• Grade DIN1.2601 /Cr12MoV Die Steel Round Bar System 1
  • Grade DIN1.2601 /Cr12MoV Die Steel Round Bar System 2
  • Grade DIN1.2601 /Cr12MoV Die Steel Round Bar System 3
  • Grade DIN1.2601 /Cr12MoV Die Steel Round Bar System 4
  • Grade DIN1.2601 /Cr12MoV Die Steel Round Bar System 5
  • Grade DIN1.2601 /Cr12MoV Die Steel Round Bar System 6
Grade DIN1.2601 /Cr12MoV Die Steel Round Bar

Grade DIN1.2601 /Cr12MoV Die Steel Round Bar

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Loading Port:
Tianjin
Payment Terms:
TT OR LC
Min Order Qty:
3 m.t.
Supply Capability:
10000 m.t./month

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Item specifice

Type:
Gear Steel
Shape:
Steel Round Bar

 Grade DIN1.2601 /Cr12MoV Die Steel Round Bar

Name

Carbon Steel Round Bar

Shape

Round Bar/Square Bar/Flat Bar/Plate/Wire

Standard

GB/ASTM/SAE/AISI/DIN/JIS/EN/BS

Surface Treatment:

Black/Peeling/Polished/Machined  

Delivery Condition:

Hot Rolled or Forged/Peeled or Black Surface

Test

SGS/UT 100% Elements Testing

Certificate:

ISO/Mill Certificate

Service:

24 hours online service /

more than 20 years trading and manufacture 

Quality Assurance:

the third party inspection, such as SGS, BV, TUV…etc. is acceptable

Packaging Details:

seaworthy packaging or as per customer's packing instruction

 

Specification

Product Name:

 Steel bar 1.2601 Cr12MoV D5 Die steel bar prices

Steel Grade:

 

 

AISI

DIN

GB

 

 

 

 

 

D5

1.2601

Cr12MoV

 

 

 

Chemical compositions:

C

Mo

Mn

V

Cr

Si

S

P

1.45-1.75

0.4-0.6

≤0.40

0.15-0.3

11.0-12.5

≤0.40

≤0.03

≤0.03

Specification:

Flat Bar

Thickness:5-410mm

Width:50-810mm

Round Bar

Diameter:12-610mm

Length Range:

2500mm-5800mm

Delivery condition:

Hot rolled annealed steel in Black surface 

 

Packaging & Delivery

Packaging Detail

Sea worthy packing /as per customer's packing instruction

Delivery Detail

15 ~ 40 days after receiving the deposit

Grade DIN1.2601 /Cr12MoV Die Steel Round Bar

 

Product Show

Grade DIN1.2601 /Cr12MoV Die Steel Round Bar

 

Workshop

Grade DIN1.2601 /Cr12MoV Die Steel Round Bar

FAQ

Are you a trading company or manufacturer?

Manufacturer

What’s the MOQ?

3 metric ton

What’s your delivery time? 

15-35 days after downpayment received

Do you Accept OEM service?

Yes

what’s your delivery terms?

FOB/CFR/CIF

What's the Payment Terms?

30% as deposit,70% before shipment by T/T

Western Union acceptable for small amount.

L/C acceptable for large amount.

Scrow ,Paybal,Alipay are also ok 

Why  choose  us?

Chose happens because of quality, then price, We can give you both. 

Additionally, we can also offer professional products inquiry, products knowledge train (for agents), smooth goods delivery, excellent customer solution proposals.

What's your available port of Shipment?

Main Port, China

What’s your featured  services?

Our service formula: good quality+ good price+ good service=customer's trust

Where are your Market?

Covering more than 160 countries in the world

 

Q:How does special steel contribute to the manufacturing industry?
Special steel contributes to the manufacturing industry by providing superior strength, durability, and performance in various applications. Its unique composition and properties allow for the production of high-quality components and machinery that can withstand extreme conditions, ensuring safety and reliability. Additionally, special steel enables manufacturers to create lightweight and efficient products, leading to cost savings and environmental sustainability.
Q:What are the different aerospace grades of special steel?
In the aerospace industry, various grades of special steel are commonly utilized to meet the stringent safety standards and high-performance requirements. These grades are specifically engineered for aerospace applications. Let's take a look at some of the different aerospace steel grades: 1. One of the steel grades, known as 300M, stands out for its exceptional strength and toughness. It finds frequent use in aircraft landing gears, structural components, and other demanding applications. 2. Another widely employed alloy steel in the aerospace sector is 4340. This steel grade boasts high strength and good hardenability, making it suitable for critical components such as gears and shafts. 3. Stainless steel grade 17-4 PH offers a unique combination of high strength, corrosion resistance, and good toughness. It is commonly found in aerospace applications, including aircraft engine components, landing gears, and structural parts. 4. Similarly, 15-5 PH stainless steel shares similarities with 17-4 PH in terms of high strength and corrosion resistance. It is often chosen for aerospace applications where weight reduction is crucial, such as aircraft structural components. 5. The 300 series stainless steels, such as grades 301, 302, and 304, are frequently employed in aerospace applications due to their excellent corrosion resistance, low magnetic permeability, and favorable strength-to-weight ratio. These steels find use in aircraft structures, fuel tanks, and components that face harsh environments. 6. Although not technically steel, titanium alloys are widely utilized in aerospace applications thanks to their exceptional strength, low density, and high corrosion resistance. Grades like Ti-6Al-4V are commonly employed in aircraft structures, engine components, and landing gears. These examples represent only a portion of the diverse aerospace grades of special steel used in the industry. Each grade possesses specific properties and characteristics that render them appropriate for various applications within the aerospace field.
Q:How does special steel contribute to the power generation sector?
Special steel contributes to the power generation sector by offering enhanced strength, durability, and corrosion resistance properties required for critical components such as turbine blades, shafts, and boiler tubes. This high-performance steel ensures efficient power generation by withstanding extreme temperatures and pressures, thereby increasing the overall efficiency and reliability of power plant operations.
Q:How does special steel perform in extreme temperature conditions?
Special steel is designed to perform exceptionally well in extreme temperature conditions. It has a high tolerance for both low and high temperatures, allowing it to maintain its structural integrity and mechanical properties even in the harshest environments. This makes special steel an ideal choice for applications that involve extreme heat or cold, such as aerospace, energy production, and industrial processes.
Q:What are the specific requirements for special steel used in the mining drill bit industry?
The specific requirements for special steel used in the mining drill bit industry are focused on durability, toughness, and resistance to wear and corrosion. Firstly, the steel used in mining drill bits must have excellent durability to withstand the harsh and demanding conditions of the mining environment. The drill bits are subjected to high levels of impact, vibration, and stress, so the steel must possess high strength and hardness to prevent deformation or breakage. Secondly, toughness is crucial for drill bit steel as it needs to withstand the repetitive and intense forces encountered during drilling operations. The steel should have good fracture toughness to resist crack propagation and prevent premature failure. Furthermore, resistance to wear is essential for drill bit steel, as it needs to maintain its cutting edge and performance over extended periods of time. The steel should possess high wear resistance to withstand the abrasive nature of the rocks and minerals being drilled. In addition to wear resistance, the steel used in mining drill bits must also exhibit resistance to corrosion. The mining environment often involves exposure to water, chemicals, and various corrosive agents. Therefore, the steel should have suitable corrosion resistance properties to prevent rusting and degradation. Overall, the special steel used in the mining drill bit industry must meet these specific requirements of durability, toughness, wear resistance, and corrosion resistance to ensure reliable and efficient drilling operations in the mining sector.
Q:What are the different types of spring steel?
There are several types of spring steel, including high carbon spring steel, alloy spring steel, stainless steel, and blue tempered spring steel. Each type has different properties and is used for various applications in industries such as automotive, construction, and manufacturing.
Q:What are the different types of tool steels used in special steel?
Special steel applications commonly utilize various types of tool steels, each designed to possess exceptional hardness, wear resistance, toughness, and heat resistance. These steels are ideal for tooling and cutting applications. Some of the types of tool steels used in special steel are as follows: 1. Carbon Tool Steel: With high carbon content ranging from 0.60% to 1.5%, this type offers excellent hardness and wear resistance, making it suitable for drills, taps, and cutting tools. 2. High-Speed Steel (HSS): HSS is an alloy steel containing elements like tungsten, molybdenum, chromium, and vanadium. It provides exceptional heat resistance, hardness, and toughness, retaining its cutting edge even at high temperatures. HSS is commonly used in drill bits, milling cutters, and other cutting tools. 3. Cold Work Tool Steel: Specifically designed for room temperature or lower temperatures, this type offers excellent toughness, wear resistance, and strength. It is used in blanking, piercing, and forming dies. 4. Hot Work Tool Steel: Developed to withstand high temperatures without sacrificing hardness and strength, these steels possess good thermal conductivity, resistance to thermal fatigue, and deformation. They find applications in forging dies, extrusion dies, and die casting molds. 5. Shock-Resisting Tool Steel: Designed to resist shock and impact loads, this type offers excellent toughness, strength, and wear resistance. It is commonly used in hammers, chisels, and pneumatic tools. 6. Stainless Tool Steel: Stainless tool steels contain high levels of chromium, providing excellent corrosion resistance. They are used in applications where resistance to rust and corrosion is crucial, such as surgical instruments, molds, and cutlery. 7. Powder Metallurgy Tool Steel: Manufactured using a powder metallurgy process, these steels offer precise control over composition and microstructure. They exhibit excellent wear resistance, high toughness, and good machinability, finding applications in high-speed cutting tools and forming tools. Overall, the various types of tool steels used in special steel applications possess a wide range of characteristics and properties to meet the specific requirements of cutting, forming, and tooling applications.
Q:How does special steel contribute to the manufacturing of aerospace components?
Special steel plays a crucial role in the manufacturing of aerospace components by offering superior strength, durability, and heat resistance properties. This type of steel, specifically designed for aerospace applications, ensures the structural integrity and reliability of crucial aircraft parts, such as landing gears, turbine blades, and engine components. Additionally, special steel's unique composition allows for reduced weight, thus enhancing fuel efficiency and improving overall aircraft performance. By providing these essential characteristics, special steel contributes significantly to the safety, efficiency, and advancement of aerospace manufacturing.
Q:How does the carbon content affect the properties of special steel?
The carbon content in special steel plays a crucial role in determining its properties. The addition of carbon to steel alters its microstructure and influences various mechanical and physical properties. The primary effect of carbon content is on the hardness and strength of the steel. Increasing the carbon content in special steel leads to an increase in its hardness. This is because carbon atoms occupy the interstitial sites in the iron lattice, which creates a distortion in the crystal structure, making it more resistant to deformation. Higher carbon content also results in a greater martensitic transformation during heat treatment, which further enhances the hardness of the material. Furthermore, the strength of special steel is significantly influenced by carbon content. Higher carbon levels lead to increased strength due to the formation of stronger and more numerous carbide precipitates. These carbides act as obstacles to dislocation movement, making it more difficult for the steel to deform under load. However, it is important to note that the increase in carbon content also comes with some trade-offs. As the carbon content rises, the ductility of the steel decreases. This means that the material becomes less able to deform without fracturing. High carbon content can make the steel brittle, reducing its toughness and impact resistance. In addition to hardness and strength, carbon content affects other properties of special steel. It influences the steel's wear resistance, as higher carbon content leads to the formation of harder carbides that can resist wear and abrasion. Carbon also affects the steel's machinability, with higher carbon content making the material more difficult to machine due to increased hardness. In conclusion, the carbon content has a significant impact on the properties of special steel. It affects the hardness, strength, ductility, toughness, wear resistance, and machinability of the material. Therefore, careful consideration of the desired properties and application requirements is necessary when determining the appropriate carbon content for special steel.
Q:How does special steel perform in terms of creep resistance?
Special steel performs exceptionally well in terms of creep resistance. It is specifically designed to withstand high temperatures and long-term exposure to stress, making it highly resistant to deformation or failure under such conditions. Its unique composition and heat treatment processes enhance its ability to maintain structural integrity, making it a preferred choice for applications where creep resistance is crucial, such as in power plants, aerospace components, and high-temperature industrial environments.

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