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Wide Capacity and Expertise

Precision and Quality Manufacturing

Customization and Flexibility

Cost and Time Efficiency

Industry Experience and Reliability

What is Machining? Importance and Application Areas in the Industry

Machining is a manufacturing method used to process metal or non-metal materials into desired shapes and sizes. In this method, small pieces called sawdust are removed from the processed material and a shape suitable for the desired piece shape is obtained.

Machining has a great importance in the sector. Different machining methods are used according to the material to be processed. These methods include milling, turning, drilling, grinding. Machining is widely used in many industrial sectors and provides significant advantages.

The importance of machining in the industry is due to:

  1. High Precision:Machining methods are used in the production of parts that require high precision. Thanks to CNC machines, parts can be produced in accordance with fine details and tight tolerances.

  2. Wide Application Area: Machining methods are used in automotive, aerospace, defense, energy, medical and many other sectors. Thanks to the variety of materials that can be processed, it has a wide range of applications.

  3. Flexibility: Machining is suitable for the production of parts of different shapes, sizes and complexity. It can quickly adapt to customer demands and design changes.

  4. Productivity: CNC machines that can operate at high speeds offer efficient production processes. It saves time thanks to its ability to perform multiple operations at the same time.

  5. Quality control: Quality control is of great importance in machining processes. Compliance of parts with quality standards is ensured by using precision measuring equipment and quality control methods.

The application areas of machining are quite wide. For example, many parts such as engine parts, transmission systems, brake discs in the automotive sector are produced by machining methods. In the aviation sector, complex parts such as engine parts, propeller systems and bodies are produced by machining. In addition, machining methods play an important role in the defense industry, energy sector, medical sector and many other sectors.

Machining is an indispensable method in the manufacturing industry with the production of high quality parts, wide application area and importance in the sector. As Dalgıç Makine, we offer quality and customized solutions to our customers with our expertise in machining.

Advantages of Machining: High Efficiency and Tolerance Control

Machining methods have an important place in the manufacturing sector by offering many advantages. Here are some advantages of machining:

  1. High Efficiency: Machining methods offer efficient production processes thanks to CNC machines that can work at high speeds. The ability to multitask reduces production times and increases productivity.

  2. Precise Tolerance Control:Machining is an effective method for producing parts with precise tolerances. Processes made with CNC machines can be carried out in accordance with the desired tolerances. This ensures the production of quality and compatible parts.

  3. Wide Choice of Materials: Machining methods can be used in the processing of different materials. Many materials such as metal, plastic, composite materials can be processed by machining. This offers a wide range of applications that appeal to a variety of industries.

  4. Flexibility and Customization: Machining quickly adapts to customer demands by offering flexible production processes. It can perform many different operations with CNC machines and provides the opportunity to customize the parts. This makes it possible to produce special solutions for customer needs.

  5. Cost Effectiveness:Machining offers a cost-effective solution in mass production. Thanks to its high efficiency and automation, it reduces labor costs while minimizing material waste. This lowers overall production costs.

  6. Strong Quality Control: Machining processes place great emphasis on quality control. Compliance of parts with quality standards is ensured by using precision measuring equipment and quality control methods. This ensures the production of high quality and reliable parts.

These advantages of machining make it preferred in industrial production processes to meet efficiency, quality and customization needs. As Dalgıç Makine, we are proud to offer these advantages to our customers with our expertise in machining.

Machining Methods

Machining includes a series of methods used to process materials to the desired shape, size and surface quality. Different machining methods are used depending on the material to be machined, part geometry and specific requirements. Here are some commonly used machining methods:

  1. Turning Machining: Rotary parts are machined using lathes. As the material is rotated in a holder attached to the mandrel of the workbench, it creates the desired shape by passing the cutting tool over the material.

  2. Milling: Various cutting operations are performed on the material using a rotary cutting tool using milling machines. Different shapes and surfaces can be created with the milling method.

  3. Drilling: Drilling is used to punch a hole in the material. Drill bits or drilling benches are used to make holes. In the material, a rotating insert drills holes by applying pressure to the material.

  4. Grinding: The grinding process is used to smooth the surface of the material, bring it to precise dimensions or improve the surface quality. A grinding wheel or grinding disc rotating at high speed exerts pressure on the material to achieve the desired action.

  5. Gear Manufacturing: Gear fabrication involves cutting gear profiles or shaping gear surfaces. This process is used for the manufacture of gear wheels, gear shafts and gear fasteners.

  6. Wire EDM (EDM): Wire erosion method is a chipless manufacturing method based on the electrical discharge principle. By using a metal wire electrode, the material is cut or shaped.

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