CuZn39Pb2: A Comprehensive Look at This Industry-Leading Alloy
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When it comes to materials that balance strength, machinability, and corrosion resistance, CuZn39Pb2 stands out as a versatile and reliable brass alloy. Whether you’re working in automotive manufacturing, plumbing, or electrical engineering, CuZn39Pb2 has a proven track record across a wide range of industries. But what makes this brass alloy so special? How does it compare to other materials, and why should you consider it for your next project?
In this comprehensive guide, we’ll dive deep into everything you need to know about CuZn39Pb2. We’ll cover its composition, properties, applications, specifications, and pricing. Plus, we’ll compare it to other alloys and discuss its advantages and limitations. By the end of this article, you’ll have a full understanding of how CuZn39Pb2 can meet your material needs.
Overview
CuZn39Pb2 is a brass alloy consisting mainly of copper (Cu), zinc (Zn), and a small amount of lead (Pb). The alloy is often referred to as free-cutting brass due to the presence of lead, which significantly improves its machinability. This makes it an ideal material for precision components that require extensive machining without compromising on performance.
Key Features :
- High machinability: The addition of lead improves cutting performance, reducing tool wear and manufacturing costs.
- Moderate strength: Balances strength and ductility, making it suitable for parts that require both durability and the ability to deform without breaking.
- Good corrosion resistance: Suitable for use in freshwater, mildly acidic, and alkaline environments.
- Excellent formability: Can be easily shaped through processes like bending, drawing, and stamping, making it versatile for a wide variety of applications.
Composition and Properties
The composition of CuZn39Pb2 is carefully designed to provide optimal machinability, workability, and corrosion resistance. Let’s break down the chemical makeup and discuss its important mechanical and physical properties.
Chemical Composition
Element | Percentage (%) |
---|---|
Copper (Cu) | 59 – 60 |
Zinc (Zn) | 38 – 39 |
Lead (Pb) | 1.5 – 2.5 |
Iron (Fe) | ≤ 0.1 |
Other Elements | Trace amounts |
Mechanical and Physical Properties
Property | Value |
---|---|
Tensile Strength | 350 – 450 MPa |
Yield Strength | 150 – 300 MPa |
Elongation | 25 – 30% |
Density | 8.47 g/cm³ |
Hardness (HB) | 80 – 120 HB |
Thermal Conductivity | 120 W/m·K |
Electrical Conductivity | 27% IACS |
Melting Point | 870 – 900°C |
Notable Properties
- Machinability: The lead content (up to 2.5%) significantly improves machinability, allowing for faster cutting speeds and longer tool life. This makes CuZn39Pb2 ideal for high-precision parts that require detailed machining.
- Corrosion Resistance: While not as corrosion-resistant as pure copper, CuZn39Pb2 performs well in environments such as freshwater, lightly acidic, and alkaline atmospheres.
- Workability: CuZn39Pb2 is easy to cold work, meaning it can be bent, drawn, and shaped without cracking, which is important for complex part designs.
- Thermal and Electrical Conductivity: CuZn39Pb2 offers good thermal conductivity, making it suitable for heat transfer applications, and its electrical conductivity is suitable for low-power electrical components.
Applications
CuZn39Pb2’s combination of machinability, strength, and corrosion resistance makes it a popular choice across many industries. Whether you’re designing automotive parts, plumbing fixtures, or electrical connectors, CuZn39Pb2 offers the versatility to meet your manufacturing needs.
Common Applications
Industry | Typical Applications |
---|---|
Automotive | Fuel connectors, valve bodies, sensor housings |
Plumbing | Fittings, valves, faucets, pipe connectors |
Electrical | Terminals, connectors, switch components |
Machinery | Gears, bushings, precision mechanical parts |
Aerospace | Fasteners, hydraulic components, electrical connectors |
Consumer Goods | Decorative hardware, locks, keys, door handles |
Why CuZn39Pb2 Is Preferred for These Applications
- Automotive: CuZn39Pb2’s excellent machinability allows for the production of complex fuel connectors and sensor housings with tight tolerances. The alloy’s good corrosion resistance ensures durability in engine environments.
- Plumbing: CuZn39Pb2’s corrosion resistance and formability make it ideal for fittings, valves, and pipe connectors that come into contact with water and steam.
- Electrical: With its decent electrical conductivity, CuZn39Pb2 is frequently used in connectors and terminals. Its machinability allows for the creation of precise, intricate electrical components.
- Machinery: CuZn39Pb2 is often used for bushings and gears that require both strength and machinability. Its ability to withstand wear and tear makes it useful for high-precision mechanical components.
Specifications, Sizes, and Standards
Like any engineering material, CuZn39Pb2 is available in various sizes, grades, and forms to meet different manufacturing requirements. Below are the most common specifications and standards for CuZn39Pb2.
Common Specifications and Standards
Specification | Description |
---|---|
ASTM B16 | Standard for free-cutting brass rod, bar, and shapes |
EN 12164 | European standard for copper and copper alloys |
DIN 17660 | German standard for wrought copper alloys |
JIS H3250 | Japanese standard for brass rods |
Available Sizes and Forms
Form | Size Range |
---|---|
Rods | Diameter: 5 mm to 150 mm |
Sheets/Plates | Thickness: 0.5 mm to 50 mm |
Tubes | Diameter: 6 mm to 100 mm |
Wires | Diameter: 0.5 mm to 10 mm |
These sizes can be customized to meet the specific needs of different applications, and manufacturers often offer cut-to-size services to ensure that the material fits the exact specifications of your project.
Suppliers and Pricing
Pricing for CuZn39Pb2 can vary based on factors such as form (e.g., rods, sheets, tubes), supplier location, and market conditions. Below is a general overview of common suppliers and typical pricing for CuZn39Pb2.
Suppliers and Price Range
Supplier | Location | Price Range (per kg) | Lead Time |
---|---|---|---|
ThyssenKrupp | Germany | $12 – $26 | 1-3 weeks |
Aviva Metals | USA | $13 – $28 | 2-4 weeks |
Shanghai Metal Corp | China | $9 – $20 | 3-5 weeks |
Smiths Metal Centres | UK | £10 – £24 | 1-2 weeks |
Factors Influencing CuZn39Pb2 Pricing
- Form: Pricing can vary widely depending on whether you are purchasing rods, sheets, or tubes, with more processed forms generally costing more.
- Supplier Location: Depending on where the supplier is located, shipping costs and import duties can significantly impact the total price.
- Market Conditions: The prices of copper and zinc fluctuate based on global demand and commodity markets, which in turn affects the price of CuZn39Pb2.
Advantages and Limitations
Like all materials, it has its strengths and weaknesses. Understanding these can help you determine whether it’s the right fit for your project.
Advantages and Limitations
Advantages | Limitations |
---|---|
Excellent machinability: Lead improves cutting performance, making CuZn39Pb2 ideal for high-precision machining. | Lead content: The presence of lead may be restricted in certain industries, particularly those involving potable water. |
Good corrosion resistance: Suitable for use in freshwater and mildly acidic environments. | Corrosive environments: CuZn39Pb2 is not suitable for highly corrosive environments such as seawater or aggressive chemicals. |
Cost-effective: Compared to higher copper alloys, CuZn39Pb2 is more affordable, balancing performance and price. | Lower strength: CuZn39Pb2 may not offer the same strength as other brass alloys, limiting its use in high-load applications. |
Good electrical conductivity: Suitable for low-power electrical components. | Not ideal for high-current applications: Due to its lower conductivity compared to pure copper, it’s not suitable for high-current electrical uses. |
Formability: Can be easily cold-worked into a variety of shapes, making it versatile for different applications. | Environmental concerns: The lead content may pose environmental and health concerns during disposal and recycling. |
Comparing CuZn39Pb2 with Other Brass Alloys
When selecting the right material for your project, it’s important to compare it with other similar materials. Below, we’ll take a look at how CuZn39Pb2 stacks up against other brass alloys in terms of strength, machinability, and other key properties.
CuZn39Pb2 Compared to Other Brass Alloys
Property | CuZn39Pb2 | CuZn36Pb2 | CuZn40Pb2 | CuZn37 (CW508L) |
---|---|---|---|---|
Tensile Strength | 350 – 450 MPa | 350 – 480 MPa | 350 – 470 MPa | 330 – 450 MPa |
Machinability | Excellent | Excellent | Excellent | Good |
Corrosion Resistance | Good | Good | Good | Moderate |
Electrical Conductivity | 27% IACS | 26 – 30% IACS | 25% IACS | 27% IACS |
Formability | Good | Good | Good | Very Good |
Key Comparisons
- CuZn39Pb2 vs. CuZn36Pb2: Both alloys offer excellent machinability due to the presence of lead, but CuZn36Pb2 can offer slightly higher tensile strength, making it better suited for applications requiring a bit more strength.
- CuZn39Pb2 vs. CuZn40Pb2: CuZn40Pb2 is very similar to CuZn39Pb2 in terms of machinability and corrosion resistance, but CuZn40Pb2 might be preferred for applications requiring higher tensile strength.
- CuZn39Pb2 vs. CuZn37: CuZn37 offers better formability, making it ideal for parts that require extensive bending or drawing. However, CuZn39Pb2 excels in machinability, making it the better choice for high-precision machined components.
Frequently Asked Questions (FAQ)
To help you better understand CuZn39Pb2, here are answers to some commonly asked questions.
Question | Answer |
---|---|
What is it used for? | It is widely used in automotive parts, plumbing fixtures, electrical connectors, and precision machined components. |
How much lead is in it? | It contains between 1.5% to 2.5% lead, which improves machinability but may limit its use in certain applications. |
Is it easy to machine? | Yes, it has excellent machinability, making it ideal for parts that require detailed machining and precision. |
Can it be used in potable water systems? | Due to its lead content, CuZn39Pb2 may not comply with certain regulations for potable water systems, so alternatives may be required. |
What is the tensile strength of it? | It typically has a tensile strength ranging from 350 to 450 MPa, making it strong enough for many mechanical applications. |
Is it resistant to corrosion? | Yes, it offers good corrosion resistance in freshwater and mild environments, but it may not be suited for highly corrosive settings like seawater. |
Conclusion
It is a versatile, high-performance brass alloy that offers an excellent balance of machinability, strength, and corrosion resistance. Its lead content makes it ideal for precision machining, while its good formability allows it to be shaped into complex parts. Whether you’re working in automotive, plumbing, or electrical industries, CuZn39Pb2 provides reliability and cost-effectiveness.
While it may not be suited for highly corrosive environments or potable water systems due to its lead content, it remains an excellent choice for various other applications. By understanding its composition, properties, and limitations, you can confidently use it in your next project, knowing that it will deliver the performance you need.
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