Square Steel Billet, Square Bar, Mild Steel Billet
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 1000 m.t.
- Supply Capability:
- 50000 m.t./month
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Item specifice
Standard:
GB
Technique:
Hot Rolled
Shape:
Square
Surface Treatment:
Dry
Steel Grade:
Q195,Q215,Q235
Certification:
SGS
Thickness:
60mm-150mm
Width:
60mm-150mm
Length:
6-12m
Net Weight:
23mt
Packaging:
Bare Packing
Square steel billet, square bar, mild steel billet best price from China manufacturer
| Name: | Square bar |
| LENGTH: | 6 meter to 12 meter (+ 50mm) |
| Size: | 100*100, 120*120, 150*150, 200*200 |
| Grade: | 3SP,5SP,Q235,20MnSi. |
| Shape: | Square, Round |
| Technique: | Hot-Rolled |
| Standard: | ASTM/GB |
| BENDING | No more than 5mm in 1 meter No more than 30mm in 6 meter No more than 60mm in 12 meter |
| ANGULAR TWIST | No more than 1 degree per meter and not more than 6 degree over 12 meter length. |
| Chemical composition | C, Si, Mn, P, S, N, etc |
Product Description
Chemical Properties
| Size | 60*60/90*90/100*100/120*120/150*150 |
| Length | 6000mm-12000mm |
| Standard | GB |
| Application | To produce bars or other applications |
| Grade | Q195/Q235/Q275/3SP/5SP/20MnSi |
| Packing terms | TT/LC |
| Package | Mill's standard packing or as client's requirement |
| Delivery time | Within 10-30 days after receiving the deposit or LC |
Chemical Composition
| Standard | C(%) | Mn(%) | S(%) | P(%) | Si(%) |
| Q195 | ≤0.12 | ≤0.50 | ≤0.040 | ≤0.035 | ≤0.30 |
| Q235 | ≤0.20 | ≤1.40 | ≤0.045 | ≤0.045 | ≤0.35 |
| Q275 | ≤0.22 | ≤1.50 | ≤0.045 | ≤0.045 | ≤0.35 |
| 20MnSi | 0.17-0.25 | 1.2-1.6 | ≤ 0.050 | ≤ 0.050 | 0.40-0.80 |
| 3SP | 0.14-0.22 | 0.40-0.85 | ≤ 0.050 | ≤ 0.040 | 0.05-0.15 |
| 5SP | 0.28-0.37 | 0.50-1.00 | ≤ 0.050 | ≤ 0.040 | 0.15-0.30 |
Reasons for choosing us:
1. We have a large substantiality as our backup force.
2. We have many qualified raw material supplier.
3. The company has perfect management mode and advanced processing technology.
4. We have the country's leading production equipment and strong production capacity.
5. Our company has a strong aftersales service platform, and our leaders are glad to make guidance personally for every feedback from customers.
6. Our company has a strong reputation system: SGS, ISO Certification, etc.
- Q:Does anyone know how to make a steel helmet, or does anyone know where to direct me websites-wise? i've just started looking on the web for info, so when i get back here i might've already found some info, but more wouldn't hurt, especially if from people who are interested on the subject. i know nothing about metallurgy, nothing on the art of metal working etc... please help.
- The okorder (Artist Blacksmiths) or on the sites of the two organizations that reproduce old costumes and tools - one is called The Society for Creative Anachronism, not sure of the other. Search terms to use might be hammering a helmet and forging medieval armor
- Q:I've been looking into battle-ready katanas a lot lately. And I've come across some debates between the best forges and steels to be used for them. The functional katanas I use now are Musashi brand katanas, using 1045 carbon steel. They each cost roughly $200-$250. The straight carbon steels are mentioned in the debates, but they aren't very sophisticated in their design. Now the higher end of this middle class of katana ($250-$1000) uses higher carbon. spring, damascus, and other various steels and combinations. I've heard a lot about the strength of damascus steel and it's cutting power. But I look for more than that. I've also been looking at (and for) durability, flexibility, and how well it stands up to contact. So I guess what I'm asking is for the opinion of people who have used these steels, and an answer on what the community thinks is the best steel for a mid range ($250-$1000) battle-ready katana. Looking forward to some good answers.
- There is no such thing as a battle ready katana... if it is not ready for battle - it is not a katana. Having said that: The hardness of the cutting edge depends on the carbon content the better (in general). 1045 is poor quality steel for sword manufacture. Musashi swords are cheap pieces of crap. 1060 is better. Some manufacturers use modern materials that aren't perhaps consistent with traditional manufacture, like 9260 silicon spring steel or even L6 Bainite. Damascus steel is not a type of steel at all. It is a folding technique that creates a wavy grain in the metal. It may or may not mean that a sword is good. No swords will stand up to contact with other swords. They will inevitably be damaged. The best way to find a quality sword is to ask you instructor. There are no quality swords under a thousand dollars. The answer also depends on what you are going to do with the sword. It may also depend on the style or school of swordsmanship.
- Q:I just started playing guitar last year. I never changed the chords. When my sister started taking guitar lessons her teacher said that she needed to change the chords. When i bought the guitar it came with steel strings but i bought nylon strings because they are easier on the fingers. The problem is i already tuned up the guitar but it sounds really bad like if it was not tuned. What can i do about this?
- Guitars okorder /
- Q:What are the different types of steel coil surface coatings?
- Steel coils can be enhanced in terms of durability, corrosion resistance, and aesthetic appearance through the use of various types of surface coatings. The most commonly employed coatings are as follows: 1. Zinc Coatings: These are widely utilized to safeguard steel against corrosion. A layer of zinc is applied to galvanized steel coils, acting as a barrier against moisture and other environmental elements. 2. Galvannealed Coatings: This type of coating combines zinc and iron, providing improved corrosion resistance and enhancing paint adhesion. It is ideal for applications that require painting. 3. Aluminum Coatings: Aluminum coatings are employed to achieve a lightweight and corrosion-resistant surface. Steel coils coated with aluminum are frequently utilized in the automotive industry for body panels and other parts that require high strength and corrosion resistance. 4. Organic Coatings: Organic coatings, typically in the form of paint or powder coatings, offer protection against corrosion. They also provide a wide range of color options for aesthetic purposes. In the construction industry, they are commonly used for roofing and cladding applications. 5. Metallic Coatings: Metallic coatings such as tin, nickel, and chromium can be applied to steel coils to confer specific properties, such as improved electrical conductivity, increased hardness, or enhanced resistance to wear and tear. 6. Ceramic Coatings: Ceramic coatings are employed to achieve high-temperature resistance and thermal barrier properties. They find application in situations where steel coils are exposed to extreme heat or in industrial processes that require thermal insulation. Each type of coating possesses unique properties and advantages, and the selection of a suitable coating depends on the specific requirements of the application. Manufacturers and engineers carefully consider factors such as cost, durability, corrosion resistance, and aesthetic appeal when deciding on the appropriate coating for steel coils.
- Q:How are steel coils used in the production of industrial equipment?
- Steel coils are a vital component in the production of industrial equipment. These coils are large, flat rolled sheets of steel that are typically used as raw material in various manufacturing processes. Firstly, steel coils are used for fabrication purposes, where they are cut, shaped, and welded together to create the framework or structure of industrial equipment. This includes machinery, heavy-duty vehicles, storage tanks, and other industrial components. The coils provide the necessary strength and durability to withstand the demanding conditions faced by industrial equipment. Additionally, steel coils are often formed into specific shapes to produce parts and components for industrial machinery. These parts can include gears, shafts, bearings, brackets, and many others. The versatility of steel allows it to be easily manipulated and fabricated into different shapes and sizes, making it an ideal material for such applications. Moreover, steel coils are also used in the construction of industrial equipment, particularly in the manufacturing of boilers, heat exchangers, and pressure vessels. These coils are typically formed into tubes or pipes, which are then welded or brazed together to create the necessary structure for these equipment. The high strength and heat resistance properties of steel make it the preferred material for such applications, ensuring the safe and efficient operation of industrial processes. In summary, steel coils play a crucial role in the production of industrial equipment. They are used as raw material for fabrication, forming parts and components, and constructing crucial equipment such as boilers and pressure vessels. The durability, strength, and versatility of steel make it an indispensable material in the manufacturing industry.
- Q:What are they worth today? As well as a 1943 steel nickel?
- The article I am inclosing quotes the price at 50 cents, apparently the 1943 copper penny is worth thousands of dollars.
- Q:What are the common methods of protecting steel coils from corrosion during storage?
- There are several common methods used to protect steel coils from corrosion during storage. These methods are employed to prevent moisture and other environmental elements from coming into contact with the steel coils, which can lead to corrosion. 1. VCI (Volatile Corrosion Inhibitor) Packaging: VCI packaging is a widely used method for protecting steel coils. VCI materials are incorporated into the packaging, such as plastic bags or films, which release a vapor that forms a protective layer on the surface of the steel coils. This layer prevents moisture and other corrosive agents from reaching the steel, thus inhibiting corrosion. 2. Oil Coating: Another widely used method is to apply a thin layer of oil on the surface of the steel coils. The oil acts as a barrier, preventing moisture and oxygen from coming into contact with the steel. This method is particularly effective for long-term storage or transportation of steel coils. 3. Desiccants: Desiccants, such as silica gel packets, can be placed inside the packaging to absorb any moisture that may be present. By reducing the humidity levels inside the packaging, the risk of corrosion is minimized. This method is often used in conjunction with VCI packaging or oil coating. 4. Proper Ventilation: Adequate ventilation is necessary to prevent the accumulation of moisture around the steel coils during storage. By allowing air to circulate freely, it helps to reduce the humidity levels and prevents the formation of condensation, which can lead to corrosion. 5. Controlled Environment: Storing steel coils in a controlled environment can be an effective way to prevent corrosion. This involves maintaining a constant temperature and humidity level, which are not conducive to corrosion. Temperature and humidity control can be achieved through the use of air conditioning or dehumidification systems. It is important to note that the specific method or combination of methods used to protect steel coils will depend on various factors, such as the duration of storage, the environmental conditions, and the specific requirements of the steel coils. Regular inspections and maintenance are also crucial to ensure the ongoing protection of the steel coils from corrosion.
- Q:What are the dimensions of steel coils used in bridge construction?
- The dimensions of steel coils used in bridge construction can vary depending on the specific requirements of the project. However, typical dimensions for steel coils used in bridge construction range from 0.5 to 2 inches in thickness and 24 to 72 inches in width.
- Q:I want a good quality, big, strong, steel knife but I want it to be a good price, say around $30 or less, $60 at the most. please add links.
- Sorry, probably aint gonna happen in that $ range. How big of a blade will effect the steel selection. For instance I have one I forged from 52100, a most excellent steel better suited for 5-6 blades. For larger blades either 5160 or L-6 can make an indestructable blade. For 5 and under D-2 is about as fine a steel as you can get. No blade made from these will come cheap, L-6 is only available from custom makers. Save up your money, expect to pay 100 - 200 for a well made blade. You pay cheap prices you get cheap workmanship.
- Q:What are the different methods of tempering steel coils?
- There exist numerous techniques for tempering steel coils, each possessing unique advantages and disadvantages. Some of the most prevalent techniques include: 1. Air cooling: This method, the simplest and most commonly employed, involves heating the coils to a specific temperature and allowing them to cool naturally in the surrounding air. Although relatively speedy and cost-effective, this technique can result in uneven cooling and may lack precise control over the final properties of the steel. 2. Water quenching: In this approach, the steel coils are heated and then rapidly cooled by immersing them in a water bath. Water quenching provides a swifter and more controlled cooling rate than air cooling, resulting in increased hardness and strength. However, it may also cause heightened distortion and the development of internal stresses in the steel. 3. Oil quenching: Similar to water quenching, this method entails immersing the steel coils in an oil bath to rapidly cool them. Oil quenching offers a slower and more uniform cooling rate in comparison to water quenching, leading to reduced distortion and internal stresses. Nevertheless, it yields slightly lower hardness and strength than water quenching. 4. Salt bath quenching: This technique necessitates immersing the steel coils in a heated bath of molten salt for rapid cooling. Salt bath quenching ensures an even and controlled cooling rate, resulting in improved hardness and strength compared to air or water quenching. However, it requires specialized equipment and may not be suitable for all steel types. 5. Induction hardening: In this method, the steel coils undergo induction heating before being rapidly cooled using air, water, or oil quenching. Induction hardening permits precise control over the heating and cooling process, thereby achieving specific hardness and strength properties in desired areas of the steel. Nonetheless, it demands specialized equipment and is generally employed for specific applications or sections of the steel coils. Ultimately, the choice of tempering method relies on various factors, including the desired properties of the steel coils, the type of steel employed, and the specific requirements of the end application.
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Square Steel Billet, Square Bar, Mild Steel Billet
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 1000 m.t.
- Supply Capability:
- 50000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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