HESEM specializes in CNC machining for aluminum, iron, copper, and stainless steel… materials on 3-axis CNC milling machines, 4-axis CNC milling machines, 5-axis CNC milling machines, CNC lathes, high pressure aluminum casting, and Stainless steel casting.
4 AXIS CNC MACHINING
Precision machining on a 4-axis CNC milling machine. We can create products with complex shapes, reduce production time, and ensure delivery schedules.
5 AXIS CNC MACHINING
Precision machining on a 5-axis CNC milling machine. We can create products with complex shapes, reduce production time, and ensure delivery schedules.
CNC turning creates products with high precision, and beautiful surface quality on various materials: plastic, aluminum, copper, steel, stainless steel, titanium…
CNC MILLING MACHINING
CNC milling creates products with high precision, and beautiful surface quality on various materials: plastic, aluminum, copper, stainless steel, and titanium…
Precision CNC machining creates products with high precision, and beautiful surface quality on various materials: Aluminum 6061, 7050, SS314, Brass, and Plastic…
High-pressure mold design, mold machining, high-pressure aluminum casting, precision machining of casting parts, finishing casting parts: anodized, electric painting…
STAINLESS STEEL CASTING
Provide products made of stainless steel, shaped by lox wax casting. Mold design, mold machining, stainless steel casting, precision machining of casting products…
To better understand CNC machining. We learn about the definition and application of CNC machining:
Before going to the definition of CNC machining, let’s first understand what is the definition of machining.
What is machining?
Machining is the process of removing material from sheet billet, casting billet, and block billet.. to create products with the required shape and size.
When the machining industry has not developed to achieve this, we have to use rudimentary tools such as knives, hammers, and chisels to create products.
Currently, machine tools such as turning, milling, electric firing, and wire cutting .. are controlled by a CNC computer (computer numerical control). Use tools such as milling cutters, lathes, grinding wheels, and electrodes to create products.
What is CNC Machining?
Precision CNC machining is the same exact concept as CNC machining in general, only subject to higher standards. While CNC machining services in general have provided fairly precise outputs, precision CNC machining holds much tighter tolerance standards, meaning more complex shapes can be machined. with less error. This is useful for projects that require high precision such as medical devices, aerospace technology, and more.
Applications of CNC Machining:
The precision machining industry develops very rapidly. To illustrate this we can take the following example: The first flight in human history was recorded on December 17, 1903. From that point onwards, the aircraft was continuously improved. development. From the beginning, the aircraft details are very simple because the level of processing and manufacturing is not modern. Crafting products depends on the skill of the mechanic.
In just over a century, with the rapid development of the manufacturing industry, aircraft design engineers have put together many parts to create a complex part. This intricate detail can only be made with state-of-the-art machine tools. This eliminates a lot of fasteners and fasteners that reduce the weight of the aircraft. Increased fuel efficiency and very high stability.
Following are some of the most prominent advantages of precision machining over manual part fabrication.
High Precision CNC Machining
Combines the precise rotation of a servo motor, the precision of a ball screw and guide sliders. We can make micrometer-precise parts. This is especially important for many industries such as medical, semiconductor, automotive, aircraft, etc.
CNC machining has stable quality
Unlike manual processing, it depends entirely on the skills and emotions of workers. Precision machining by machine tools is controlled by CNC computers, so the machining movement from one part to another repeats almost absolutely. This results in products made by precision machining with highly repeatable shapes and sizes. Produce stable quality.
Consistent quality products are not only beneficial in enhancing the brand’s image in terms of both design and safety, but also in reducing the number of poor quality outputs.
CNC Machining has a low error rate
Labor is important and necessary for many manufacturing processes, they are bound to make mistakes, especially with the rapidly changing technology and global manufacturing landscape. Precision machining or working with a CNC machine to cut materials can produce precise and consistent results, minimizing or eliminating manufacturing errors.
CNC machining has less material waste
The advantage of precision machining is that the quality is stable, so precision machining has the ability to reduce error rates and produce products with uniform quality, helping manufacturers production avoids having to throw away many unqualified products and avoid having to process the amount of waste generated.
CNC Machining Increases Manufacturing Efficiency
After the benefits listed above, it is clear that precision machining allows manufacturers to work at much faster speeds and produce more products than before, due to that increased efficiency. It also allows manufacturers to direct their workforce to other aspects of production that require more human labor than machines.
Cheaper CNC Machining
With a lower risk of error and day-to-day stability, precision machining can significantly reduce production costs. It allows manufacturers to have a clear financial plan for the production process and not have to allocate a budget for contingency. In addition, the precision machining process also cuts down on labor costs.
Does CNC machining make production safer?
Labor accidents are always present in the production process. The characteristic of precision machining is that it uses less labor, so the number of work accidents will be reduced. At the same time, because the cutting process is controlled by a computer, workers do not need to be in close contact with the machining position. This significantly reduces the rate of occupational accidents when an incident occurs.
According to the U.S. Labor Statistics Bureau of Fatal Occupational Injury Census 2017, there were a total of 303 fatal injuries in the manufacturing industry that year. Accidents with machines are some of the most common and most devastating in the industry, but fortunately, precision machining automatically eliminates or minimizes the chances of it happening.