However, there are many variables in brass alloys that make brass a metal for a wide range of applications. In order to effectively select the correct brass type that is available in brass rod, critical attributes of the final product have to be considered, including:
What is the necessary tensile strength, yield strength, elongation, and rockwell hardness required in the final product?
Understanding brass’s mechanical properties and knowing if you require a specific elasticity from brass will guide you to the best brass for your application.
is one of the most popular copper alloys. C36000 Brass Rod mechanical properties include:
is a high performance, lead-free* solution. Its mechanical properties include:
*This product complies with the 0.25% weighted average lead content on wetted surfaces in accordance with Safe Drinking Water Act (SDWA) / Federal Public Law NO. 111-380.
is a high strength brass for casting. Its mechanical properties include:
is an arsenic-free and bismuth-free metal. Its mechanical properties include:
is a lead free* bronze ingot. Its mechanical properties include:
Tensile Strength (ksi)Yield Strength (ksi)Elongation (%)ASTM
There are many variations of brass alloys. Certain applications require additional elements that make the brass alloy better suited for the intended application.
Understanding the Chemical Composition of Brass
Brass is a versatile metal and depending on its chemical composition, it can be utilized in a variety of settings. Brass is one of the most commonly utilized man-made metals and is composed of copper and zinc plus may contain other alloying elements like tin, nickel, aluminum, manganese, lead, silicon, phosphorus, and iron. The chemical composition alters the ease at which it is machined, increases or decreases its corrosion resistance, and changes its cost effectiveness. With a multitude of brass options, it can be difficult to determine the best brass for your application. However, understanding the most commonly used brasses will guide your brass selection decision.
Our standard brass products meet our customer’s expectations as the highest machinability of all brass rods. Standard brass is composed of 60-63% copper, 2.5-3.0% lead and about 36% zinc, along with trace amounts of other elements. It is traditionally used to make plumbing fittings, building hardware, and industrial components including adapters, screw machine parts, fluid connectors, valves, gears, and automotive parts.
Low lead brasses have a 60-65% copper composition with approximately 38% zinc composition. They also can have trace amounts of lead, phosphorus, and iron. They are easily recycled and meet plumbing legislation compliant with S3874 and AB1953.
ECO BRASS® has a 73-77% copper content, approximately 3% silicon, 0.1% phosphorus, about 21% zinc and trace amounts of lead, iron, tin, nickel, and manganese. As a machinable, corrosion-resistant, lead-free* brass, it is a superior solution for water supply and plumbing applications.
Like ECO BRASS®, ECO BRONZE® has a 73-77% copper content and approximately 3% silicon, 0.1% phosphorus, about 21% zinc and trace amounts of lead, iron, tin, nickel, manganese and antimony. ECO BRONZE® is a wear resistant bronze.
Where and how the product is being used will determine the brass you need. Will you be installing it in a mechanical, ornamental, electrical, potable water conveyance, or medical environment?
Common End Uses for Brass
Brass is unique in that it can be created with a variety of properties. Brass not only adds a decorative touch to homes and businesses but it also has antimicrobial properties and is resistant to corrosion, thus it is popular for mechanical applications.
Brass is strong, corrosion resistant, antimicrobial, non-magnetic, and machinable; thus brass is ideal for mechanical applications. Whether you need plumbing parts or fittings, marine or automobile applications, or even clock or watch parts, brass is a choice metal.
Brass is commonly thought to be found in industrial settings for mechanical uses. However, it has a universal appeal for decorators, artists, jewelers, and designers. Think about how often you see statues, brass instruments, jewelry, and finishing touches in homes and businesses. Brass is used frequently for decorative purposes.
Brass is a cost effective solution to gold or silver. When decorators want the elegance or glimmer of gold, brass can be an economical option for trim, door handles, and cabinet hardware.
Machinability refers to how well a metal is cut into a final product. The copper and zinc content plus other additions like lead or silicon affects how machinable brass is.
Traditionally, brass is a superior solution because it is easily cut or formed, has minimal wear on tools, and results in smooth surface finish. Standard brass C360 is considered the benchmark alloy in machinability as it has the highest rating of any brass alloy. It machines faster and produces a superior surface than any other brass. It produces more components per machine hour, maintains tighter tolerance, and reduces machine downtime as it has a longer tool life. Its machining chips can be recycled easily.
Standard brass C360 is often used in industrial applications including gears, adapters, screw machine parts, fluid connectors, and lock bodies. It is also commonly used in faucet components, pneumatic fittings, valve parts, and fasteners.
The Brass Warehouse standard brass rod is a cost effective solution for your industrial and plumbing needs.
Different alloying elements may change the color of the desired finished product.
Brass Colors
Brass can come in a variety of colors from gold and silver to brown and even red. Brass color changes as it is manufactured. Further, the color can be manipulated by the amount of zinc and other elements alloyed to copper and adding heat or chemicals to the surface. Brass that has 95% copper and 5% zinc is traditionally a deeper bronze color while brass that has 1% manganese will turn to a darker brown color.
Brass is a popular choice for designers and architects because it enhances residential and commercial spaces.
Did you know that certain brass alloys, depending on the chemistry mixture, may be considered antimicrobial?
The Superior Antimicrobial Solution
Laboratory tests prove that brass has germ killing properties meaning it destroys, kills, and inhibits the growth of disease-causing bacteria, like MRSA, staph, and E.coli. It has continuous and ongoing antimicrobial action, even after repeated wet and dry abrasion and re-contamination.
Brass is proven to be more effective in its antimicrobial properties than stainless steel or other silver-containing coated metals. Brass C69300 is an antimicrobial touch surface approved by the EPA.
While brass has proven to kill more than 99.9% of bacteria within 2 hours and continues to kill 99.9% of bacteria 24 hours a day, it is not a substitute, but rather it is a supplement, for standard infection control practices. Proper handwashing and infection control cleaning techniques must be completed on a continual basis to deter germs.
Given that brass is a mixture of mainly copper and zinc, other elements like lead, silicon, bismuth, phosphorus, arsenic are used to create different brass alloys. With all the combinations and percentages of each element, there are hundreds of lead-free* brass alloys for many applications.
Brass alloys which are utilized in a variety of applications including: Industrial, Transportation, Building & Household, Plumbing, Electrical, Medical, and other applications.
*These products comply with 0.25% weighted average lead content on wetted surfaces in accordance with Safe Drinking Water Act (SDWA) / Federal Public Law No. 111-380.
