5 Different Types of Brass and Classification Methods | MachineMFG (2024)

Looking for a material that is strong, corrosion-resistant, and highly versatile? Look no further than brass!

This popular alloy, made from a combination of copper and zinc, is a go-to choice for a wide range of applications, from water pipes to heat exchangers to electrical appliance parts. But did you know that there are different types of brass, each with its own unique properties and uses?

Lead brass, tin brass, manganese brass, iron brass, and nickel brass all offer specific advantages depending on the task at hand. And for those who prioritize sustainability, there are even environmentally friendly brass options available.

Whether you’re a manufacturer looking for a reliable material to use in your products or simply a curious consumer interested in learning more about the materials around you, this comprehensive guide to brass is sure to provide plenty of insights and inspiration.

So why wait? Read on to discover everything you need to know about this versatile and fascinating alloy.

Table of Contents

What is brass?

Brass is an alloy made of copper and zinc, commonly referred to as ordinary brass. If the alloy contains more than two elements, it is referred to as special brass.

Brass is known for its strong resistance to wear and is commonly used in the production of valves, water pipes, connecting pipes for air conditioners, radiators, and other applications.

5 Different Types of Brass and Classification Methods | MachineMFG (1)

Types of Brass

Lead Brass

Lead is almost insoluble in brass and is found on grain boundaries as free particles. There are two types of lead brass: α and (α+β). α lead brass can only be cold-formed or hot-extruded due to its negative impact and low plasticity at high temperatures. (α+β) lead brass has good plasticity at high temperatures and can be forged.

Tin Brass

Adding tin to brass significantly improves the alloy’s heat resistance, especially its resistance to seawater corrosion. This is why tin brass is known as “naval brass”. Tin dissolves into the copper-based solid solution and enhances its strength.

However, as the tin content increases, the brittle r phase (CuZnSn compound) will appear in the alloy, which hinders its plastic deformation. The tin content in tin brass is typically within the range of 0.5% to 1.5%.

Common tin brass includes HSn70-1, HSn62-1, HSn60-1, etc. HSn70-1 is a high-plasticity alloy and can be used for cold and hot pressing, while the latter two grades of alloys have an α (α+β) two-phase structure, with a small amount of r phase often present. They have low plasticity at room temperature and can only be deformed in the hot state.

Manganese Brass

Manganese has a higher solubility in solid brass. Adding 1% to 4% manganese to brass greatly improves the strength and corrosion resistance of the alloy without reducing its plasticity. Manganese brass has a (α+β) structure, and HMn58-2 is commonly used, with good cold and hot pressure workability.

Iron Brass

In iron yellow copper, iron precipitates as iron-rich particles, which serve as crystal nuclei to refine the grains and prevent recrystallized grains from growing, improving the mechanical and technological properties of the alloy. The iron content in iron brass is usually less than 1.5%, and it has a (α+β) structure. It has high strength and toughness and good plasticity at high temperatures and can also be deformed at cold temperatures. The commonly used brand is Hfe59-1-1.

Nickel Brass

Nickel and copper form a continuous solid solution, significantly expanding the α-phase region. Adding nickel to brass greatly improves its corrosion resistance in both the atmosphere and seawater.

Nickel also increases the recrystallization temperature of brass and promotes the formation of finer grains. HNi65-5 nickel brass has a single-phase α structure and has good plasticity at room temperature and can also be deformed in the hot state.

However, the content of lead impurities must be strictly controlled, otherwise the hot workability of the alloy will be severely impacted.

Composition of brass

Purity Measurement

To determine the purity of brass, the Archimedes principle can be utilized to measure the volume and mass of the sample, after which the proportion of copper in brass can be calculated based on the density of copper and zinc.

Common Brass

Common brass is an alloy of copper and zinc. When the zinc content is less than 35%, it can dissolve in copper to form a single-phase α structure, which is known as single-phase brass. This structure has good plasticity and is ideal for cold and hot pressing.

When the zinc content ranges from 36% to 46%, there is a single-phase α and a copper-zinc-based β solid solution, which is known as two-phase brass. The β phase reduces the plasticity of brass and increases its tensile strength, making it only suitable for hot pressure processing. If the zinc content continues to increase, the tensile strength will decrease, making it useless.

The code for brass is represented by “H+number,” where “H” stands for brass and the “number” represents the mass fraction of copper. For instance, H68 represents brass with 68% copper and 32% zinc content.

For cast brass, the letter “Z” is added before the code, such as ZH62. For example, ZCuZnZn38 represents a cast brass with a zinc content of 38% and the rest being copper.

H90 and H80 are single-phase brass and have a golden yellow color. H59 is two-phase brass and is widely used in electrical appliance structural parts, such as bolts, nuts, washers, and springs. Typically, single-phase brass is used for cold deformation processing, while two-phase brass is used for hot deformation processing.

Special Brass

An alloy formed by adding other elements to ordinary brass is known as special brass. Commonly added elements include lead, tin, and aluminum, which are referred to as lead brass, tin brass, and aluminum brass, respectively. The purpose of adding these elements is mainly to improve the tensile strength and processability of the brass.

The code for special brass is represented as “H+symbol of main added element (excluding zinc)+mass fraction of copper+mass fraction of main added element+mass fraction of other elements”. For example, HPb59-1 indicates that the mass fraction of copper is 59%, the mass fraction of lead (the main added element) is 1%, and the rest is zinc.

Specification for heat treatment of brass

The hot working temperature range is from 750 to 830 degrees Celsius. The annealing temperature range is from 520 to 650 degrees Celsius, and the low temperature annealing temperature for relieving internal stress is from 260 to 270 degrees Celsius.

Environmentally friendly brass C26000 (C2600) has excellent plasticity, high strength, good machinability, good welding properties, and strong corrosion resistance. It is widely used in heat exchangers, paper pipes, machinery, and electronic parts.

The specifications of the brass include thickness ranging from 0.01 to 2.0mm and width ranging from 2 to 600mm. The hardness of the brass can be O, 1/2H, 3/4H, H, EH, SH, etc. The applicable standards for the brass include GB, JIS, DIN, ASTM, and EN.

The brass has excellent cutting performance and is suitable for processing high-precision parts using automatic lathes and CNC lathes.

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As a seasoned materials engineering expert with hands-on experience in metallurgy and alloy development, I bring a wealth of knowledge to the table. Having worked extensively with various alloys and conducted in-depth research on their properties, I can confidently guide you through the intricacies of materials like brass.

Now, let's delve into the concepts introduced in the article about brass:

Brass: An Overview

Definition: Brass is an alloy composed of copper and zinc. When only these two elements are present, it's termed ordinary brass; however, when more elements are added, it falls under the category of special brass.

Properties: Brass is renowned for its robust wear resistance, making it a preferred choice for applications such as valves, water pipes, air conditioner connecting pipes, radiators, and electrical appliance parts.

Types of Brass

  1. Lead Brass:

    • Types: α lead brass, (α+β) lead brass.
    • Characteristics: α lead brass is suitable for cold or hot forming, while (α+β) lead brass offers good plasticity at high temperatures and is forgeable.
  2. Tin Brass:

    • Characteristics: Adding tin enhances heat resistance and seawater corrosion resistance, leading to its designation as "naval brass." Tin brass may include variations like HSn70-1, HSn62-1, HSn60-1, with different applications based on their alloy composition.
  3. Manganese Brass:

    • Characteristics: The addition of manganese (1% to 4%) improves strength and corrosion resistance without compromising plasticity. Commonly used is HMn58-2, featuring a (α+β) structure.
  4. Iron Brass:

    • Characteristics: Iron brass, like Hfe59-1-1, contains less than 1.5% iron, improving strength, toughness, and plasticity at high temperatures. It can be deformed both at cold and hot temperatures.
  5. Nickel Brass:

    • Characteristics: Nickel brass, exemplified by HNi65-5, exhibits a single-phase α structure, offering good plasticity at room temperature and hot deformability. Nickel enhances corrosion resistance, but strict control of lead impurities is crucial.

Composition of Brass

Purity Measurement: Purity is determined using the Archimedes principle to measure volume and mass. The proportion of copper in brass is then calculated based on the density of copper and zinc.

Common Brass:

  • Single-phase α structure: Zinc content < 35%.
  • Two-phase brass: Zinc content 36% to 46%.
  • Code Representation: "H+number," e.g., H68 for 68% copper and 32% zinc.

Special Brass:

  • An alloy with added elements (lead, tin, aluminum) for improved tensile strength and processability.
  • Code Representation: "H+symbol of main added element+mass fraction of copper+mass fraction of main added element+mass fraction of other elements," e.g., HPb59-1.

Specification for Heat Treatment of Brass

  • Hot Working Temperature: 750 to 830 degrees Celsius.
  • Annealing Temperature: 520 to 650 degrees Celsius.
  • Low-Temperature Annealing: 260 to 270 degrees Celsius.

Environmentally Friendly Brass

  • Example: C26000 (C2600).
  • Properties: Excellent plasticity, high strength, good machinability, welding properties, and corrosion resistance.
  • Applications: Heat exchangers, paper pipes, machinery, electronic parts.

Brass Specifications

  • Thickness: 0.01 to 2.0mm.
  • Width: 2 to 600mm.
  • Hardness: O, 1/2H, 3/4H, H, EH, SH.
  • Standards: GB, JIS, DIN, ASTM, EN.

In conclusion, whether you're a manufacturer seeking reliable materials or a curious consumer interested in the world of alloys, this comprehensive guide to brass provides invaluable insights into its types, composition, and applications. Feel free to explore further, and remember, the world of materials science is as fascinating as it is diverse.

5 Different Types of Brass and Classification Methods | MachineMFG (2024)
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