high quality equal angle

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Payment Terms:: TT OR LC

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ROUND BAR Details:

Minimum Order Quantity:		Unit:	m.t.	Loading Port:
Supply Ability:		Payment Terms:		Package:	wire bundle

Product Description:

Specifications of Wire Rod Q235:

Steel Grade: Q235, Standard: GB Diameter: 5.5mm, 6.5mm, 7mm,8mm,9mm,10mm,12mm,14mm

Diameter Tolerance:±0.3mm 6.5mm can be drawing into 2mm/8.0mm can be drawing into 3mm

Brand Name: N-RIVER Place of Origin: Hebei, China Mainland Application: construction, building etc

Chemical Composition:

Please kindly find our chemistry of our material based on Q235 as below for your information

Trademark	Rank	Chemical composition (quality score) %
		C	Si	Mn	S	P
		C	Si	Mn	S	P
			≤		≤	≤
Q235	A	0.14-0.22	0.30	0.30-0.65	0.050	0.045
Q235	B	0.12-0.20	0.30	0.30-0.70	0.045	0.045
Trademark	Rank	Pulling Test
		Bend PointΔs/Mpa		Tensile Strength	Elongation Ratioδ5%
					Elongation Ratioδ5%
		Thickness (Diameter) /MM			Thickness (Diameter) /MM
		≤16	16-40		≤16	16-40
		≥			≥
Q235	A	235	225	375-500	26	25
Q235	B	235	225	375-500	26	25

Usage and Applications of Wire Rod Q235:

After hot-rolled the products shaped into coil and delivery as finished product, including round, square, rectangular, hexagonal and so on. Since most of the products are round, it is generally called wire rod. Carbon steel wire rod is widely used in construction and manufacturing. Carbon steel wire rod is mainly used for reinforcement of reinforced concrete and welded structure or reprocessed (roberts , nail, etc.) materials, especially used to produce wire drawing, welding electrode, nails, spring, electronic, precise machinery parts and so on.

Packaging & Delivery of Wire Rod Q235:

Packaging Detail: products are packed in coil and then shipped by container or bulk vessel

Each coil weight: 2-3MT

Delivery Detail: within 45 days after received deposit or LC.

Label: to be specified by customer, generally, each bundle has 1-2 labels

Trade terms: FOB, CFR, CIF

Q:What are the different types of steel angles used in architectural applications?: There are several types of steel angles commonly used in architectural applications, including equal angles, unequal angles, L-shaped angles, and T-shaped angles. These angles are used to provide structural support, enhance aesthetics, and create unique design features in buildings.

Q:Are steel angles available in different grades of steel?: Yes, steel angles are available in different grades of steel. Steel angles are commonly used in construction and manufacturing industries for various applications such as structural support, framing, and bracing. The grade of steel used in steel angles is determined by its chemical composition, mechanical properties, and intended use. Some common grades of steel used for steel angles include A36, A572, and A588. Each grade of steel has specific characteristics that make it suitable for different purposes. For example, A36 steel angles are commonly used for general structural applications, while A572 steel angles have higher strength and are often used in heavy-duty construction projects. The choice of grade depends on factors such as load-bearing capacity, corrosion resistance, and cost considerations.

Q:Can steel angles be used as structural members?: Certainly, structural members can utilize steel angles. In construction and engineering endeavors, steel angles are frequently employed to furnish structural reinforcement and stability. They are commonly utilized to fortify and enhance an assortment of structures, including edifices, bridges, and frameworks. Renowned for their robustness and endurance, steel angles are highly suitable for structural applications. They can be utilized either in combination with other steel components or independently to bear or distribute loads, bolster beams, and confer stability to the overall structure. Moreover, steel angles can be conveniently fabricated and installed, rendering them a versatile and cost-effective choice for structural members in diverse construction projects.

Q:Are steel angles available in different alloys?: Yes, steel angles are available in different alloys. Steel angles are typically made from carbon steel, which is the most common and versatile type of steel. However, there are also other alloys available for specific applications. For example, stainless steel angles are made from an alloy that contains chromium, which provides increased resistance to corrosion. Additionally, there are high-strength low-alloy (HSLA) steel angles that are made with a combination of carbon steel and small amounts of other elements like manganese, phosphorus, or sulfur to enhance their strength and durability. Overall, the availability of different alloys for steel angles allows for a wide range of applications and properties to meet specific needs in various industries.

Q:Can steel angles be used as decorative elements?: Yes, steel angles can be used as decorative elements in various applications such as architectural designs, furniture, and interior decorations. Their sleek and modern appearance, along with their versatility and strength, make them a popular choice for adding a visually appealing touch to spaces.

Q:How do steel angles contribute to the overall aesthetic of a structure?: Steel angles can contribute to the overall aesthetic of a structure in several ways. Firstly, their clean and sleek lines can add a modern and contemporary look to the design. The sharp edges and precise angles of steel angles can create a sense of strength and solidity, giving the structure a bold and industrial feel. Additionally, steel angles can be used to create interesting and dynamic shapes within the architecture. Their versatility allows for unique and eye-catching designs, such as cantilevered balconies or intricate lattice patterns. These visually appealing features can become focal points of the structure and enhance its overall aesthetic appeal. Moreover, steel angles can be used to create a sense of rhythm and repetition in the design. By incorporating them in a consistent pattern or arrangement, they can create a visual harmony and balance. This repetition can be particularly effective in large-scale structures, where the steel angles can help break up the monotony of the façade and add visual interest. Furthermore, steel angles can also contribute to the overall durability and longevity of the structure, which in turn enhances its aesthetic value. Steel is known for its strength and resilience, and when used in angles, it can provide structural support and stability. This durability can ensure that the structure remains visually appealing for years to come, without compromising on safety or integrity. Overall, steel angles play a significant role in the aesthetic of a structure, adding a sense of modernity, strength, and versatility. Their clean lines, dynamic shapes, and durability can all contribute to creating a visually appealing and impactful architectural design.

Q:What are the different testing methods used for quality control of steel angles?: There are several testing methods used for quality control of steel angles to ensure their compliance with industry standards and specifications. These methods include: 1. Visual Inspection: This is the most basic method of quality control, which involves visually inspecting the steel angles for any surface defects such as cracks, pits, or irregularities. Visual inspection helps to identify any obvious defects that may affect the structural integrity or appearance of the angles. 2. Dimensional Inspection: This method involves measuring the dimensions and tolerances of the steel angles to ensure they meet the required specifications. Dimensional inspection is crucial in ensuring the accuracy and consistency of the angles, especially for applications where precise measurements are critical. 3. Mechanical Testing: Mechanical testing methods are used to evaluate the mechanical properties of steel angles, including their strength, hardness, and ductility. These tests involve subjecting the angles to various loads or forces and measuring their response, such as tension, compression, or bending. Common mechanical tests for steel angles include tensile testing, hardness testing, and impact testing. 4. Chemical Analysis: Chemical analysis is performed to determine the chemical composition of the steel angles. This is important as different steel grades have specific composition requirements to ensure their desired mechanical properties. The chemical analysis helps to verify the presence and quantity of key elements such as carbon, manganese, sulfur, and phosphorus, among others. 5. Non-Destructive Testing (NDT): NDT methods are used to inspect steel angles without causing any damage to the material. These techniques include ultrasonic testing, magnetic particle testing, liquid penetrant testing, and radiographic testing. NDT helps detect internal defects, cracks, or abnormalities that may not be visible through visual inspection. 6. Surface Finish Inspection: Steel angles may undergo surface treatments such as galvanizing or painting to enhance their corrosion resistance or aesthetics. Surface finish inspection involves assessing the quality and uniformity of the surface treatment, ensuring that it adheres properly and meets the specified requirements. 7. Microscopic Examination: Microscopic examination involves the use of a microscope to inspect the microstructure of the steel angles. This method can reveal the presence of any internal defects or abnormalities that may affect the structural integrity of the angles. By employing these testing methods, manufacturers and quality control personnel can ensure that steel angles meet the required specifications and standards, ensuring their reliability and suitability for various applications.

Q:Can steel angles be used as reinforcing bars in concrete structures?: Yes, steel angles can be used as reinforcing bars in concrete structures. Steel angles are commonly used for this purpose due to their strength and durability. They provide additional strength to the concrete, preventing cracks and increasing the overall stability of the structure. Steel angles are typically embedded in the concrete to provide reinforcement in areas where additional support is required, such as in beams, columns, and slabs. They are commonly used in construction projects such as bridges, buildings, and other concrete structures.

Q:How do steel angles contribute to the energy efficiency of a building?: Steel angles can contribute to the energy efficiency of a building by providing structural support and reducing thermal bridging. They can be used to create a strong frame, which allows for larger windows and better natural lighting, reducing the need for artificial lighting during the day. Additionally, steel angles can be used as a barrier to prevent heat transfer between different building materials, minimizing heat loss or gain.

Q:What are the different types of steel angles used in shipbuilding?: Various structural purposes in shipbuilding commonly utilize several types of steel angles. These angles are typically crafted from high-strength steel and are intended to confer strength and stability to the ship's structure. Presented below are different steel angle varieties utilized in shipbuilding: 1. Bulb Angles: Specifically designed for ship hull construction, these angles possess a bulbous shape on one side. This unique shape aids in load distribution while adding further strength and stability to the hull structure. 2. L-Shaped Angles: Also known as unequal angles, L-shaped angles find extensive usage in shipbuilding for framing and bracing requirements. With one leg longer than the other, these angles accommodate various applications necessitating varying lengths. 3. Equal Angles: Commonly referred to as L-sections, equal angles consist of two legs of identical length. Shipbuilding extensively employs them for framing and supporting structures, as they confer uniform strength. Their versatility extends to applications such as bulkhead framing and deck support. 4. Flat Bars: While technically not angles, flat bars are frequently employed in shipbuilding for comparable purposes. These bars possess a rectangular cross-section and are primarily used for reinforcement, framing, and connecting different structural components. 5. T-Sections: T-sections, or T-angles, feature a T-shaped cross-section and serve in shipbuilding for structural framing, reinforcement, and component connection. The vertical leg of the T-section imparts additional strength and stability to the structure. 6. Z-Sections: Z-sections, or Z-angles, possess a Z-shaped cross-section and fulfill various shipbuilding purposes such as framing, bracing, and structural support. These angles offer excellent load-bearing capacity and are frequently utilized when maximum strength is required. Ultimately, the selection of steel angles in shipbuilding hinges upon the specific requirements of the structure, encompassing load-bearing capacity, structural design, and intended purpose. The aforementioned steel angle types provide a vast array of options to cater to the diverse demands of ship construction.

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