CNC precision parts,Aluminum extrusion,Stents | CHINA MARK

CNC Precision Parts

Name Stents
Processing Aluminum extrusion+CNC+Sandblasting/Anodized
Application Electronic code scanner
Size 82.7*58*37.11mm
Material AL6063
Type Precision machining

 

Precision machining is used to remove raw materials from the workpiece while maintaining close tolerance finishing.This helps create the perfect finished product.In other words, it demonstrates the molding of large blocks of material into more concrete parts.In this way, they can meet precise specifications.The process includes cutting, turning, milling and discharge machining.Usually with the help of CNC equipment.

High quality precision machining requires the ability to follow extremely specific blueprints produced by CAD(computer-aided design) or CAM(computer-aided manufacturing) programs such as AutoCAD and TurboCAD.The software can help generate complex three-dimensional diagrams or Outlines to make tools, machines or objects.These blueprints must be strictly adhered to to ensure that the product maintains its integrity.Although most precision machining companies use some form of CAD/CAM program, they often use hand-drawn sketches in the initial design phase.

From aluminum, brass and steel to rare and precious metals (such as gold, iridium and platinum), sophisticated CNC machining can perform even the most complex designs on the most specialized metals.Depending on the size of the project and the materials used, a variety of precision machining tools will be used.Any combination of lathes, milling machines, drilling machines, saws and grinders can be used, and even high-speed robots can be used.Precision machining usually involves programming CNC machines, which means they are controlled digitally by computers.CNC equipment allows precise dimensions to be followed throughout the operation of the product.

What is a CNC?

Computer numerical control (CNC) allows machines to be moved and monitored by computer control.The range of CNC machines is very wide - milling machines, welders, grinders, lathes, milling cutters, milling cutters, punching machines, many types of large industrial systems rely on CNC technology to produce precise, customized parts.

Special software codes (such as NC code and G code or ISO code) can be worked through CAM(computer-aided machining) and CAD(computer-aided design) software packages to drive CNC machines to create three-dimensional parts directly from the engineer's digital design.

Advantages of CNC precision machining

CNC precision machining is an improved workflow from CNC prototyping to mass production.During the prototyping phase, CNC machines allow developers to quickly build functional designs that can be used for testing.Then, when there is demand in the market, CNC machining can quickly realize the transition to full development.Each step significantly reduces turnaround time, enabling the company to significantly reduce missed opportunity costs.

CNC machining service

Computer numerical control (CNC) machining (also known as CNC milling) is the process of automating the operation of a machine tool by precisely programmed computer commands.CNC machining became the industry standard in the late 1960s and is still the preferred machining method.CNC precision machining can produce many types of complex parts with high precision.Machines and tools that can be controlled by CNC machining include lathes, grinders and milling machines.

CNC milling is able to maintain very strict geometric tolerances in many aspects of the key characteristics of the part (such as diameter, true position, contour and planeness).

From automobile production to aircraft parts and industrial electronics, every industry and technology you can think of includes precision CNC machining.So, in essence, if you're familiar with a project that includes parts, there's a good chance it went through some kind of precision machining.

With more affordable tooling costs and the ability to create complex parts, CNC precision machining is a popular solution for projects ranging from prototyping to large-scale manufacturing of unique precision parts.

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The main process shows as below

Step A:Extrusion machine

Step B:CNC machine

Step C:Auto sand-blasting machine

Step D:Triangle grained machine

Step E:Anodic line

Step F:Hi-gloss drill,cut machine

Step G:Engraving machine

“Our 40,000 square meters facility has the capabilities to meet all your extrusion aluminum, logo plates,precision stamping needs coupled with multiple fabrication options to produce high-quality products solutions. ”

― WEIHUA