Comparison between Traditional Machining and CNC Machining
Yao, Minyu (2024)
2024
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-202404146459
https://urn.fi/URN:NBN:fi:amk-202404146459
Tiivistelmä
The main purpose of this thesis is to reveal the primary differences between CNC machining and traditional machining in aspects such as processing technology, thermal deformation, setting cutting parameters, degree of automation, and flexibility. Through the comparative
practical part, the thesis demonstrates the performance differences between CNC machining and traditional machining when producing the same part, as well as shows specific comparisons in terms of operation, machining time, initial labor cost, and operational costs. Additionally, this thesis explores the future development trends and challenges of CNC technology in areas such as integration with artificial intelligence, network information technology, green manufacturing, security and privacy protection, technology upgrading and compatibility, as well as skill transformation and talent shortage.
Although CNC machining has many advantages over traditional machining, the choice should be based on the specific needs, complexity, and precision of the parts. As technology advances and costs decrease, CNC machining is expected to become more important in manufacturing. Additionally, training and improving operator skills will be crucial for its widespread use.
CNC machining and traditional machining each have their advantages and limitations; the choice of machining method should be based on production needs, the complexity of the parts, and precision requirements. With the continuous development of technology, CNC machining is expected to become more widespread and surpass traditional machining in many aspects. However, this also requires the industry to continuously focus on technology updates and talent cultivation to fully utilize the potential of CNC technology. Additionally, combined with artificial intelligence and network information technology, CNC technology is driving the manufacturing industry towards more intelligent and automated development.
practical part, the thesis demonstrates the performance differences between CNC machining and traditional machining when producing the same part, as well as shows specific comparisons in terms of operation, machining time, initial labor cost, and operational costs. Additionally, this thesis explores the future development trends and challenges of CNC technology in areas such as integration with artificial intelligence, network information technology, green manufacturing, security and privacy protection, technology upgrading and compatibility, as well as skill transformation and talent shortage.
Although CNC machining has many advantages over traditional machining, the choice should be based on the specific needs, complexity, and precision of the parts. As technology advances and costs decrease, CNC machining is expected to become more important in manufacturing. Additionally, training and improving operator skills will be crucial for its widespread use.
CNC machining and traditional machining each have their advantages and limitations; the choice of machining method should be based on production needs, the complexity of the parts, and precision requirements. With the continuous development of technology, CNC machining is expected to become more widespread and surpass traditional machining in many aspects. However, this also requires the industry to continuously focus on technology updates and talent cultivation to fully utilize the potential of CNC technology. Additionally, combined with artificial intelligence and network information technology, CNC technology is driving the manufacturing industry towards more intelligent and automated development.