-
- Stainless Steel
- Meter Electric Box
- Junction Box
- Outdoor Tv Box
- Blog
- Contact
- Newsletter
- Whatsapp 8615951276160
HM is a reputable and trusted custom CNC brass parts supplier in China.
Strict quality control, precise CNC brass parts machining, low MOQ, and short lead time make HM No.1 in the industry.
With decades of experience, we accurately handle all your custom CNC milling, drilling, and turning brass parts.
With our sets of 5-axis CNC machines, HM handles complex designs of custom brass parts with ultra-precision.
We accept many file formats of your custom brass parts, including .dwg, .pdf, .sat, and .dxf, amongst others.
As a CNC brass parts factory with highly qualified engineers, we help with all CAD drawings. Please tell us what you want; HM will handle the CAD drawing.
HM uses a range of brass grades to match your application, including C26000, C24000, C35300, or C36000.
From CNC milling, CNC turning to CNC drilling, HM makes small and large CNC brass parts, including valve, gas fittings, connector, pins, and many more.
Tell us your industry, and HM will machine the CNC brass parts you need.
HM cost-effective and precise CNC brass parts include nozzles, pipe joints, pins connectors, probes, and many more.
We maintain tight tolerances and guarantee a superior surface finish with zero defects.
HM, thru-feed grinding ensures burr-free surfaces. We handle a range of diameters for all cylindrical CNC brass parts.
HM has an unlimited capacity for all applications, even for complex CNC brass parts.
Our CNC turning services include knurling, grooving, parting, boring, and facing.
Through HM’s “zero defect” policy, we adopt 3 level testing, including CNC machine tool accuracy testing, brass material testing, and CNC machining process control.
HM partners with third-party inspectors, such as SGS to test brass material composition.
With HM strict quality control, all our CNC brass components guarantee long service life, withstand high stress, and are extremely strong.
HM has a product return policy and warranty for all CNC brass parts for quality assurance.
HM supports OEM custom CNC brass components.
Depending on your CNC brass component use, we choose high-grade brass.
HM brass material must pass strict quality testing and individual chemical element verification.
We source all your brass raw material from reputable companies.
HM custom brass parts CNC machining uses red brass, cartridge brass, or low brass.
Our brass guarantees wear resistance, durability, and excellent mechanical properties.
Tell us the custom CNC brass parts you need, and the HM team will choose a suitable brass for you.
HM offers unlimited options for all CNC brass parts.
Whether you need large or small CNC brass parts, HM handles all CNC machining brass parts, including CNC turning brass parts and CNC milling brass parts.
HM machines simple to complex CNC brass parts, within a tight budget and on short notice.
We offer turnkey solutions to all our clients globally, from brass fittings, brass fasteners, replacements brass parts, or any OEM CNC brass components.
Whether you want painted, polished, plated, heat-treated, or coated custom CNC brass parts, HM offers unlimited surface treatments.
We ensure all CNC brass parts have the best finish for aesthetics and a long service lifespan.
Aerospace machined CNC aluminum components require tight tolerances—such as 4μm—durability, and temperature resistance. They must have high precision and accuracy to specifications.
With our advanced milling, turning, and other manufacturing capabilities, we are able to manufacture state-of-the-art CNC aerospace parts. Using a 3D CAD, Hengming Mold (HM) supplies CNC rapid prototyping of aircraft landing gears, fuselage sections, etc.
CNC aluminum hardware parts make up the most common aluminum product category we supply. As a professional CNC machined parts manufacturer in China, we make hardware for all sorts of industries and applications.
Our staff will optimize the design to suit your requirements. Your custom CAD will turn into quality aluminum tools, equipment, frames, and other hardware components.
Aluminum CNC machining is used to manufacture components such as printed circuit boards, casings and enclosures, heat sinks, connectors, and more. Precise CNC processes deliver the best results in the making of electric and electronic parts.
Our competitive accuracy of performance will help your business develop the best electronic products.
The auto industry uses aluminum for many important engine parts, such as pistons, radiators, and cylinder heads. Aluminum CNC machining helps to automate the manufacturing process to keep up with vehicle construction and repair demand.
From medium to high production volumes, our custom CNC machining offers rapid production times and optimized procedures, maintaining high accuracy.
Medical tools also require very tight tolerances. Our CNC machines are equipped with the latest technology for horizontal and vertical accuracy, as well as high-speed production and advanced surface finishing capabilities.
Manufacturers of medical tools must have the ISO 13485 standard. Some examples of medical CNC machined aluminum parts are bone implants, surgical instruments, and components for medical electronic equipment like MRI machines.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elit tellus, luctus nec ullamcorper mattis, pulvinar dapibus leo.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elit tellus, luctus nec ullamcorper mattis, pulvinar dapibus leo.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elit tellus, luctus nec ullamcorper mattis, pulvinar dapibus leo.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elit tellus, luctus nec ullamcorper mattis, pulvinar dapibus leo.
Brass is a transition metal alloy, and it is produced by combining copper and zinc in various ratios.
Atoms of the two constituents substitute one another in the identical crystalline structure.
It is made to achieve different mechanical, electrical, and chemical characteristics.
Brass is similar to bronze, another copper alloy that uses tin rather than zinc.
Both bronze and brass contain trace amounts of cyanide, lead, phosphorus, metal, chromium, and silicon.
1/8 IPS thread refers to a common type of threading used in plumbing and lighting fixtures. It has a diameter of 1/8 inch and follows the IPS (Iron Pipe Size) standard. This thread size is often used for connecting small pipes and fittings securely.
The types of brass are as follows:
No, IPS (Iron Pipe Size) and NPT (National Pipe Thread) are not the same. While they both involve threading for pipes and fittings, IPS refers to the size of the pipe, whereas NPT refers to the type of threading used. IPS is used for non-threaded pipes, while NPT is used for threaded pipes.
There are countless reasons why brass parts should be used, such as the following:
The machinability of this brass lowers speed that produces the best results.
This is the most commonly used brass grade in applications requiring severe bending.
Brass has great cold working characteristics and it can be drawn easily with good results.
It could be heat treated, solidified, molded, and drawn in a fair amount of heat.
It can be effectively and quickly cut with gas, flame, and laser cutting machinery.
It responds to fluctuations in production demand, backup inventory levels can be built.
1/8-27 refers to a specific thread size notation. The “1/8” indicates the diameter of the threaded portion in inches, and the “27” indicates the number of threads per inch. This notation is commonly used for plumbing and lighting applications.
No, IPS threads and NPT threads are not compatible due to their differences in design and function. Attempting to connect these two types of threads can lead to leaks and improper fits.
Brass parts are resistant to corrosion and are suitable for use in harsh environments.
They are used in situations where there is a high risk of corrosion and standard brasses do not meet the requirements.
High water temperatures, the presence of chlorides, and varying moisture attribute all play a role.
In water boiler systems, brass is ideal.
To avoid long-term failures, this brass alloy must be manufactured with good caution as well as efficient production.
There are numerous brass parts finishes are available to give excellent touches like the following:
Milling is a term used to describe the process of Mills cutting material into nearly any 3D shape using rotating tools. Mills are capable of producing parts with extremely close tolerances.
Waterjets use a high-pressure flow of water and rough to trim metal sheets into 2D parts. Waterjet cutting works well with most materials and produces clean edges.
CNC lathes are used to feed hand tools into movable material. Turning is primarily used to create accurate, cylindrical parts.
EDM machines manufacture parts by removing material with recurring sparks. They are suggested for unique details that necessitate pointed interior edges and high dimensional precision.
Finishing methods improve the look, sturdiness, and corrosion resistance of a surface.
Powder coating, anodizing, polishing, sharpening, and other finishing techniques are also available.
Brass parts yielding, milling, tapping, grooving, and other services are available as additional services.
Second-hand parts may need to be processed further after they are manufactured.
There are different uses of brass parts and it is commonly used for the following:
Brass parts are used in numerous industrial applications, such as:
Tiny brass parts are preferred by businesses because they are easy to machine, cost-effective, and extremely durable.
Due to their low strength and weight, molded brass fittings are commonly applied to various electronic hardware.
Brass parts have smooth, low-friction metal that can be quickly machined, molded, sliced, and punched.
It is an ideal material for components that must be corrosion-resistant.
It has a higher degree of malleability than copper or nickel.
Due to their low dew point and fluid velocity, brass parts are reasonably simple elements to cast.
The properties of the brass can be altered by ranging the portions of copper and zinc, resulting in soft and hard brasses.
Nowadays, most brass composites are reused.
By transferring the scrap next to a strong magnet, it can be detached from ferrous metal.
Scrap brass is transported directly to a foundry, where it is liquefied and recreated into billets.
Billets are warmed and molded into the shape and size desired.
Because of the overall soft texture of brass, it is often possible to machine it without the need for drilling process.
Brass Parts are indeed a beneficial product and have a lot of advantages like the following:
The cost of brass is influenced by a number of factors, chief among them being the cost of the raw materials used to produce it – copper and zinc. Both of these metals have seen their prices increase due to increasing demand and occasionally, supply chain disruptions. Furthermore, the manufacturing process for brass is more complex than for simpler metals, contributing to its overall cost.
Despite its rising cost, brass can be considered cheap in comparison to other metals, like gold or platinum. This is due to the relative abundance and lower cost of its base components – copper and zinc. Moreover, brass’s durability and corrosion resistance add to its cost-effectiveness over time.
Brass is a type of metal, but it is not steel. It’s an alloy composed primarily of copper and zinc. While steel is also an alloy, it is primarily made of iron and carbon.
Brass is an alloy primarily composed of copper and zinc. The proportions of these elements can be varied to create a range of brasses with varying properties. In addition to copper and zinc, brass can also contain small amounts of other elements like lead, tin, or arsenic to enhance certain properties.
Brass is generally less expensive than pure copper. This is because zinc, the other major component of brass, costs less than copper, which reduces the overall cost of the material.
The “better” material between brass and steel largely depends on the application. Brass offers superior corrosion resistance, electrical conductivity, and aesthetic appeal. On the other hand, steel is typically stronger and more suitable for high-stress applications.
Brass is generally more expensive than aluminum. This is due to the higher cost of copper and zinc, the primary components of brass, compared to aluminum.
The manufacture of brass products typically involves several key steps: mining and refining of copper and zinc, melting and combining these elements to form brass, and finally shaping and finishing the brass into the desired product. This might involve processes like casting, extrusion, drawing, or machining, depending on the specific product.
The world of precision turned brass components is vast and diverse, spanning numerous industries from automotive to electronics. Among these, Hengming Mold (HM) stands out as a leading manufacturer. This company, located in Zhejiang, China, has a proven track record of delivering high-quality, precision-engineered brass components. Their expertise, refined over years of industry presence, coupled with their commitment to quality, places them among prominent manufacturers such as Cox Manufacturing in the U.S. and Pioneer Service Inc. in the U.S. Whether you’re sourcing for large-scale industrial projects or smaller, specialized applications, these manufacturers offer solutions tailored to your specific needs.
IP and CC threads are not standard thread designations. It’s possible that you’re referring to IPS (Iron Pipe Size) thread and NPT (National Pipe Thread) thread, in which case the main difference lies in the type of threading used and their applications.
IPS stands for Iron Pipe Size, which is a standardized system used to refer to the dimensions of pipes. It’s important to note that IPS does not imply threaded pipes; it simply indicates the size of the pipe based on its inner diameter.
IPS stands for Iron Pipe Size, which refers to the dimensions of a pipe, while NPT stands for National Pipe Thread, which refers to the type of threading used for pipes and fittings.
3/8 IPS thread refers to a threading size commonly used in plumbing applications. It has a diameter of 3/8 inch and follows the IPS (Iron Pipe Size) standard.
PT (Pipe Thread) and G thread are different thread standards. PT is a Japanese standard, while G thread, also known as BSPP (British Standard Pipe Parallel), is a British standard. They have variations in thread angles and applications.
1/8 NPT refers to a pipe thread size. The “1/8” indicates the diameter of the threaded portion in inches, and NPT (National Pipe Thread) specifies the type of threading used. This size is commonly used in various plumbing connections.
1/8 thread size refers to a standard threading size often used in plumbing and piping. It indicates a diameter of 1/8 inch for the threaded portion. This size is frequently used for connecting small pipes and fittings.
The difference lies in the threading standards. NPT (National Pipe Thread) is a U.S. standard with a tapered thread, while BSPT (British Standard Pipe Taper) is a British standard, also with a tapered thread. They have different thread angles and applications.
No, PT (Pipe Thread) and BSP (British Standard Pipe) are not the same. PT refers to a Japanese standard, while BSP refers to a set of British standards for pipe threads.
“Number 8 thread” is not a standard thread designation. It’s important to specify the threading system (such as NPT, BSP, etc.) to accurately determine the characteristics of the thread.
NPT (National Pipe Thread) commonly has threads per inch (TPI) ranging from 27 TPI to 8 TPI, depending on the pipe size. The specific TPI is determined by the thread size and is an important factor in creating proper seals.
“8 IPS” is not a standard thread designation. To provide accurate information, it’s necessary to specify the context or threading system you are referring to.
Thread sizes are usually specified in terms of diameter and threads per inch (TPI). Common examples include 1/8, 1/4, 3/8, and so on, indicating the diameter of the threaded portion, while the TPI specifies the number of threads per inch.
Owning a filling machine requires understanding its functions and ensuring its proper maintenance to avoid any harm to its functionality.
This article highlights 9 common mistakes that can cause permanent damage to your machine. Negligence such as over-filling or improper cleaning of the filling head can hinder its production and lead to costly repairs in terms of both time and money.
Owning a filling machine requires understanding its functions and ensuring its proper maintenance to avoid any harm to its functionality.
This article highlights 9 common mistakes that can cause permanent damage to your machine. Negligence such as over-filling or improper cleaning of the filling head can hinder its production and lead to costly repairs in terms of both time and money.
Owning a filling machine requires understanding its functions and ensuring its proper maintenance to avoid any harm to its functionality.
This article highlights 9 common mistakes that can cause permanent damage to your machine. Negligence such as over-filling or improper cleaning of the filling head can hinder its production and lead to costly repairs in terms of both time and money.
Owning a filling machine requires understanding its functions and ensuring its proper maintenance to avoid any harm to its functionality.
This article highlights 9 common mistakes that can cause permanent damage to your machine. Negligence such as over-filling or improper cleaning of the filling head can hinder its production and lead to costly repairs in terms of both time and money.