Prime Low Carbon Unequal Angle Steel System 1

Prime Low Carbon Unequal Angle Steel

Ref Price:

Loading Port:: China main port

Payment Terms:: TT OR LC

Min Order Qty:: 100 m.t.

Supply Capability:: 20000 m.t./month

Inquire Now

Chat Online

Add to My Favorites

OKorder Service Pledge

Quality Product, Order Online Tracking, Timely Delivery

OKorder Financial Service

Credit Rating, Credit Services, Credit Purchasing

You Might Also Like

Equal Steel Angle

Angle Steel

JIS SS400 Angle Steel

Structure Angle Steel

GB Q235 Angle Steel

GB Q235 Steel Angle with High Quality 25*25mm

GB Q235 Steel Angle with High Quality 40*40mm

Prime Low Carbon Steel Equal Angle Bars GB Standard

Product Description:

OKorder is offering Prime Low Carbon Unequal Angle Steel 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 African, South American and Asian markets. We provide quotations within 24 hours of receiving an inquiry and guarantee competitive prices.

Product Applications:

Prime Low Carbon Unequal Angle Steel are ideal for structural applications and are widely used in the construction of buildings and bridges, and the manufacturing, petrochemical, and transportation industries.

Product Advantages:

OKorder's Prime Low Carbon Unequal Angle Steel are durable, strong, and wide variety of sizes.

Main Product Features:

· Premium quality

· Prompt delivery & seaworthy packing (30 days after receiving deposit)

· Can be recycled and reused

· Mill test certification

· Professional Service

· Competitive pricing

Product Specifications:

Manufacture: Hot rolled

Grade: Q195 – 235

Certificates: ISO, SGS, BV, CIQ

Length: 6m – 12m, as per customer request

Packaging: Export packing, nude packing, bundled

UNEQUAL ANGLE STEEL
size(mm)	a(mm)	a1(mm)	thickness(mm)	kg/m	length(m)
75505	75	50	5	4.808	6m,9m,12m
75506	75	50	6	5.699	6m,9m,12m
75508	75	50	8	7.431	6m,9m,12m
100757	100	75	7	9.34	6m,9m,12m
100758	100	75	8	10.6	6m,9m,12m
100759	100	75	9	11.8	6m,9m,12m
1007510	100	75	10	13	6m,9m,12m
1007512	100	75	12	15.4	6m,9m,12m
125757	125	75	7	10.7	6m,9m,12m
125758	125	75	8	12.2	6m,9m,12m
125759	125	75	9	13.6	6m,9m,12m
1257510	125	75	10	15	6m,9m,12m
1257512	125	75	12	17.8	6m,9m,12m
150908	150	90	8	14.7	6m,9m,12m
150909	150	90	9	16.4	6m,9m,12m
1509010	150	90	10	18.2	6m,9m,12m
1509012	150	90	12	21.6	6m,9m,12m
20010010	200	100	10	23	6m,9m,12m
20010012	200	100	12	27.62	6m,9m,12m
20010015	200	100	15	34.04	6m,9m,12m

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 many tons of steel products could be loaded in containers?

A2: Usually the steel products are delivered by bulk vessel because of the large quantity and the freight. However, there are no bulk vessel enter some seaports so that we have to deliver the cargo by containers. The 6m steel product can be loaded in 20FT container, but the quantity is changed according to the size, usually from 18tons to 25tons.

Q3: what is the difference between actual weight and theoretical weight?

A3: All the section steel has two weights: actual weight and theoretical weight. Actual weight is the weighing out when the product delivered from the mill. Theoretical weight is calculated by pieces. The invoice can be based on each of them as your request.

Images:

Prime Low Carbon Unequal Angle Steel

Q:What is the maximum length for a steel angle bracket?: The maximum length for a steel angle bracket can vary depending on the manufacturer and the specific design of the bracket. However, in general, steel angle brackets are commonly available in lengths ranging from 1 inch to 8 feet or more. It's important to note that longer brackets may be more prone to bending or flexing under heavy loads, so it's essential to consider the intended application and weight-bearing requirements when selecting the appropriate length for a steel angle bracket. Additionally, consulting the manufacturer's guidelines and specifications is recommended to ensure the bracket's maximum length is not exceeded, as this could compromise its structural integrity.

Q:Can steel angles be used in seismic-resistant structures?: Seismic-resistant structures can incorporate steel angles for various purposes. These versatile elements are commonly utilized in buildings and bridges due to their high strength. In seismic-resistant structures, steel angles can be employed in multiple ways to bolster the overall structural integrity and earthquake resistance. When used as bracing elements, steel angles play a crucial role in distributing and dissipating seismic forces. By connecting them diagonally between different structural components, the impact on the structure can be significantly minimized. This prevents excessive deformation or collapse during an earthquake. Moreover, steel angles can reinforce and strengthen key components of the structure. They can be welded or bolted to beams and columns, providing additional support and stiffness. This reinforcement enables the structure to better withstand lateral forces generated by earthquakes, ultimately improving its seismic performance. In the construction of moment-resisting frames, steel angles are essential components. These frames are widely employed in seismic-resistant structures. By utilizing steel angles as the main elements, rigid connections between beams and columns are created. This allows for effective transfer and distribution of seismic forces, reducing structural damage and enhancing earthquake resistance. It is important to adhere to relevant building codes and regulations when incorporating steel angles into seismic-resistant structures. The specific design and detailing requirements may vary depending on the seismic zone and potential earthquake magnitudes. Consulting with structural engineers and following appropriate guidelines is crucial to ensure the safe and effective utilization of steel angles in these structures.

Q:Can steel angles be used in outdoor or corrosive environments?: Yes, steel angles can be used in outdoor or corrosive environments. However, it is important to choose the right type of steel that is specifically designed to withstand corrosion and other environmental factors. Stainless steel angles, for example, are commonly used in such environments due to their high resistance to rust and corrosion. Regular carbon steel angles, on the other hand, may require additional protective coatings or treatments to prevent corrosion in outdoor or corrosive environments.

Q:How do steel angles contribute to the overall lateral stability of a structure?: The overall lateral stability of a structure is improved by steel angles in various ways. Firstly, they serve as bracing members to counteract lateral forces like wind or seismic loads. By linking the angles to the building's main structural components, they assist in distributing these forces and preventing the structure from collapsing or deforming under the applied load. Additionally, steel angles can be utilized as stiffeners to boost the stiffness and rigidity of crucial structural parts. By incorporating angles into beams, columns, or other elements, their resistance to bending or buckling is heightened, thereby enhancing the overall lateral stability of the structure. Moreover, steel angles can act as shear connectors between different structural elements. For instance, by welding or bolting angles to beams, they establish a connection that facilitates the transfer of shear forces between the components. This is essential for ensuring that the structure remains stable and capable of withstanding lateral loads without significant deformation or failure. Furthermore, steel angles can be employed as diagonal members in truss systems. By forming diagonal bracing, they aid in evenly distributing the applied loads across the structure, preventing excessive lateral displacements and maintaining the overall stability of the building. In conclusion, steel angles play a crucial role in enhancing the lateral stability of a structure. Their application as bracing members, stiffeners, shear connectors, and diagonal members all contribute to distributing and resisting lateral forces, guaranteeing that the structure remains stable and capable of withstanding external loads.

Q:What are the different types of steel angles used in machinery?: There are several different types of steel angles that are commonly used in machinery. One of the most common types is the equal-leg angle, also known as L-shaped or L-angle steel. This angle has equal dimensions on both sides, forming a 90-degree angle. It is commonly used in machinery to provide structural support and stability, as well as to reinforce joints and connections. Another type is the unequal-leg angle, which has different dimensions on each side, resulting in an uneven angle. This type of angle is often used in machinery where specific weight distribution or load-bearing requirements need to be met, as it allows for greater flexibility in design. Additionally, there are also rounded steel angles, also known as rounded corner angles or round bars. These angles have rounded edges instead of sharp corners, making them ideal for machinery applications where safety is a concern, as they reduce the risk of injury from sharp edges. Furthermore, there are slotted steel angles, which have one or more holes or slots along their length. These slots allow for easy adjustment and mounting of components, making them suitable for machinery that requires frequent modifications or customization. Lastly, stainless steel angles are another type commonly used in machinery. Stainless steel offers excellent corrosion resistance, making it ideal for machinery that operates in harsh or corrosive environments, such as marine or chemical applications. Overall, the choice of steel angle in machinery depends on the specific requirements of the application, including structural needs, load-bearing capacity, safety considerations, and environmental factors.

Q:Can steel angles be used in the construction of power plants?: Yes, steel angles can be used in the construction of power plants. Steel angles are commonly used in structural applications and are well-suited for supporting heavy loads and providing structural stability. In power plant construction, steel angles can be utilized for various purposes such as framing structural components, supporting equipment and machinery, reinforcing concrete structures, and providing structural integrity to the overall plant infrastructure. Additionally, steel angles offer excellent resistance to corrosion, which is particularly important in power plants where exposure to high temperatures, moisture, and chemicals is common. Overall, the versatility, strength, and durability of steel angles make them a suitable choice for use in the construction of power plants.

Q:Can steel angles be used for stairs?: Yes, steel angles can be used for stairs. Steel angles are commonly used in the construction industry for various purposes, including staircases. They are often used as the structural support for stair treads and risers. Steel angles provide strength and stability to the stairs, making them a popular choice in both residential and commercial buildings. Additionally, steel angles can be easily customized and fabricated to meet specific design requirements, making them versatile for stair construction.

Q:How do steel angles perform in terms of impact resistance?: Steel angles generally perform well in terms of impact resistance. Due to their structural design, steel angles are able to withstand high impact forces and distribute them evenly across their length. This makes them suitable for applications where impact or dynamic loads are expected, such as in construction, industrial machinery, or automotive frames. The high strength and toughness of steel also contribute to its excellent impact resistance. Steel angles are typically made from low carbon steel or alloy steel, which are known for their high tensile strength and ability to absorb energy without fracturing. This enables steel angles to resist deformation and maintain their structural integrity even under heavy impact. Furthermore, steel angles can be further improved in terms of impact resistance by using specific steel grades or by applying surface treatments such as galvanization or powder coating. These treatments can enhance the corrosion resistance and overall durability of steel angles, making them even more resistant to impact and other harsh environmental conditions. However, it is important to note that the specific impact resistance of steel angles can vary depending on factors such as the dimensions, thickness, and material properties of the angle. Therefore, it is recommended to consult with a structural engineer or refer to technical specifications provided by manufacturers to ensure that the steel angle chosen is suitable for the intended application and expected impact loads.

Q:What are the common finishes available for steel angles?: There are several common finishes available for steel angles, depending on the desired aesthetic appeal and level of protection required. Some of the most common finishes include: 1. Mill finish: This is the most basic and untreated finish, which is achieved by leaving the steel angle in its natural state after the manufacturing process. It has a rough, gray appearance and provides minimal corrosion resistance. 2. Hot-dip galvanized: This finish involves immersing the steel angle in a bath of molten zinc, which creates a protective coating on the surface. Hot-dip galvanizing provides excellent corrosion resistance and is commonly used in outdoor applications where the angle will be exposed to harsh environments. 3. Powder coating: This finish involves applying a dry powder to the steel angle, which is then heated and cured to create a durable and decorative coating. Powder coating provides a wide range of colors and textures and offers good corrosion resistance. 4. Painted finish: Steel angles can also be painted using various types of paint, including epoxy, enamel, or acrylic-based coatings. Painting provides a decorative finish and can also offer some degree of corrosion resistance, depending on the type and quality of the paint used. 5. Stainless steel: Steel angles made from stainless steel offer a distinct finish that is resistant to corrosion, staining, and rust. Stainless steel angles are often used in applications where hygiene, aesthetics, and longevity are important, such as in the food processing and medical industries. It's important to consider the specific requirements of your project, including the environment and intended use of the steel angle, when choosing the appropriate finish. Consulting with a steel supplier or expert can help you determine the best finish for your needs.

Q:How do steel angles perform in corrosive environments?: Steel angles perform well in corrosive environments due to their high resistance to corrosion. The presence of alloying elements such as chromium, nickel, and molybdenum in the steel composition enhances its ability to withstand corrosion caused by moisture, chemicals, and other corrosive agents. Additionally, the angles can be further protected through coatings or treatments, such as galvanization or painting, to provide an added layer of defense against corrosion.

1. Manufacturer Overview
Location
Year Established
Annual Output Value
Main Markets
Company Certifications

2. Manufacturer Certificates
a) Certification Name
Range
Reference
Validity Period

3. Manufacturer Capability
a)Trade Capacity
Nearest Port
Export Percentage
No.of Employees in Trade Department
Language Spoken:
b)Factory Information
Factory Size:
No. of Production Lines
Contract Manufacturing
Product Price Range