Over the years, there have been many advances in manufacturing processes. The Fourth Industrial Revolution has led to one of these – CNC machining and milling. CNC stands for Computer Numerical Control. CNC machines perform computer numerical control machining, a precision manufacturing process involving core-programmed computer software.
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The manufacturing industry, especially, benefits from CNC machining. Compared to manual machining, CNC technology improves efficiency and accuracy, makes production faster, and leads to safer and cheaper operations.
As you might expect, there are disadvantages as well. We’ll look at the advantages of CNC machines and some of its disadvantages so you can decide for yourself whether it’s something you’d like to take advantage of.
CNC Machining Overview
The CNC machining and CNC milling processes use a machine and tooling that’s controlled by a numerical software program. Computerized controls and cutting tools remove material from a workpiece during the CNC milling process. The result is a custom-designed part.
The CNC machine has a table that rotates or moves the workpiece in different planes. CNC milling machines convert a 3D Computer Aided Design or CAD model into a series of computer instructions. These dictate the action of the CNC machine and tooling and move the workpiece automatically.
CNC milling and machining is used in many industries, for example:
Using this method, manufacturers can create precise made-to-order parts.
What are the Advantages of CNC Machines?
CNC machining has become very popular across a wide range of industries for many reasons. In many cases, CNC milling benefits offer manufacturers and machine shops so much more. And it has led to manual equipment being replaced.
Here are 14 advantages of CNC machines offer.
One of the most significant benefits of using CNC machining compared with manual operations is precision. It’s possible to create parts that meet precise specifications without the need for constant attention from a skilled operator.
With CNC milling, human error is eliminated because the machines rely on computer instructions for fabricating parts. However, there is still some control over the manufacturing process by the operator of the CNC machine.
The accuracy of the CNC milling project depends very heavily on the operator. It is down to the operator to control the operating environment and cutting tool calibration. They also need to recognize when the tooling is getting too dull and unable to create the optimum results when in contact with raw material. But overall the risk of human error is significantly reduced.
It’s relatively easy to achieve tolerances as small as 0.004 mm and create complex parts. However, it’s worth pointing out that not all CNC machines are created equal. Not all CNC machines are capable of creating high-precision parts.
Defense and aerospace industries rely on high-precision CNC machined parts. Being able to create such precise components according to specifications could save lives.
Manual machining processes can only continue as long as there are skilled workers present to work the machines. The manufacturing process stops when workers take a break or go home at the end of their working day.
However, operating CNC machines for 24 hours a day, 365 days a year is one of the main advantages. It depends on the project’s design, but in many cases, the operator can program the machine’s computer and set it to create the required part as many times as necessary.
Because less human intervention is required than manual machining, fewer experienced engineers and skilled workers are needed. As a result, machine shops can increase their production capacity.
CNC machines also allow for quick production changes. If a small number of parts are required, the operator sets the machine for the small order. Once completed, they can change the CNC (Computer Numerical Control) program for the next production run. Such flexibility means a CNC machine shop can complete many orders, including individual prototypes and large batches of identical components.
CNC machine endurance is further improved by their need for minimal maintenance. Looking to the future, Internet of Things (IoT) technology could mean that CNC machines use sensors to keep track of the level of wear on various parts. When wear is detected, the sensors send signals to the operator. For the operator, this means they don’t have to wait for the machine to break down before they do something.
It’s also possible that the IoT could integrate CNC machines with other technology, particularly robots. The removal and packing of the finished product could be taken out of human hands entirely.
After the operator has programmed the machine with the necessary design specifications, production can take place. Once the CNC machine has started a production run, creating parts takes no time at all.
As well as producing large numbers of parts, modern-day CNC machines are also very scalable. What makes them different from conventional machines and manual production processes is that a CNC machine can be programmed to produce one single item or large quantities. There are no limitations to the number of parts you can manufacture, allowing companies to use their resources and finances more efficiently.
Another of the numerous advantages CNC machining offers is its higher speed. When CNC machines are used, operators can be much more efficient because the machines can use their fastest settings. CNC machines can run 24/7 without running out of steam. They don’t need a break for coffee or lunch. No holidays need to be booked or any kind of time off. There are no trade-offs with a CNC machine.
Such benefits, together with the ability to maintain a high degree of accuracy and minimal waste of material resources, make CNC machining and milling one of the best ways to ensure production is efficient, fast, and scalable with a lower cost liability.
When more conventional milling methods are used, an operator is often required to manually operate the machine and change tooling depending on the cutting operation needed. This can be exceedingly time-consuming and inefficient.
A CNC machine usually has a rotating carousel that can carry up to 30 tools. These tools can be automatically swapped out during the milling and machining process.
CNC milling machines with sophisticated design software produce complex shapes that a regular manual machine cannot duplicate.
CNC machines are much more efficient than any engineer, no matter how skilled or experienced. With the right software, a CNC machine can produce a workpiece of virtually any size, shape, or texture.
The CNC machining process can create virtually any component you might think of. These machines can perform a wealth of fabrication and CNC milling operations, including shearing, flame cutting, punching holes, and welding metal sheets.
Because of their incredible precision, CNC machines can be used to produce shapes of extreme complexity.
CNC machines are compatible with a range of materials such as composites, metals, carving foam, rigid foam, phenolic materials, and plastics.
Regarding material selection for CNC milling, factors such as design tolerance, fastening, hardness, stress resistance, and heat tolerance must be taken into account when choosing.
CNC machines are precision turning machines that operate autonomously. No manual intervention is required, which bypasses the possibility of human errors.
Software programs and codes govern the end-to-end CNC machining process, and the machines can deliver flawless complex designs with great accuracy.
The input is immutable throughout the production process, no matter how many cycles are performed. Unless any changes are made deliberately, the final products are consistent.
Simulations of prototypes are possible using CNC machining and milling. This allows manufacturers to check the program’s efficacy before it is put into full-time production mode.
The initial price of a CNC machine may be costly but lower operational costs more than compensate for this. The high output rate, minimal mistakes, and low production costs of CNC machining make it cost-effective. Less training is required, which is a further cost saving. Operators can also learn how to use CNC machines virtually, eliminating the cost and need for training workpieces. All these factors make CNC machining very attractive.
An operator only interacts with a CNC machine to enter the code and maintain the machine. Apart from that, the process is entirely automated. Operators don’t have to put themselves near the cutting tools, which can improve the overall safety of the workplace.
Introducing CNC machines into manufacturing has led to fewer occupational health and safety accidents. While a CNC machine may not be as simple to operate as a cordless drill, for an operator with some training and practice, they are relatively simple to use.
The final point in the list of the many advantages of CNC milling machine technology is that it typically requires minimal levels of maintenance. Generally, the service involves changing the cutting implements at the indicated interval and a small amount of light cleaning. CNC machines are low maintenance, and any servicing can be performed in-house without needing professional maintenance engineers, which saves money.
Just as an individual can now access the internet no matter where they might be, soon the potential for a completely mobile CNC machine will become a reality.
Currently, some CNC machines can be used at home to cut wood, plastic, and metal while sitting on a tabletop. In manufacturing facilities, CNC machines provide the ability to fully automate the process to address a complex project.
What are the Disadvantages of a CNC Milling Machine?
As you might expect, alongside the advantages of CNC machining, there are a few disadvantages that it’s only fair to mention.
CNC machines tend to be more expensive and require a more substantial initial investment than manual machines. However, as these machines become more widely available and used, supplies will increase, and costs will go down.
An element of skills loss comes with the increased use of CNC machines. Fewer manual machine operators are required, resulting in new students not being trained in these skills. Eventually, it could result in a total loss of traditional manual machining and milling skills.
While the machining process is automated, on the whole, highly trained technicians or experienced engineers are still required to program the machines, make calculations, and supervise the machining process.
Not all machine shops can find these highly trained operators to run the machines, which might result in low-quality machined parts.
CNC machining is a subtractive manufacturing method. The process starts with a block of material from which portions are cut away until the finished product is left. The result is greater material wastage than produced by additive manufacturing processes like 3D printing.
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Is CNC Machining Better Than Conventional Machining?
As you can see, there are lots of CNC machining advantages. If you’re considering adding CNC machines to your manufacturing process, here are some of the reasons you may or may not want to:
There are many CNC machining advantages compared with conventional machining. These include greater design freedom, higher accuracy, and finer features.
Conclusion
CNC machining is a form of manufacturing that uses computer-controlled machine tools to create parts and products. The main advantages of CNC machining over traditional methods are greater accuracy, more precise control, and higher efficiency.
Precision-turned components milled by CNC machines are of higher quality than those from manually operated machines. In addition, CNC machining offers other advantages that will give a company a competitive edge and help it stay ahead of the competition.
Thanks to these advantages, CNC machining is suitable for a wide range of applications across many industries.
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The Fourth Industrial Revolution is all about greater speed, higher efficiency, and consideration for sustainability. In such a landscape, automation will continue to play a key role in manufacturing activities while modernized, data-driven tools and equipment like CNC Lathes and CNC machining will drive innovation.
As a culmination of such high-paced activities, precision turned components will offer businesses a competitive edge by realizing complex designs, introducing structural benefits, and creating parts that could not be reproduced profitably by any other manufacturing method. On that note, let us take a look at the various advantages offered by precision turned components:
CNC Machining Produces Little to No WasteSource
CNC machines run on software programs that undergo iterative optimization that develops the best way to turn a component without waste. Such codes may also be subject to simulations, which check the efficacy of the governing program before it is put into action.
As such, the final CAD-CAM model will produce results and deliver value from the first cycle rather than the trial and error method of design improvement.
Plus, since all precision milling machines operate on repeatable software programs that utilize fixed tools along fixed routes, it makes smart use of the raw material available. As a result, most of the highly advanced CNC machines can help manufacturers cut down waste significantly.
Zero Defects and Greater AccuracySince precision turning machines operate autonomously and without any manual intervention, they bypass the possibility of human errors seeping into the manufacturing process, leading to defects. With codes and software programs governing the end-to-end process, the machines can deliver greater accuracy without any flaws.
Plus, these inputs remain immutable pretty much during the entire production process, cycle after cycle, unless changed deliberately, which also maintains consistency in the final products. Further, the machines can operate for long hours without any breaks with no compromise on the quality of the jobs produced.
Faster and Efficient ProductionSource
When working with milling machines, one can operate these on their fastest settings to match increased demands. Plus, as stated earlier, these machines can run 24 hours a day and seven days a week without tiring, without breaks, and without any trade-offs.
Such facilities, paired with the fact that the machine will still maintain a high degree of accuracy and shall not waste any material resources, make it one of the best ways to make production fast, efficient, and scalable without any cost liability.
Quicker AssemblyBy decoupling the production capacity from the number of employees required, manufacturing units can be made more efficient by moving the human resources down the assembly line. Manual assembly lines are known to be more effective in high-production settings and where the assembly of the product is intricate to the extent that it requires specialized skills that machines cannot replicate.
Further, the high-precision turning of components allows for the seamless fitting of parts, which allows the assembly line to flow freely without any disruptions.
Enhanced Personnel SafetySource
CNC machines isolate machines from humans and mitigate the risk that crops up otherwise.
These machines can function without an operator, thereby limiting the possibility of accidents and reducing the risk to life and limb. Modern-day CNC machines are highly capable to the extent that they can even change their tools automatically! Even if there is a change in design, it can be set in motion by changing the software without necessarily coming in contact with the machine or person.
As a result, human intervention is limited to a supervisory role where they can remotely monitor the execution of the software programs and preventive or reactive maintenance to avoid breakdowns, which minimizes the need to engage and makes the workplace safer.
Reduction in Energy ConsumptionIndustries such as oil and natural gas, petrochemicals, aerospace, automotive, etc., are already known to be energy-intensive due to the losses involved. However, the introduction of CNC machines can allow them to remain scalable and precise without usurping limited resources such as energy and labor any further than what is necessary.
In addition to injecting sustainability, they attempt to cut down any energy losses that may arise due to poor or improper planning, which in turn saves more energy.
CNC Machining Leads to Lower Production CostsWith the above advantages in mind, it is only intuitive to glean that the use of CNC machines for the precision turning of components can massively bring down the cost of production. For a start, it improves the efficiency and scalability of production and assembly without contributing to material waste.
Similarly, it reduces energy consumption and saves these recurring operational costs. At the same time, it also offloads any financial liability triggered by accidents and incidents. All in all, it is one of the most well-rounded ways to make your operations cost-effective without compromising on the process or quality.
ConclusionBy now, it is abundantly clear that precision turned components produced by CNC machines are far superior to their manual counterparts. More importantly, these boast of a bouquet of additional benefits that can offer companies a competitive edge that helps them leverage differentiators like high quality, zero defects, low environmental impact, etc., to stay ahead.
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