-bearing capacity, and ability to distribute loads evenly contribute to the overall structural integrity of the runway. Additionally, their resistance to lateral forces and ease of installation make them an excellent choice for constructing reliable and safe crane runways.
Q:Own attic, choose I-beam or channel?
Oneself take attic, suggest to choose I-beam, and choose GB steel, because stainless steel in non GB is more.I-beam is a kind of economical section steel with better mechanical performanceFeatures: I-beamWide flange and large lateral rigidity. Good bending resistance.The two surfaces of the flanges are mutually parallel so that the connection, processing and installation are simple and convenient.Compared with the general steel, the utility model has the advantages of low cost, high precision, little residual stress, no expensive welding materials and welding seam detection, and the cost of steel structure production is saved by about 30%.Under the same section load, the weight of hot-rolled H steel structure is less than that of traditional structure 15%-20%.Compared with the concrete structure, the I-beam structure can increase the use area of 6%, while the weight of the structure can be reduced by 20% and 30%, and the internal force of the structural design can be reduced.The I-beam can be processed into T steel, and the castellated beams can form various section forms to meet the demands of engineering design and manufacture.
Q:What are the different types of connections for steel channels?
Steel channels can be connected in various ways based on the specific application, load requirements, and structural design considerations. One commonly used connection type for steel channels is the bolted connection. This involves connecting the channels using bolts, usually with the assistance of nuts and washers. Bolted connections offer flexibility and easy installation, allowing for adjustments and disassembly when needed. They are suitable for applications that require a moderate level of load transfer. Another option is the welded connection, where the steel channels are joined together through welding. Welded connections provide high strength and rigidity, making them ideal for applications with heavy loads and a need for structural stability. Welding creates a permanent and durable connection, eliminating the need for additional fasteners. A combination of bolted and welded connections can also be used in certain cases. This hybrid approach combines the advantages of both connection types, resulting in a robust and efficient solution that meets specific design requirements. Specialized connections are available for specific applications as well. For instance, slip-resistant connections are used in situations where the channels need to withstand dynamic or lateral loads. These connections often incorporate features like serrated surfaces or special fasteners to enhance grip and prevent slippage. It is crucial to select the appropriate connection type for steel channels in accordance with relevant building codes, engineering standards, and structural analysis. It is recommended to consult with a structural engineer or design professional to ensure that the connections meet necessary safety and performance requirements.
Q:Can steel channels be used in corrosive environments?
Steel channels can be utilized in settings where corrosion is present, but it is crucial to carefully consider the specific kind of steel employed and the required level of corrosion resistance. Typically, steel channels are constructed from carbon steel, which can be vulnerable to corrosion when exposed to moisture, chemicals, or other corrosive elements. Nevertheless, there are multiple alternatives accessible for corrosion-resistant steel channels. A commonly chosen option is stainless steel channels, which are alloyed with chromium and other elements to offer exceptional resistance to corrosion. Stainless steel channels are particularly suitable for implementation in extremely corrosive environments, such as marine applications, chemical processing plants, and wastewater treatment facilities. Another possibility is galvanized steel channels, which are coated with a layer of zinc to safeguard against corrosion. The zinc coating acts as a sacrificial barrier, corroding initially to prevent the underlying steel from being exposed to corrosive elements. Galvanized steel channels are frequently utilized in outdoor or industrial environments where corrosion resistance is imperative. It is essential to evaluate the severity of the corrosive environment and seek advice from experts or engineers to identify the most appropriate steel channel material for a specific application. Additionally, regular maintenance, proper cleaning, and the application of protective coatings can aid in prolonging the lifespan of steel channels in corrosive environments.
Q:Can steel channels be used in the construction of solar panel mounting structures?
Yes, steel channels can be used in the construction of solar panel mounting structures. Steel channels provide strong support and stability, making them suitable for holding the weight of solar panels and withstanding various environmental conditions.
Q:The role of channel?
According to the type of channel steel, different kinds of it have been used widely. The utility model can be used for decoration, outdoor advertisement board support and steel structure room. etc.
Q:What are the different methods of cutting steel channels?
There are various ways to cut steel channels, depending on specific needs and available tools. Here are some commonly used methods: 1. For smaller projects or when only a few cuts are necessary, manual cutting is suitable. This method involves using hand tools like hacksaws, bolt cutters, or shears. 2. Plasma cutting is a fast and precise technique that utilizes a high-velocity jet of ionized gas (plasma) to cut through steel channels. It can be used for both straight and curved cuts, often employing a CNC plasma cutting machine for larger projects. 3. Laser cutting is an efficient method that employs a high-powered laser beam to melt or vaporize the steel channels, resulting in a precise cut. It is commonly used in industrial applications and is suitable for both thick and thin steel channels, producing clean edges. 4. Waterjet cutting is a versatile technique that involves a high-pressure stream of water mixed with abrasive particles to cut through various materials, including steel. It is known for its accuracy and ability to create complex shapes. 5. Saw cutting, a traditional approach, uses a circular saw or band saw with a metal-cutting blade. It is suitable for straight cuts and can handle both thin and thick steel channels. 6. Oxy-fuel cutting is primarily used for cutting thicker steel channels in heavy industrial applications. It involves heating the steel channels to their ignition point using a mixture of fuel gas and oxygen, then introducing a high-pressure stream of oxygen to create the cut. When choosing a cutting method for steel channels, it is crucial to consider factors such as required precision, speed, and budget.
Q:Can steel channels be used for warehouse structures?
Yes, steel channels can be used for warehouse structures. Steel channels provide strength, durability, and stability, making them suitable for supporting heavy loads and withstanding various weather conditions. They are commonly used in the construction of warehouse structures due to their versatility and ability to provide a rigid framework for the building.

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