Computer Numerical Control machining(CNC imishini) refers to a process for machining parts on CNC machine tools. The process procedures of CNC machine tool machining and traditional machine tool machining are generally consistent, but there have also been significant changes. It is a mechanical machining method that uses digital information to control the displacement of parts and tools. It is an effective way to solve problems such as a wide variety of parts, amaqoqo amancane, izimo eziyinkimbinkimbi, nokunemba okuphezulu, and to achieve efficient and automated processing.
CNC (I-Computer Numerical Control) machining is a manufacturing process in which pre-programmed computer software dictates the movement of factory tools and machinery. This process can be used to control a range of complex machinery, from grinders and lathes to mills and routers. With CNC machining, three-dimensional cutting tasks can be accomplished in a single set of prompts.
Deze is a long-established china cnc machining service company. We provide a variety of CNC machining customization services. Esikhathini esedlule 5 iminyaka, we have successfully developed more than 300 products. Our CNC machining services provide product processing for more than 20 countries around the world.
There are many machining service factories in China, and what makes Deze stand out is our focus.
Idizayini: Create a CAD (umklamo osizwa ngekhompyutha) model of the part.
Ukuhlela: I-CAM (computer-aided manufacturing) software converts the CAD model into a set of instructions (Ikhodi ye-G) for the CNC machine.
Setha: Setting up the machine with the appropriate tools and materials.
Ukwenza imishini: CNC machines produce parts according to programmed instructions.
Ukuqeda: Parts may go through additional processes such as deburring, ukupholisha, or painting.
Fiber | I-Carbon Fiber | I-CFRP, CRP, CFRTP |
Metal | Aluminum – 1050 | AL 1050 |
Metal | Aluminum – 1060 | AL 1060 |
Metal | Aluminum – 2024 | AL 2024 |
Metal | Aluminum – 5052-H11 | AL 5052-H11 |
Metal | Aluminum – 5083 | AL 5083 |
Metal | Aluminum – 6061 | AL 6061 |
Metal | Aluminum – 6082 | AL 6082 |
Metal | Aluminum – 7075 | AL 7075 |
Metal | Aluminum – bronze | AL + Br |
Metal | Aluminum – MIC-6 | AL – MIC-6 |
Metal | Aluminum – QC-10 | AL QC-10 |
Metal | Ithusi | Cu + Zn |
Metal | Ithusi | Cu |
Metal | Copper – beryllium | Cu + Yiba |
Metal | Copper – chrome | Cu +Cr |
Metal | Copper – tungsten | Cu + W |
Metal | Magnesium | Mg |
Metal | Magnesium alloy | |
Metal | Phosphor bronze | Cu + Sn + P |
Metal | Steel – Stainless 303 | SS 303 |
Metal | Steel – Stainless 304 | SS 304 |
Metal | Steel – Stainless 316 | SS 316 |
Metal | Steel – Stainless 410 | SS 410 |
Metal | Steel – Stainless 431 | SS 431 |
Metal | Steel – Stainless 440 | SS 440 |
Metal | Steel – Stainless 630 | SS 630 |
Metal | Insimbi 1040 | SS 1040 |
Metal | Insimbi 45 | SS 45 |
Metal | Steel D2 | SS D2 |
Metal | Tin bronze | |
Metal | I-Titanium | Kwe |
Metal | Ingxube ye-Titanium | |
Metal | Zinc | Zn |
Ipulasitiki | I-Acrylonitrile butadiene styrene | I-ABS |
Ipulasitiki | I-Acrylonitrile butadiene styrene | ABS – high temp |
Ipulasitiki | I-Acrylonitrile butadiene styrene | ABS – anti static |
Ipulasitiki | I-Acrylonitrile butadiene styrene + I-Polycarbonate | I-ABS + I-PC |
Ipulasitiki | High-density polyethylene | HDPE, PEHD |
Ipulasitiki | Inayiloni 6 | PA6 |
Ipulasitiki | Inayiloni 6 + 30% Glass Fill | PA6 + 30% GF |
Ipulasitiki | Inayiloni 6-6 + 30% Glass Fill | PA66 + 30% GF |
Ipulasitiki | Inayiloni 6-6 I-Polyamide | PA66 |
Ipulasitiki | Polybutylene terephthalate | PBT |
Ipulasitiki | I-Polycarbonate | I-PC |
Ipulasitiki | Polycarbonate – Glass fill | I-PC + GF |
Ipulasitiki | I-Polycarbonate + 30% Glass fill | I-PC + 30 % GF |
Ipulasitiki | Polyether ether ketone | I-PEEK |
Ipulasitiki | Polyetherimide | PEI |
Ipulasitiki | Polyetherimide + 30% Glass Fill | Ultem 1000 + 30% GF |
Ipulasitiki | Polyetherimide + Ultem 1000 | PEI + Ultem 1000 |
Ipulasitiki | Polyethylene | PE |
Ipulasitiki | Polyethylene terephthalate | I-PET |
Ipulasitiki | Polymethyl methacrylate – acrylic | PMMA – Acrylic |
Ipulasitiki | Polyoxybenzylmethylenglycolanhydride | Bakelite |
Ipulasitiki | I-Polyoxymethylene | I-POM |
Ipulasitiki | Polyphenylene sulfide | I-PPS |
Ipulasitiki | Polyphenylene sulfide + Glass Fill | I-PPS + GF |
Ipulasitiki | Polyphenylsulfone | PPSU |
Ipulasitiki | I-Polypropylene | PP |
Ipulasitiki | I-Polytetrafluoroethylene | I-PTFE |
Ipulasitiki | Polyvinyl chloride | I-PVC |
Ipulasitiki | Polyvinyl chloride + White/Grey | PVC – White/Gray |
Ipulasitiki | Polyvinylidene fluoride | PVDF |
Superalloy | Waspaloy | Waspalloy |
The aerospace industry has a long history with CNC machining. Metal aircraft components are machined with the highest precision. This is essential for safety-critical applications. Ngaphezu kwalokho, the range of CNC-compatible engineered metals gives aerospace engineers a vast array of options.
The use of CNC machining in the aerospace industry is widespread and reliable. Some of the aerospace components that can be machined include engine mounts, fuel flow components, landing gear components, and fuel access panels.
The automotive industry frequently uses CNC milling machines for prototyping and production. Extruded metal can be machined into cylinder blocks, transmissions, ama-valve, ama-ekseli, and a variety of other components. Ngokolunye uhlangothi, CNC can machine plastics into components such as dashboards and fuel gauges.
CNC machining in the automotive industry can also be used to create one-off custom parts. Using CNC, a variety of replacement parts can also be manufactured. This is because turnaround times are fast and there is no minimum part quantity requirement.
CNC machining also aids in the prototyping and production of consumer electronics. These electronics include laptops, ama-smartphone, and many other products. Ngokwesibonelo, the chassis of the Apple MacBook comes from CNC machining of extruded aluminum, which is then anodized.
In the electronics industry, CNC machining aids in the manufacture of PCBs, ezivalekile, amajiki, izakhiwo, and other components.
The military sector often employs CNC machining to prototype strong and reliable parts. The goal of machining is to allow the parts to withstand wear and tear while requiring minimal maintenance.
Many of these parts overlap with other industries such as aerospace and electronics. The ability of CNC machines to provide on-demand replacement of parts and upgrade components is particularly useful in this industry. As such, it is a great fit for parts that require constant innovation and safety.
CNC machining can be used on a variety of medical-safe materials. Since the process is suitable for one-off custom parts, it has a wide range of applications in the medical industry. The tight tolerances provided by CNC machining are essential for high performance in machined medical parts.
Medical parts that can be machined by CNC include surgical instruments, izindlu zikagesi, orthotics, and implants.
Another industry that requires tight tolerances, which are critical to the safety of CNC lathes, is the oil and gas industry. This industry utilizes CNC milling machines to create precise, reliable parts such as pistons, amasilinda, izinduku, izikhonkwane, and valves.
These parts are often used in pipelines or refineries. They may require smaller quantities to meet specific quantities. The oil and gas industry often requires corrosion-resistant machinable metals such as aluminum 5052.
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