PTJ meets or exceeds the quality standards of the world’s most demanding industries with our state of the art equipment and quality standards. Our precision and productivity is made possible by our ultimate success factor: the presence of skillful, knowledgeable PTJ experts in Artificial Intelligence 3d printing and more additive manufacturing parts.
A McKinsey report predicts that by 2025, more companies will adopt 3D printing technology and shift their focus to product personalization. Over time, the sources of competitive advantage in the value chain will change, and design and consumer networks will become the core. In this case, economies such as China that rely on low-cost mass production will be at a disadvantage in the competition.
With the steady advancement of the “Made in China 2025” plan, “Intelligent Manufacturing in China” will rise strongly. With the rapid development of intelligent manufacturing, 3D printing can effectively interact with many advanced technologies such as big data, cloud computing, robots, and smart materials. The combination of technology and the integration of “materials-design-manufacturing” will surely become a key link in the high-end equipment manufacturing industry in the future. It will revolutionize manufacturing methods and industries, as well as productivity and production relations. China’s manufacturing industry is expected to rely on 3D printing Technology takes the lead in high-end manufacturing.
Based on accurate and personalized data collection, our technical team will put forward reasonable suggestions for customers’ product design, and use our rich experience in the field of intelligent hardware to provide customers with optimized and achievable solutions.
Through 3D printing, we provide customers with high-efficiency and low-cost test samples, quickly verify design schemes, reduce trial and error costs, and promote continuous iterative upgrades in research and development.
No need to open the mold, shorten the production cycle, reduce production costs, and speed up the time for products to be put on the market.
The personalized demand of artificial intelligence products is increasing day by day. These intelligent products require accurate three-dimensional data to support, and tailor-made flexible production methods will become a necessary condition for intelligent hardware to meet customer needs.
The emergence of 3D printing and artificial intelligence has revolutionized the robot manufacturing industry. For the first time, robot manufacturing has become more like the evolutionary process of humans or organisms.
In the past robot manufacturing, engineers always designed each part of the robot according to the existing theory and the set goals that need to be achieved, and finally assembled the robot to test the performance of the robot. Now, robot manufacturing is more like a process of intelligent evolution controlled by the creator. In the computer-simulated virtual space, engineers can set goals that a robot needs to achieve, such as travel speed, travel mileage, or walking under specific terrain. Then the computer will perform virtual 3D printing based on the originals that can be used.
These virtual 3D printed robots are completely random, and they look weird and even look like coelenterates and worms in nature. The computer will try to place the control element and the drive element in different positions of the robot. Then let these robots compete in the virtual space, leaving those with superior performance in the same group and deleting those with poor performance. Then find common points among virtual robots with superior performance to create robots that can better meet the original needs.
This change is not only as simple as the combination of 3D printing and intelligent design, but its significance is that for the first time, humans have given the ability to design, control and evolve to machinery, turning robots into a mimic that can multiply.
If the engineering technology is advanced enough, we can completely imagine such a mechanical creature: its main structure is composed of two parts: the input end and the output end, and a self-printing 3D printer is placed inside. When it starts, the sensor will Automatically find the surrounding materials for 3D printing and “eat” this material into the body. When there is enough material, the internal 3D printing device will start to “give” a new self, and this self is in It is an improved product after millions of simulations have been carried out on the computer inside the robot. This new mechanical creature will have the ability to metabolize, respond to stress and reproduce. Although its appearance may not look like a creature at all, it satisfies most of the characteristics of the human definition of life.
On the one hand, 3D printing modeling programs increasingly include artificial intelligence factors to help people create the best 3D printing models. Artificial intelligence can also help improve the 3D printing technology itself and make the printing process more and more efficient; on the other hand, On the one hand, 3D printing can accelerate the innovative development of artificial intelligence products and better achieve the goals of artificial intelligence.
The main application directions of 3D printing in artificial intelligence:
As two important components of digital unmanned factories, artificial intelligence and 3D printing have been scientifically verified in the advanced manufacturing system and have unlimited imagination. In the future, an artificial intelligence brain with functions such as automatic identification of materials and process methods and scientific optimization of error correction will direct 3D printers that meet the needs to mass produce personalized products in real time.
This will be the grand blueprint for the future factory of digital manufacturing.