The Difference Between Traditional Engineering and Precision Engineering: What You Need to Know Before Manufacturing

1. Traditional Machining

The traditional machining method uses the movement of cutting tools and chips to create the required surface shape and form. This method requires workers to have technical skills and experience in operating workshop machinery and equipment. Therefore, the processed products are often simple, of standard quality, and lack high precision.

Forms of traditional machining include:

• Turning: This is the most common cutting method. Turning uses the rotary motion of the workpiece to form the cutting motion, combined with the linear feed motion of the tool.

• Milling: Unlike turning, milling uses the rotary motion of the cutting tool to form the cutting motion, combined with the relative linear motion between the tool and the part. Along with turning, this is also one of the most common machining methods.

• Drilling: A method of creating holes by removing chips.

• Boring: Its purpose is to enlarge or widen holes after milling or drilling.

• Grinding: A method used for finishing surfaces, making them smooth and polished.

2. CNC Machining

CNC Machining is considered an optimal and comprehensive solution in modern industry. In custom manufacturing processes, customers prefer more precise machining methods. Specifically, CNC milling and CNC turning account for a large proportion of manufacturing solutions.

Compared to traditional machining methods, CNC machining applies modern machinery, advanced techniques, and technology. This results in products with high, near-absolute precision, meeting the high technical demands of complex products.

Forms of CNC machining include:

• CNC Milling: A machining form based on pre-programmed instructions and executed by a CNC milling machine.

• CNC Turning: Products are machined on CNC lathes.

• CNC Gas Cutting, Plasma Cutting, Laser Cutting, Waterjet Cutting: These are non-contact machining forms that do not use direct contact from cutting tools, milling cutters, or drill bits. Instead, they use heat or high-pressure water to cut the workpiece via CNC-controlled machines.

3. Key Advantages of CNC Machining Over Traditional Machining

CNC machining allows for the production of complex-shaped finished products with high precision. This method can machine almost all types of materials without requiring excessive force.

Furthermore, CNC machining offers other outstanding advantages:

• No specific requirements for the hardness of the material being processed.

• Achieves a smooth surface finish after machining.

• Capable of machining large, non-standard, and complex-sized products.

• Saves on cutting tools and spare parts due to controlled wear.

• Increases tool lifespan thanks to optimal cutting capabilities.

• Increases machining productivity with low operating costs.

• Machining programs can be reused multiple times and are easily modified.

• CNC machines can work automatically and continuously, thereby reducing production and machining time.

• CNC machining produces high-quality products; inspection machines are often unnecessary as the process is pre-programmed.

• Output products are completely precise when using laser cutting technology provided by the machining company.

• Lasers can cut difficult and diverse product models.

• A dynamic and agile sales team, always ready to consult and provide quotes.

• Meets timely deadlines for large-quantity orders.