High Quality Steel Angle Beams for Construction Structure

High Quality Steel Angle Beams for Construction Structure

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Loading Port:: China main port

Payment Terms:: TT OR LC

Min Order Qty:: 50 m.t.

Supply Capability:: 10000 m.t./month

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Item specifice

Standard:

AISI,JIS,GB,BS,DIN,API,EN,ASTM

Technique:

Hot Rolled,Cold Rolled

Shape:

Angle

Surface Treatment:

Galvanized,Coated

Steel Grade:

customize

Certification:

ISO,SGS,BV

Thickness:

customize

Length:

customize

Net Weight:

customize

High Quality Steel Angle Beams for Structure of Construction

Product Description:

OKorder is offering High Quality Steel Angle Beams for Structure of Construction 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:

High Quality Steel Angle Beams for Structure of Construction 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 High Quality Steel Angle Beams for Structure of Construction 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

EQUAL ANGLES SIZES
a(mm)	a1(mm)	thickness(mm)	length
25	25	2.5---3.0	6M/12M
30	30	2.5---4.0	6M/12M
38	38	2.5	6M/12M
38	38	3.0---5.0	6M/12M
40	40	3.0---6.0	6M/12M
50	50	3	6M/12M
50	50	3.7---6.0	6M/9M/12M
60	60	5.0---6.0	6M/9M/12M
63	63	6.0---8.0	6M/9M/12M
65	65	5.0---8.0	6M/9M/12M
70	70	6.0---7.0	6M/9M/12M
75	75	5.0---10.0	6M/9M/12M
80	80	6.0---10.0	6M/9M/12M
90	90	6.0---10.0	6M/9M/12M
100	100	6.0---12.0	6M/9M/12M
120	120	8.0-12.0	6M/9M/12M
125	125	8.0---12.0	6M/9M/12M
130	130	9.0-12.0	6M/9M/12M
140	140	10.0-16.0	6M/9M/12M
150	150	10---15	6M/9M/12M
160	160	10---16	6M/9M/12M
180	180	12---18	6M/9M/12M
200	200	14---20	6M/9M/12M

High Quality Steel Angle Beams for Construction Structure

Q:Can steel angles be painted?: Yes, steel angles can be painted. The process of painting steel angles involves cleaning the surface, applying a primer, and then applying the desired paint. The primer helps to create a smooth and even surface for the paint to adhere to, while also providing additional protection against corrosion. Once the primer is dry, the paint can be applied using a brush, roller, or spray gun. It is important to choose a paint that is specifically designed for metal surfaces to ensure proper adhesion and durability. Overall, painting steel angles is a common practice to enhance their appearance and provide additional protection against rust and corrosion.

Q:Are steel angles suitable for architectural cladding?: Architectural cladding can indeed utilize steel angles effectively. Due to their robustness, strength, and adaptability, steel angles find wide usage in architectural settings. They offer a sturdy framework capable of supporting a range of cladding materials, including metal panels, glass, and composites. Architects can customize steel angles to suit various sizes and shapes, enabling them to achieve desired aesthetics and design specifications. Moreover, steel angles allow for easy fabrication and installation, making them a cost-efficient option for architectural cladding. Nevertheless, when selecting steel angles for cladding applications, it is crucial to consider factors like corrosion resistance, weather resistance, and maintenance requirements.

Q:Are steel angles affected by temperature changes?: Yes, steel angles are affected by temperature changes. Like all materials, steel expands when heated and contracts when cooled. This expansion and contraction can cause dimensional changes in steel angles, leading to potential issues in structural stability and fit. It is important to consider the temperature range that steel angles will be exposed to in their intended application and account for these changes during design and installation. Additionally, extreme temperature fluctuations can also affect the mechanical properties of steel, such as strength and ductility, which should be taken into consideration when selecting the appropriate steel angle for a specific application.

Q:Can steel angles be used in signage?: Yes, steel angles can be used in signage. Steel angles are commonly used as a structural support for signs, providing stability and durability. They can be easily welded or bolted together to create a sturdy framework for mounting signage materials such as panels, letters, or graphics. Additionally, steel angles offer versatility in terms of design options, allowing for various shapes and sizes of signage to be constructed.

Q:Can steel angles be used for ladder rungs?: Yes, steel angles can be used for ladder rungs. Steel angles are often used in construction and fabrication for their strength and durability. They can provide a solid and secure surface for climbing on ladders. However, it is important to take into consideration the specific requirements and regulations for ladder rungs, such as the dimensions, spacing, and anti-slip properties. These factors ensure the safety and stability of the ladder for users. It is recommended to consult relevant safety guidelines and standards before using steel angles as ladder rungs.

Q:How do you determine the deflection of a steel angle?: To determine the deflection of a steel angle, you need to consider various factors such as the material properties of the steel, the dimensions of the angle, and the applied load. The deflection of a steel angle can be determined using mathematical equations and formulas, specifically those related to structural mechanics. Firstly, you need to determine the moment of inertia (I) of the steel angle, which depends on its cross-sectional shape and dimensions. The moment of inertia represents the resistance of the angle to bending and is a crucial parameter in calculating deflection. The moment of inertia can be obtained from engineering handbooks or calculated using mathematical formulas specific to the shape of the angle. Next, you need to determine the load that is applied to the steel angle. This load can be in the form of a concentrated force, a distributed load, or a combination of both. The magnitude and distribution of the load will influence the deflection of the angle. Once you have determined the moment of inertia and the applied load, you can use the appropriate deflection equation or formula to calculate the deflection of the steel angle. The specific equation used will depend on the type of loading and the boundary conditions of the angle (e.g., whether it is simply supported or fixed at both ends). For example, if the steel angle is subjected to a concentrated load at its midpoint and is simply supported, you can use the equation for deflection of a simply supported beam under a concentrated load. This equation relates the deflection (δ) to the applied load (F), the length of the angle (L), the moment of inertia (I), and other relevant constants. It is important to note that the deflection calculated using these equations is an approximation and does not take into account factors such as material imperfections, fabrication tolerances, or the effects of dynamic loading. Therefore, it is always advisable to consult relevant design codes, standards, or engineering handbooks to ensure accurate and safe design practices when determining the deflection of a steel angle.

Q:What are the common finishes available for steel angles?: The desired aesthetic appeal and level of protection required will determine the available finishes for steel angles. Common finishes include: 1. Mill finish: The steel angle is left in its natural state after manufacturing, resulting in a rough, gray appearance with minimal corrosion resistance. 2. Hot-dip galvanized: By immersing the steel angle in molten zinc, a protective coating is created on the surface. This finish provides excellent corrosion resistance and is suitable for outdoor applications in harsh environments. 3. Powder coating: Dry powder is applied to the steel angle, then heated and cured to create a durable and decorative coating. Powder coating offers a wide range of colors and textures, along with good corrosion resistance. 4. Painted finish: Various types of paint, such as epoxy, enamel, or acrylic-based coatings, can be used to paint steel angles. Painting provides a decorative finish and can offer some degree of corrosion resistance, depending on the paint type and quality. 5. Stainless steel: Stainless steel angles have a distinct finish that is resistant to corrosion, staining, and rust. They are commonly used in industries like food processing and medicine, where hygiene, aesthetics, and longevity are important. When choosing the appropriate finish, it is important to consider the specific requirements of your project, including the environment and intended use of the steel angle. Consulting with a steel supplier or expert can help determine the best finish for your needs.

Q:Can steel angles be used in modular building systems?: Yes, steel angles can be used in modular building systems. Steel angles are commonly used in construction due to their strength and versatility. They provide structural support and stability to the building system. In modular construction, steel angles can be used as framing members, connectors, or reinforcements, depending on the specific requirements of the building design. They can be easily attached and integrated into the modular system, allowing for efficient and cost-effective construction. Additionally, steel angles offer durability and resistance to various environmental factors, making them suitable for modular buildings that need to withstand different conditions. Overall, steel angles are a reliable and practical choice for modular building systems.

Q:How do you measure the dimensions of a steel angle?: To determine the dimensions of a steel angle, a combination of tools such as a measuring tape or ruler, a protractor, and a square can be used. Begin by measuring the length of one side of the angle using a measuring tape or ruler. Position the tape or ruler along the side of the angle and observe the measurement. Subsequently, measure the length of the other side of the angle in the same manner. Ensure that the starting point is the same as the first side for precise results. For measuring the angle itself, employ a protractor. Align the protractor's base with one side of the angle and verify that the other side corresponds to the appropriate degree marking on the protractor. Consult the protractor's reading to ascertain the angle of the steel angle. Lastly, a square can be utilized to confirm if the angle truly measures 90 degrees. Place the square against the two sides of the angle and confirm that it perfectly aligns with both sides. If alignment is achieved, then the angle is, indeed, 90 degrees. Please bear in mind that these measurements may be approximate and could slightly differ due to manufacturing tolerances.

Q:How are steel angles protected against atmospheric corrosion?: There are various methods available to protect steel angles from atmospheric corrosion. One commonly used method is the application of a protective coating, such as paint, on the surface of the steel angles. This coating acts as a barrier, preventing direct contact between the steel and moisture or oxygen, which are the main causes of corrosion. Another method of protection is galvanization. Galvanization involves coating the steel angles with a layer of zinc, either through hot-dip galvanization or electroplating. The zinc acts as a sacrificial layer, corroding instead of the steel. This sacrificial corrosion process helps safeguard the steel angles from atmospheric corrosion. Apart from coatings, inhibitors can also be used to protect steel angles. Inhibitors are substances that can be added to the environment or applied directly to the steel surface to slow down or prevent corrosion. These inhibitors work by forming a protective film on the steel surface or by altering the chemical environment to reduce corrosion. Regular maintenance and inspection are crucial in protecting steel angles against atmospheric corrosion. This includes cleaning the surface of the steel angles to remove any dirt or debris that can trap moisture and speed up corrosion. It is also important to promptly repair any damaged or deteriorated coatings to ensure continuous protection against corrosion. In conclusion, a combination of protective coatings, galvanization, inhibitors, and regular maintenance is necessary to effectively shield steel angles from atmospheric corrosion and prolong their lifespan.

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