Design, manufacturing, assembly and adjustment is what the precision machining, which allow us to always obtain the highest quality. In today's Mecánica Curiel blog, we want to explain to you everything that the precision machining.
The precision machining They offer great productive capacity, carrying out large-scale, complex projects and being able to create many exact pieces at the same time, being able to repeat this series whenever necessary. Custom manufacturing is achieved for many sectors, with machinery that adapts to different industrial processes.
Quality and innovation are essential to obtain the perfect piece and that is just what the precision machining. Excellent finishes that require close tolerances, both in terms of geometry and dimensions.
The development of highly precise machined parts serves, above all, for industrial sectors and can be used for many sectors, even for pencil parts of a space shuttle.
Precision machining requires the ability to follow specific drawings made by CAD or CAM and programs such as TurboCAD or AutoCAD. The software allows you to produce complex three-dimensional diagrams, necessary to manufacture a machine tool or an object.
Lathes are used for wood turning, metalworking, metal spinning, thermal spraying, part recovery and glass work. There are many applications and options that the precision machining and the machinery to design this type of parts.
Curiel Mechanics, experts in precision machining
The fact that there is constant innovation means that our machining company achieves increasingly accurate results. At Mecánica Curiel we have extensive experience in the sector, which allows us to define the best way to design the perfect part with the precision machining.
The CNC is used for the design of a mechanical part and its manufacturing program. It is an automated process and the dimensions of the part are defined using computer-aided design software. The CNC is used to carry out processes that can be described as a series of movements or operations of precision machining and may include welding, laser, friction welding, drilling cutting, sewing, sawing...
The precision machining CNCs have broader computing capabilities and are not static systems, because new prompts can be added to existing programs using revised code. With CNC machining, the speed or position of machine tool functions can be programmed and executed through software in predictable, repetitive cycles, with little involvement from human operators.
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