Brass CNC Machining

STCNC Machining provides high-quality brass parts in small batches and mass production. Our brass components boast excellent mechanical properties, accuracy, and conductivity. We utilize 3-axis, 4-axis, and 5-axis CNC milling and turning processes.

CNC Machining Brass Materials

Brass, a non-ferrous metal alloy, possesses a soft and golden surface, making it easily drillable, machinable, sawable, and punchable. Due to its corrosion resistance and low friction properties, brass is an excellent material for parts where these characteristics are crucial.

Available Materials

Brass Cz121 | C360 | 2.0401 | CuZn36Pb3

Brass CZ121 offers the highest possible machinability of any copper alloy.Featured with good strength and Corrosion Resistant.Suits for Parts needs low fraction.

Brass C360

Brass C360 Featured with High tensile ,Natural corrosion resistance.and Great Machinability .High density of C360 brass makes it well-suited for use in heavy industrial parts

Get Your Brass Machined Parts in the Soonest Lead time from 5 Days!

More About Brass CNC Machining

Brass machining

Brass machining produces custom parts and components from brass material using machine tools, such as lathes, mills, and CNC machines. Brass is a popular material for machining due to its properties, including:

Machinability: Brass is relatively easy to machine compared to other metals, making it a cost-effective choice for producing parts.

Corrosion resistance: Brass is resistant to corrosion, making it ideal for use in various applications, including plumbing and electrical components.

Electrical conductivity: Brass has good electrical conductivity, making it ideal for electrical components and applications requiring electrical conductivity.

Aesthetics: Brass has a warm and attractive appearance, making it suitable for applications where appearance is essential, such as decorative or architectural elements.

Brass machining is a precise and controlled process that involves cutting, shaping, and finishing the brass material to produce a finished part or component. The brass machining process can include turning, drilling, tapping, milling, and grinding.

Brass machining is commonly used in various industries, including electrical, plumbing, HVAC, automotive, and aerospace. The process allows for producing precise, custom parts and components with tight tolerances, making it ideal for applications where accuracy and precision are essential.

Brass machining Manufacturer

Many manufacturers specialize in brass machining and offer a wide range of brass machining services. Some of these manufacturers are equipped with advanced CNC machining centers, which allow for precise and efficient production of brass parts.

To find a brass machining manufacturer, search online for local or regional brass machining companies. You can also search for companies specializing in brass machining by visiting trade shows or industry events or contacting industry associations or trade organizations.

When selecting a brass machining manufacturer, it’s essential to consider factors such as the quality of their work, their experience in brass machining, their capacity and lead times, and their pricing. You should also consider the location of the manufacturer and the shipping costs involved in getting the parts to your site.

To better understand the manufacturer’s capabilities and quality of work, you can request samples of their work or speak to references or past customers. You can also discuss your requirements in detail with the manufacturer to ensure they have the necessary experience and expertise to produce the needed parts.

Overall, finding a reliable and experienced brass machining manufacturer is essential for ensuring that you receive high-quality parts in a timely and cost-effective manner.

Brass Custom Parts

Brass custom parts are components or products that are manufactured specifically to meet the unique requirements of a particular application or customer. These parts are typically made using brass as the primary material and are produced using various machining processes, such as CNC milling , turning, drilling, and tapping, among others.

Custom brass parts are widely used in various industries, including plumbing, electrical, HVAC, automotive, and aerospace. They are valued for their high strength, corrosion resistance, and ability to withstand high temperatures.

To manufacture custom brass parts, you typically need to provide a design that includes specifications such as material type, dimensions, tolerances, surface finish, and any other relevant requirements. The manufacturer will then use this information to produce the custom parts according to your specifications.

Custom brass parts can be produced in small quantities or large production runs, depending on your requirements. To meet specific performance and aesthetic needs, they can also be finished with various surface treatments, such as plating, polishing, and anodizing.

Custom brass parts are a versatile and cost-effective solution for various applications. With the ability to produce parts with precise tolerances, high accuracy, and repeatability, custom brass parts can provide a reliable and long-lasting solution for many manufacturing needs.

Frequently Asked Questions

A CNC machine for brass machining is a computer numerical control (CNC) machine used to produce parts and components from brass material. CNC machines are automated machine tools that use computer programs to control their movements and make precise parts with high accuracy and repeatability.

The CNC machine typically consists of a workpiece spindle, cutting tools, a control system, and a bed that supports the workpiece and cutting tools. The control system is programmed with the design for the part that needs to be machined, and the CNC machine uses this information to control the movement of the cutting tools and produce the desired part.

CNC machines can perform various machining operations, including turning, milling, drilling, tapping, and grinding. These machines are commonly used in electrical, plumbing, HVAC, automotive, and aerospace industries, where precision and accuracy are important.

Overall, CNC machines offer several advantages over traditional manual machining methods, including increased productivity, reduced lead times, improved accuracy, and reduced waste. These machines allow for the production of complex, precise parts and components with tight tolerances and high repeatability, making them ideal for use in a wide range of applications.

The cost of brass machining per hour can vary based on several factors, including the type of machining, machine type, location, and volume discounts. However, the hourly rate for brass machining can generally range from $50 to $200 or more per hour.

It’s essential to remember that the hourly rate is just one aspect of the total cost of brass machining. Other factors, such as the cost of the raw materials, the complexity of the part, and any additional finishing or assembly work required, can also impact the overall cost of the machining project.

To obtain an accurate estimate of the cost of brass machining, it’s best to work with a reputable machine shop and provide them with detailed information about the parts you need machined, including the material, dimensions, tolerances, and any special requirements. The machine shop will provide you with a precise quotation of your parts.

A CNC machine for Brass machining can be used to produce a wide variety of parts and components, including:

Fittings and adapters: Brass fittings and adapters are commonly used in plumbing and HVAC systems due to their resistance to corrosion and ability to withstand high temperatures.

Electrical components: Brass is a good conductor of electricity, making it an ideal material for electrical components such as connectors and terminal blocks.

Valves and actuators: Brass is commonly used to manufacture valves and actuators due to its high strength and resistance to corrosion.

Gears and pulleys: CNC machines can be used to produce bags and pulleys for a variety of applications, including automotive, industrial, and consumer goods.

Fasteners: CNC machines can produce various fasteners, including screws, nuts, and bolts, for use in multiple industries.

Decorative items: CNC machines can produce decorative items such as jewelry, sculptures, and home decor.

Precision parts and prototypes: CNC machines can produce precise and accurate details and prototypes for various applications, including aerospace, medical devices, and consumer goods.

Overall, CNC machines offer a versatile and cost-effective solution for producing various parts and components in various industries. With the ability to make parts with high accuracy, repeatability, and precision, Brass CNC machines are an essential tool for many manufacturers and engineers.

The speed and feed rates used during brass machining can significantly impact the quality and efficiency of the machining process. Speed and feed refer to the rotational speed of the cutting tool and the rate at which the tool moves into the material, respectively.

The ideal speed and feed rates for brass machining depend on several factors, including:

Machine type: Different types of machines, such as lathes and mills, may have different capabilities and limitations about speed and feed rates.

Tool type: The cutting tool can also impact the speed and feed rates. For example, a high-speed steel (HSS) tool may require a different speed and feed rate than a carbide tool.

Material type: The type of brass machined material can impact the speed and feed rates. For example, leaded brass may be machined at different rates than lead-free brass.

Part geometry: The machined part’s complexity and size can also impact the speed and feed rates. Larger, more complex parts may require slower speeds and feed to ensure a good finish and prevent tool breakage.

In general, it is recommended to start with a slower speed and feed rate and gradually increase them until the desired surface finish and tool life is achieved. It’s important to use the manufacturer’s recommendations for speed and feed rates as a starting point and make adjustments based on the machining process’s specific conditions.

Working with an experienced brass machinist and following best practices for brass machining can help ensure the optimal speed and feed rates are used for each specific machining project.