Steel Round Bar For Bearing

Ref Price:

Loading Port:: China Main Port

Payment Terms:: TT or LC

Min Order Qty:: -

Supply Capability:: -

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 Steel Round Bar For Bearing 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:

Steel Round Bar For Bearing 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 Steel Round Bar For Bearing are durable, strong, and resist corrosion.

Main Product Features:

· Premium quality

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

· Corrosion resistance

· 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

Chinese Standard (HWT)	Weight (Kg/m)	6m (pcs/ton)	Light I (HWT)	Weight (Kg/m)	6m (pcs/ton)	Light II (HWT)	Weight (Kg/m)	6M
100684.5	11.261	14.8	100664.3	10.13	16.4	100644	8.45	19.7
120745.0	13.987	11.9	120724.8	12.59	13.2	120704.5	10.49	15.8
140805.5	16.89	9.8	140785.3	15.2	10.9	140765	12.67	13.1
160886	20.513	8.1	160865.8	18.46	9	160845.5	15.38	10.8
180946.5	24.143	6.9	180926.3	21.73	7.6	180906	18.11	9.2
2001007	27.929	5.9	200986.8	25.14	6.6	200966.5	20.95	7.9
2201107.5	33.07	5	2201087.3	29.76	5.6	2201067	24.8	6.7
2501168	38.105	4.3	2501147.8	34.29	4.8	2501127.5	28.58	5.8
2801228.5	43.492	3.8	2801208.2	39.14	4.2	2801208	36.97	4.5
3001269	48.084	3.4	3001249.2	43.28	3.8	3001248.5	40.87	4
3201309.5	52.717	3.1	3201279.2	48.5	3.4
36013610	60.037	2.7	3601329.5	55.23	3

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:

Steel Round Bar For Bearing

Q:Are there any limitations or restrictions on the use of steel angles?: Indeed, there exist certain limitations and restrictions pertaining to the utilization of steel angles. One of these limitations concerns the maximum load capacity that they can withstand. The load-bearing capacity of steel angles depends on their size, shape, and material composition. Exceeding this capacity can result in structural failure or collapse. Another limitation is associated with the installation and fixing methods of the angles. Typically, steel angles are secured through welding, bolting, or other fastening techniques. The effectiveness and strength of these methods can be influenced by factors like weld quality or the type of fasteners employed. To ensure secure attachment, it is imperative to adhere to proper installation procedures and recommended guidelines. Furthermore, steel angles may face restrictions on their usage in specific environments or applications. For instance, in highly corrosive environments, steel angles may not be suitable unless appropriate protective coatings or materials are utilized. Similarly, in applications where fire resistance is crucial, steel angles may need to be treated with fire-resistant coatings or replaced with fire-resistant materials. Moreover, limitations can arise from the dimensions and lengths of steel angles. Steel angles are available in various sizes and lengths, and careful selection of these dimensions is essential to meet the specific requirements of a project. Factors such as load distribution, span length, and overall structural design must be considered to ensure the suitability of the chosen steel angles for the intended application. To summarize, while steel angles are versatile and widely employed in construction and engineering applications, it is crucial to be aware of their limitations and restrictions. These include load-bearing capacity, installation methods, environmental considerations, and dimensional constraints. Consulting with structural engineers, adhering to industry standards, and implementing proper planning are essential to ensure the safe and effective use of steel angles.

Q:How do you determine the required number of fasteners for a steel angle connection?: To determine the required number of fasteners for a steel angle connection, several factors need to be considered. These include the load being applied, the size and thickness of the angle, the type and strength of the fasteners being used, and any applicable building codes or engineering standards. Typically, calculations or guidelines provided by structural engineers or industry standards are used to determine the minimum number and spacing of fasteners needed to ensure the connection is strong and safe.

Q:How do you determine the required thickness of a steel angle for a specific load?: To determine the required thickness of a steel angle for a specific load, various factors need to be considered. These include the magnitude and direction of the load, the length and support conditions of the angle, and the desired safety factor. By analyzing these factors, engineers can utilize structural analysis techniques and calculations to determine the appropriate thickness of the steel angle that can withstand the given load without experiencing failure or excessive deflection.

Q:Where does channel steel use more? Where does angle iron use more?: Hot rolled stainless steel light channel steel (YB164-63) hot rolled light channel steel is a kind of steel with wide legs and thin wall, which has better economic effect than ordinary hot rolled channel steel. Its specifications range from 5-40#. In 1966, standard specifications ranged from 10-40#. Main applications: building and steel structure etc..

Q:How do steel angles compare to other structural shapes like beams and channels?: Steel angles, beams, and channels are all structural shapes commonly used in construction and engineering projects. While each shape has its own unique characteristics and advantages, steel angles offer specific benefits that make them a popular choice. One key advantage of steel angles is their versatility. They can be used in a wide range of applications, including supporting heavy loads, bracing structures, and providing framework for various structures. Due to their L-shaped design, steel angles can easily be welded or bolted together to create larger structures or frameworks. Compared to steel beams, angles are typically more cost-effective. They require less material to manufacture, making them a more economical choice for projects with budget constraints. Additionally, steel angles are often lighter in weight compared to beams, which can be beneficial when considering transportation and installation costs. Steel channels, on the other hand, offer similar benefits to steel angles but have a different shape. Channels have a U-shaped design, which allows for increased stability and support. They are commonly used for applications where additional strength is required, such as in the construction of bridges, buildings, and machinery. While steel angles may not provide the same level of strength and load-bearing capacity as steel beams or channels, they are still a reliable choice for many structural applications. Their versatility, cost-effectiveness, and ease of installation make them a preferred option for a wide range of construction and engineering projects.

Q:What are the different methods of connecting steel angles?: Different methods can be used to connect steel angles, depending on the application and desired strength and durability. Welding is a widely used technique that involves melting the metals at the joint and allowing them to cool and solidify, creating a strong and permanent bond. Various welding techniques, such as arc welding, MIG welding, or TIG welding, can be employed to achieve a high level of strength and rigidity in the connection. Bolting is another common method that involves using bolts, nuts, and washers to secure the angles together. This method allows for easy disassembly and reassembly if necessary, and the level of tightness and strength in the connection can be adjusted by tightening the bolts. However, bolting may not provide the same level of strength as welding in certain applications. Mechanical connectors offer an alternative to welding and bolting. These pre-engineered devices, such as plates, brackets, or clips, are specifically designed for connecting steel members. They can be fastened to the angles using bolts or screws, providing ease of installation, flexibility, and the ability to accommodate movement and adjustments. Adhesive bonding is another method that involves using industrial-grade adhesives to join steel angles. This technique can provide a strong and durable connection, especially when combined with mechanical fasteners. Adhesive bonding is often used in situations where welding or bolting may not be suitable or practical. When selecting the appropriate method of connecting steel angles, it is important to consider factors such as load-bearing capacity, environmental conditions, and aesthetic requirements. Consulting with a structural engineer or a professional experienced in steel fabrication can help determine the most suitable connection method for a specific project.

Q:What is the keel of the aluminum single board suspended or the welded frame of angle steel?: Light steel keel, is a kind of new building materials, with the rapid development of China's modernization construction, light steel keel is widely used in hotels, airport lounges, car transport station, station, amusement parks, shopping malls, factories, office buildings, building renovation, interior decoration, ceiling set of old buildings and other places. Light steel (paint) keel ceiling has light weight, high strength, adapt to waterproof, shock, dust, sound insulation, sound absorption, constant temperature and other effects, but also has the advantages of short construction period, simple construction and so on.

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:What are the design considerations for incorporating steel angles into a structure?: When incorporating steel angles into a structure, several design considerations need to be taken into account. First and foremost, the load-bearing capacity of the steel angles must be carefully assessed to ensure they can support the intended loads. The dimensions and thickness of the angles should be determined based on the structural requirements and anticipated stress levels. Additionally, the connection details between the steel angles and other structural elements need to be carefully designed to ensure they provide sufficient strength and rigidity. Considerations should include the type of fasteners, welding techniques, and any additional reinforcement required to achieve the desired structural integrity. Furthermore, factors such as corrosion protection, fire resistance, and durability should also be considered during the design process. Appropriate measures should be taken to prevent rust and corrosion on the steel angles, such as applying protective coatings or using stainless steel. Fire-resistant coatings or fireproofing materials may also be necessary, depending on the building's fire safety requirements. Lastly, aesthetics and architectural considerations may come into play when incorporating steel angles into a structure. The design should take into account the desired visual appearance, whether the angles will be exposed or concealed, and how they will integrate with the overall architectural style. In conclusion, the design considerations for incorporating steel angles into a structure involve assessing load-bearing capacity, connection details, corrosion protection, fire resistance, durability, and aesthetic integration.

Q:Are steel angles available in non-standard dimensions?: Steel angles in non-standard dimensions can be obtained. Although standard steel angles are typically manufactured in specific sizes, such as 2x2 inches or 3x3 inches, there are manufacturers and suppliers capable of producing steel angles in custom sizes to fulfill specific project requirements. These custom sizes may involve varying leg lengths, thicknesses, or overall dimensions that are not commonly found in standard steel angles. Achieving the desired dimensions can be accomplished through processes like cutting, bending, and welding when fabricating custom steel angles. Nevertheless, it is important to consider that non-standard dimensions may result in additional time and cost for production compared to readily available standard sizes.

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