CAPABILITIES
ABOUT CNC MACHINING AND MANUFACTURING SERVICE
CNC Machining Process | |
Drilling, Thread Milling, Broaching, Tapping, Spline, Reaming, Parting/Cutting, Profiling, Facing, Turning, Threading, Internal Forming, Pocketing, Knurling, Countersinking, Boring, Counter boring, Gear Hobbing | |
Machinery Axis | 3- Axis, 4-Axis, 5-Axis |
Industry Standard | DIN, GB, JIS, ASNI, ASME, ASTM, SAE, ISO, Mil-Spec, RoHs |
In accordance with relevant industry standards and customer company standards | |
CNC Machining Tolerances | |
Feature | Description |
Maximum Part Size | Milled parts up to 80” x 48” x 24” (2,032 x 1,219 x 610 mm). Lathe parts up to 62” (1,575 mm) length and 32” (813 mm) diameter. |
General Tolerances | Tolerances on metals will be held to +/- 0.005" (+/- 0.127 mm) in accordance with ISO 2768 unless otherwise specified. Plastics and composites will be +/- 0.010”. |
Precision Tolerances | Maijin Metal can manufacture and inspect to tight tolerances per your drawing specifications including drawing's callouts. |
Minimum Feature Size | 0.020” (0.50 mm). This may vary depending on part geometry and chosen material. |
Threads and Tapped Holes | Maijin Metal can accommodate any standard thread size. We can also machine custom threads; these will require a manual quote review. |
Edge Condition | Sharp edges are broken and deburred by default |
Surface Finish | The standard finish is as-machined: 64 Ra or better. Additional finishing options can be specified when getting a quote. |
CNC Machining Finishes | Standard (As-Milled) |
Zinc Plating | |
Tin Plating | |
Electroless Nickel Plating | |
Passivation | |
Tumbled | |
Bead Blast | |
Anodized (Type II Or Type III) | |
PTFE Impregnated Hard Anodize | |
Chem Film (Chromate Conversion Coating) | |
Powder Coat | |
Electropolishing | |
Silver Plating | |
Gold Plating |
Metal CNC Machining Materials | |
CNC Machining Aluminum Alloys | Aluminum 6061 Aluminum 5052 Aluminum 2024 Aluminum 6063 Aluminum 7050 Aluminum 7075 |
CNC Machining Copper Alloys | C11000 |
CNC Machining Bronze Alloys | C52100 |
CNC Machining Brass Alloys | C3600 C3602 C3604 |
CNC Machining Stainless Steel Alloys | Stainless Steel 15-5 |
Stainless Steel 17-4 | |
Stainless Steel 18-8 | |
Stainless Steel 303 | |
Stainless Steel 304 | |
Stainless Steel 316/316L | |
Stainless Steel 416 | |
Stainless Steel 410 | |
Stainless Steel 420 | |
Stainless Steel 440C | |
CNC Machining Steel Alloys | Steel 1018 |
Steel 1020 | |
Steel 1045 | |
Steel 1144 | |
Steel 1213 | |
Steel 12L14 | |
Steel 1215 | |
Steel 4130 | |
Steel 4140 | |
Steel 4340 | |
Alloy steel 52100/SUJ2 | |
A2 Tool Steel | |
O1 Tool Steel | |
CNC Machining Titanium Alloys | TA1、TA2 、TC4 |
Plastic CNC Machining Materials | ABS、Delrin (Acetal)、Nylon 6/6、PC (Polycarbonate) PEEK、Polypropylene、PTFE (Teflon)、PE、PVC |
Explore our full CNC manufacturing capabilities
CNC MACHINING PARTS INDUSTRIES
We specialize in CNC machining parts and custom fasteners, and in the product category we share a small portion of recently produced products, which are also recently requested by customers. We use the form of video intuitive, comprehensive display of the product. Product materials include stainless steel, carbon steel, brass, aluminum, alloy steel, bearing steel, plastic and other materials.
Maijin Metal offers a range of solutions to clients in the aerospace and aviation sector, including CNC machining, cold forming, metal stamping, and 3D printing, all of which find wide applications:
CNC Machining: CNC machining is employed in the aerospace and aviation industry to manufacture high-precision components such as aircraft engine blades, aircraft structural components, and parts for flight control systems. These components require precise dimensions and surface smoothness to ensure performance and flight safety.
Cold Forming: Cold forming is used to produce high-strength bolts, nuts, and other fasteners. These fasteners are used in the aerospace and aviation sector for assembling and securing the structures of aircraft and spacecraft, demanding exceptional reliability and strength.
Metal Stamping: Metal stamping is extensively used in aerospace and aviation for the production of casings, housings, brackets, and other structural components. These parts need to be lightweight and high-strength to reduce the weight of the aircraft and enhance performance.
3D Printing: 3D printing technology is employed in aerospace and aviation for manufacturing complex components, prototypes, and highly customized parts. It allows designers and engineers to achieve more intricate geometries and reduce material waste, thereby improving manufacturing efficiency.
The application of these solutions contributes to the enhancement of performance, reliability, and efficiency in aerospace and aviation systems, fostering innovation in the industry. Maijin Metal, as a supplier of these manufacturing technologies, provides critical support to clients, helping them succeed in the competitive aerospace and aviation market.
Maijin Metal offers a range of solutions to clients in the automotive industry, including CNC machining, cold forming, metal stamping, and 3D printing, each with its own set of applications:
CNC Machining: In the automotive sector, CNC machining is commonly used for precision manufacturing of engine components, transmission parts, suspension components, and various other critical parts. These components require tight tolerances and high precision for optimal performance and safety.
Cold Forming: Cold forming processes are employed to manufacture fasteners, bolts, screws, and other hardware used in vehicles. These components play a crucial role in the assembly of automotive structures and systems, necessitating strength and reliability.
Metal Stamping: Metal stamping is widely used in the automotive industry for producing body panels, brackets, chassis components, and other structural elements. These parts need to be both lightweight and durable to meet the automotive industry's stringent requirements.
3D Printing: 3D printing technology is increasingly used in the automotive sector for rapid prototyping, customized parts, and even in the production of specific components like interior features, tooling, and lightweight brackets. It allows for design flexibility and quick iterations in product development.
Maijin Metal's comprehensive solutions contribute to the advancement of automotive manufacturing, ensuring that vehicles are built with precision, reliability, and efficiency, all of which are vital for the automotive industry's competitiveness and innovation.
Maijin Metal offers a range of solutions to clients in the industrial machinery sector, including CNC machining, cold forming, metal stamping, and 3D printing, each with its own set of applications:
CNC Machining: In the industrial machinery field, CNC machining is extensively used for the precision manufacturing of components and parts. This includes gears, shafts, bearings, and other critical elements of machinery. CNC machining ensures high tolerances and dimensional accuracy, which are vital for the reliable and efficient operation of industrial equipment.
Cold Forming: Cold forming is employed in the production of fasteners, bolts, screws, and other hardware used in industrial machinery. These components are essential for assembling and securing machinery structures and require high strength and durability.
Metal Stamping: Metal stamping is commonly used in industrial machinery for manufacturing various parts, including brackets, housings, and structural components. These parts need to be robust and precisely manufactured to withstand the heavy-duty conditions often encountered in industrial environments.
3D Printing: 3D printing technology is gaining ground in the industrial machinery sector for creating prototypes, customized components, and specialized tooling. It allows for rapid design iteration and can be particularly useful for optimizing machinery components for specific applications.
Maijin Metal's comprehensive solutions play a pivotal role in advancing industrial machinery manufacturing, ensuring that machines are built with precision, strength, and reliability, all of which are essential for the sector's productivity and innovation.
Maijin Metal offers a range of solutions with diverse applications in the consumer electronics sector, including:
CNC Machining: CNC machining is widely used in consumer electronics for manufacturing various high-precision components and casings. This includes metal casings for smartphones, tablets, and laptops, precision connectors, and electronic component brackets. CNC machining ensures the accuracy and quality of these components, making consumer electronics products dependable and performance-driven.
Cold Heading: Cold heading is commonly employed to manufacture screws, nuts, and other fasteners for small electronic devices. These components typically require compact dimensions combined with high strength to ensure reliability during assembly and maintenance of electronic equipment.
Metal Stamping: Metal stamping is used in consumer electronics manufacturing for producing metal casings, screen brackets, battery compartments, and other parts. These components need to meet stringent requirements for appearance and precision to satisfy consumer demands for aesthetics and performance.
3D Printing: 3D printing technology is increasingly applied in the consumer electronics sector, particularly for prototyping and personalized products. It can be used to create complex casing designs, customized accessories, and small-batch production, offering more possibilities for innovative consumer electronic products.
Maijin Metal's solutions contribute to the continuous growth of the consumer electronics industry, ensuring that products meet high standards for quality, performance, and reliability, meeting the evolving market demands and consumer expectations.
Maijin Metal offers a range of solutions with widespread applications in the field of Robotics & Automation:
CNC Machining: CNC machining plays a critical role in the manufacturing of robots and automation systems. It is used to produce precision components such as gears, transmission systems, joints, and other intricate parts. This ensures the accuracy of robots and the reliability of their motion control.
Cold forming: Cold forming is commonly employed to produce bolts, nuts, and other fasteners for robots and automation equipment. These fasteners are used to assemble and secure the structures of robots, requiring high strength and reliability.
Metal Stamping: Metal stamping is pivotal in manufacturing structural components such as casings, brackets, and bases for automation equipment. These components need to be rigid and precise to support and protect the core parts of automation systems.
3D Printing: 3D printing technology is utilized in the Robotics & Automation sector for rapid prototyping, customized components, and innovative designs. It provides engineers and designers with flexibility to experiment with different robot builds and automation solutions.
The application of these solutions contributes to improving the performance, precision, and reliability of robots and automation systems, driving continuous innovation and growth in this field. Maijin Metal provides support to clients, helping them stand out in the competitive market of robotics and automation.
Maijin Metal's diverse range of solutions finds extensive applications in the field of Medical Applications, providing essential support for manufacturing medical equipment and instruments:
CNC Machining: CNC machining plays a pivotal role in medical device manufacturing. It is utilized for producing high-precision components of medical equipment, such as surgical tools, implants, and critical components of medical instruments. This ensures the accuracy and reliability of these devices, which are crucial for safety and treatment efficacy in the medical industry.
Cold forming: Cold forming is employed in the fabrication of fasteners, screws, and other metal parts for small medical devices. These components play essential roles in surgeries and the assembly of medical equipment, demanding high levels of precision and durability.
Metal Stamping: Metal stamping is used in medical applications for manufacturing casings, external structures, and components. These parts need to meet strict hygiene and performance standards while also having a refined appearance and precision.
3D Printing: 3D printing technology is employed in the medical field for creating personalized implants, surgical models, prosthetics, and customized medical instruments. It offers design flexibility and enables personalized customization to meet individual patient needs.
Maijin Metal provides a range of solutions for clients in the Electronics and Semiconductors industry, with the following applications:
CNC Machining: In the field of Electronics and Semiconductors manufacturing, CNC machining is employed for the production of high-precision electronic components, semiconductor devices, connectors, and circuit boards. This ensures the precision of these critical components, contributing to improved performance and reliability of electronic devices.
Cold Forming: Cold forming is commonly used to manufacture screws, nuts, and other fasteners for small electronic components. These fasteners play a crucial role in the assembly of electronic devices, demanding high strength and dimensional consistency.
Metal Stamping: Metal stamping is utilized in the Electronics and Semiconductors industry for the production of casings, brackets, conductive components, and connectors. These components need to possess precise dimensions and electrical properties to ensure the reliability and performance of the equipment.
3D Printing: 3D printing technology is gaining prominence in the Electronics and Semiconductors sector, particularly in rapid prototyping, customized components, and the manufacturing of microelectronic devices. It offers opportunities for innovative designs and rapid production, contributing to the advancement of electronic and semiconductor technologies.
These solutions contribute to the enhancement of performance, precision, and reliability of electronic and semiconductor equipment, fostering technological advancements and innovations in this field. Maijin Metal provides critical manufacturing support to clients in the Electronics and Semiconductors industry, ensuring they can deliver high-quality electronic and semiconductor products.
Maijin Metal provides a range of solutions for clients in the New Energy sector, with the following applications:
CNC Machining: In the New Energy field, CNC machining is used to manufacture various high-precision components, such as solar panel brackets, wind turbine components, and critical components for electric vehicle power systems. These components require a high level of precision to ensure the efficiency and reliability of New Energy equipment.
Cold forming: Cold forming is typically employed to produce fasteners, connectors, and bolts for New Energy equipment. These components play a critical role in the assembly and operation of renewable energy systems, demanding high strength and durability.
Metal Stamping: Metal stamping is used to manufacture casings for solar panels, blades for wind turbines, battery components, and enclosures for energy storage devices. These components need to have an excellent appearance and precision to ensure the performance and reliability of energy equipment.
3D Printing: 3D printing technology is used in the New Energy sector to create complex parts, customized components, and prototypes. It provides flexibility and rapid development opportunities for innovation in New Energy technologies.
These solutions contribute to improving the performance, precision, and reliability of New Energy equipment, driving technological advancements and innovations in the New Energy sector. Maijin Metal provides critical manufacturing support to clients in the New Energy industry, ensuring they can deliver high-quality and efficient New Energy solutions.
Maijin Metal provides a range of solutions for clients in the Lighting industry, with the following applications:
CNC Machining: In the field of Lighting, CNC machining is used to manufacture precision components for various lighting fixtures, including lamp bases, heat sinks, brackets, and more. These components require a high level of precision to ensure the performance and reliability of lighting equipment.
Cold forming: Cold forming is typically employed to produce screws, nuts, and connectors for lighting fixtures. These connectors play a crucial role in the assembly and installation of lighting fixtures, demanding high strength and durability.
Metal Stamping: Metal stamping is used in the Lighting industry to manufacture lampshades, housings, reflectors, and other external structural components. These components need to have excellent aesthetics, optical properties, and precision to ensure even light distribution and visual appeal.
3D Printing: 3D printing technology is utilized in the Lighting sector for creating complex lighting fixture designs, rapid prototyping, and customized components. It provides designers and manufacturers with greater freedom for innovation in lighting solutions.
These solutions contribute to enhancing the performance, precision, and reliability of lighting equipment, driving technological advancements and innovation in the Lighting industry. Maijin Metal provides critical manufacturing support to clients in the Lighting sector, ensuring they can deliver high-quality and efficient lighting products.
The first thing we do is meeting with our clients and talk through their goals on a future project.
During this meeting, feel free to communicate your ideas and ask lots of questions.