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Precision machining services for medium to large-scale production.
Due to our high-tech machinery factory and our continuous improvement process which allow us to optimize our results.
Precision Machining Experts
- Consulting : Design assistance (existing or not) / Technical drawings ;
- Feasibility assessment;
- 3D printing prototyping;
- Programming of machinery;
- Machining: High-performance machines for serial production in turning and milling;
- Several metals;
- Finishing of parts;
- Assembly;
- Complete inspection process: quality control;
- Packaging;
- Transport.
Geneviève
MedicalNicolas
High technology industryJoffrey
Automotive performanceMartin
IndustrielTry us out.
Make an appointment with one of our precision machining experts.
Learn More about Precision Machining
What is precision machining?
Precision machining is a type of manufacturing process that involves the use of advanced technology and equipment to create high-quality parts and components with a high level of accuracy and precision. This type of machining is different from dynamic machining, and is typically used in industries where the quality and precision of the parts and components are crucial, such as the aerospace, medical, and defense industries.
Key aspects of dynamic machining
One of the key technologies used in precision machining is CNC, or computer numerical control, which allows for the precise control of machine tools through the use of computer programs. This allows for the creation of parts and components with high levels of precision and accuracy, as well as the ability to quickly and efficiently produce large numbers of parts.
Another key aspect of precision machining is the use of high-quality materials. Precision machiners work with a wide range of materials, including metals, plastics, and composites, to create the parts and components that their customers need. This requires a high level of expertise and experience in order to ensure that the finished parts meet the customers’ exact specifications.
End result of precision machining
The end result of precision machining is parts and components that are of the highest quality and that meet the customer’s exact requirements. This is achieved through the use of advanced technology, equipment, and tools, as well as the expertise and experience of the machining team.
In addition to the manufacturing of parts and components, precision machining companies also offer a range of services, including engineering and design support, production planning, and delivery. This allows their customers to benefit from their expertise and capabilities throughout the entire manufacturing process.
Overall, precision machining is a critical component of the manufacturing industry, providing high-quality parts and components that meet the exacting requirements of a wide range of industries and customers, and this is the priority for G.M Precision.
What are the most common use cases of precision machining?
1. Production of parts for CNC machines
One of the most common uses of precision machining is in the production of parts and components for CNC machines. CNC, or computer numerical control, is a technology that allows for the automation of manufacturing processes, enabling the production of parts and components with a high level of precision and repeatability. Precision machining is essential for the production of parts for CNC machines, as these parts must be of the highest quality in order to ensure the accuracy and reliability of the CNC machine.
2. Production of tooling and fixtures
Another common use is in the production of tooling and fixtures. Tooling and fixtures are essential for the manufacturing process, as they provide the necessary support and guidance for the materials being worked on. Precision machining is used to produce tooling and fixtures with high levels of accuracy, ensuring that they are able to provide the necessary support and guidance during the manufacturing process.
3. Production of technical parts
In addition to its use in the production of parts and components for CNC machines and tooling and fixtures, precision machining is also commonly used in the production of a wide range of other products, including medical devices, aerospace components, and automotive parts. Its use in the production of these products allows for the creation of parts and components with high levels of accuracy and precision, ensuring that they meet the exact specifications of the customer.
With the use of specialized equipment and technology, precision machining enables the production of parts and components with a high level of accuracy and repeatability, making it an essential tool for a variety of industries.