Future Trend of 3D Printing Technology Development

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Nowadays, the manufacturing industry is at the forefront of digital transformation, promoting and inventing various new business models ranging from Industry 4.0, intelligent manufacturing, artificial intelligence to AR and VR, 3D printing, interconnection and autonomous vehicles.

However, the industry is still far from fully enjoying the benefits of disruptive technology and digitalization. This is because a crucial part of the jigsaw is missing: connectivity. The capabilities new technologies bring to the future factory rely on ultra-reliable, low-latency communication between machines, sensors, databases, and workers’ mobile devices. For the 3D printing technology, 5G is a great help to make it go further. By making mobile communications instantaneous, 5G will enable factories to become more efficient, safer, and will make it easier for humans to collaboratively work with machines manufacturers should know how the next generation of mobile communications will transform their operations, leading to greater efficiencies, enhanced quality, and more innovative products.


3D printing technology has been widely used in industrial manufacturing. The biggest advantage of this technology is the flexibility in the production process. Compared with traditional manufacturing methods, it can quickly turn conceptual designs into physical objects, effectively simplify production processes, reduce R&D costs, and shorten R&D cycle. 3D printing technology provides a faster and more efficient path of innovation, and it has begun to gradually occupy a place in the field of automobile manufacturing.

For example, the crankshaft plays a vital role in the automobile engine. It can convert piston swing into rotational force, so it has high requirements for wear resistance. The shape of the crankshaft must withstand the combustion pressure and maintain a balanced rotation at all times. The above factors have led to the rough design of the crankshaft. In the long history of engine development, the crankshaft has not changed much. Today, Honda’s design plan has achieved a 30% weight reduction target compared with previous products, and it has achieved a new breakthrough by using 3D printing technology.

Many well-known car companies are committed to using 3D printing technology and intelligent design solutions to optimize the design of auto parts. They have upgraded many types of auto parts such as seat belt brackets, engine control units, and frames, and used 3D technology to achieve substantial weight reduction in some parts.

We have seen that 3D printing is revolutionizing the automotive, construction or medical fields. But where can the technology be improved?

3D bio printing is becoming a major topic in the medical field. In fact, there may be many applications for 3D bio printing. You can easily see the various advantages of this technology. It may create human tissue for burn patients. This is also a method of creating human organs for organ transplantation. Today we can see that there is a shortage of donors, and bio printing may be an excellent, fast and life-saving solution. 3D bio printing technology can allow the creation of various tissue structures, such as kidney tissue and skin tissue.


3D printing for construction is also improving, but it may become larger in the next few years. Project construction is faster, cheaper and avoids waste of materials: the benefits of this technology to the construction industry are numerous.


3D printing has not yet reached its limit, and many projects and amazing stories are waiting to be written. We have already imagined this future in the article about the innovation of 3D printing and the 3D printing materials that already existed in the future ten materials!

Are you ready to write down the future of 3D printing history and improve your manufacturing process? Start your 3D printing project with Anet 3D now.

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