A sudden epidemic has triggered many industries into financial crisis. However, one sector of the economy has emerged: 3D printing.
US Air Force 388th Fighter Wing has released information on April 7. The news states that the unit tried to prevent the outbreak of another coronary-pneumonia outbreak in Utah. This unit is not depending on others to supply protective materials. Medical personnel and emergency responders also need the epidemic prevention products. This concept is very good but the manufacturing efficiency is poor. 4 items are produced within 45 hours.
Is 3D printing really possible? Is it because of this low efficiency in production?
3D printed isolationhouse
3D-printed isolation houses that could be built were made in various parts of the country to combat the effects of the epidemic. An organization that had donated 100 segregated buildings in Hubei claimed it could do so every day. They also received orders last year from Pakistan.
An order for 3D printing from Pakistan Railways was sent to me last year. Hubei receives an isolated house which he will use for his move-in the next day.
The Hubei Xianning Central Hospital received 15 sets of 3D printed isolation housings. They were 1 set from Huangshi, 2 sets from Shandong and 3 sets in Dongying. Ma Yihe, Chairman of Yingchuang Construction Technology, stated that “We have a group in Pakistan which ordered 50003D printing kiosks.”
Ma Yihe confidently spoke out about 3D printing buildings. “The 5-6-story staff apartments, as well as the office buildings in our factory that cover tens to thousands of square metres, were all built by me.” Also, 14 of our games were played for Dubai’s overseas government. Guinness Book of Records awarded the house in its office. These buildings can still be made of concrete and people as long as they are not encroaching on roads or bridges.
You can print over 100 isolation houses in one hour.
What is 3D printing technology
This technology uses digital model files and powdery or plastic materials, to layer-by–layer print objects. The first 3D printer, which was a prototyping device with light curing or paper lamination technology, appeared around the 1990s. It is the exact same device as an ordinary printer. There are liquid or powder “printing substances” in the printer. Connecting to the computer will allow the “printing materials”, which are liquid or powder, to be superimposed layer upon layer. Finally, the blueprint from the computer can become a tangible object. This technology is now used in many industries, such as clothing, automotive models, cars, chocolate desserts, etc.
3D printing can be widely used
Fused-deposition modeling (FDM), which is the foundation technology of 3D printing, can be seen as the technical basis. Initially, it utilized a heating rod. Once solidified, it was extruded via the printhead. There have been many advances in fusion technologies since the invention of it, such as multijet fusion (laser sintering) fusion technology and EBM electronic beam fusion. 3D printing is now possible with the availability of more materials.
3D printing materials have expanded in scope from traditional plastic molding to current graphite, ceramic and metal 3D printing.
3D printers are now applicable in many areas of the economy, thanks to advancements in melt technology and other materials. Presently, the two largest markets for 3D printers in discrete manufacturing are aerospace and the automotive industry. 3D printing technology was adopted by automobile manufacturers in order to create auto parts. It is replacing stamping machines and injection molding machine, among other technologies. 3D printing allows aerospace firms to offer more custom-made services.
It is anticipated that the medical industry will grow further over the coming years. 3D printing could see healthcare professionals increase their spending with an annual compound growth rate of 19.5%. 3D printers are used in a variety of applications, such as industrial and medical design and after-sales. 3D printed 3D will allow for the release of vast amounts of space.
3D printing materials have expanded in scope from the old plastic molding technology to today’s graphite-, ceramic-, and organic biological material.
3D printers are now possible across many industries thanks to advancements in melt technology and other materials. Presently, the two largest markets for 3D printed parts in the industry of discrete manufacture are aerospace and automobile. 3D printing technology was adopted by automobile manufacturers in order to create auto parts. It replaces stamping machines, injection mold machines, and all other equipment. 3D printing can be customized to support aerospace manufacturing and allow for personalized production of engines blades.
The medical industry will continue to evolve over the next few decades, printing biomaterials, bone, and other materials. 3D printing could see healthcare professionals increase their spending with an annual compound growth rate of 19.5%. 3D printers are used in a variety of applications, such as industrial and medical design and after-sale. 3D printing promises to reveal the immense space it can create.
Three-dimensional printing technology
3D printing technology doesn’t require that the printer be run in a factory. This is what makes it so appealing. Small items can be printed with a desktop printer using 3D printing technology. People can place the printer in any part of their office, shop, or house. But larger items, like parts, will need a larger printer that takes up more space.
3D printing technology trends
I will summarize the main points of 3d printing technology. Unfortunately, this technology is still very young, has a specific material, is costly, and does not have many real-life applications.
3D printing applications
1. Mold fabrication
Traditional mold production can take a while and costs are high. However, 3D printing technology combined with conventional molding technology can dramatically shorten the process of mold manufacture and increase productivity. Additionally, it is an effective method to fix the weak points in mold design or construction.
The medical sector has seen numerous applications of 3D printer technology in recent years. 3D-printing technology for human organ modeling has an outstanding application value in surgical operations based off medical image data.
3D printer braces
3D printers are now capable of successfully printing critical parts of aerospace engineering. Products produced by traditional 3D-printers with traditional technology have a lower cost, with a reduction in cycle times and a 30% decrease in costs. This will make aerospace a more exciting field.
4. Auto parts
Automobiles use 3D printing technology. In a matter hours to days, conceptual models are possible. Complex structures are constructed at the right time for assembly and disassembly. Complex structural pieces have been a major bottleneck in the traditional manufacturing process. 3D printing can solve this problem. Problem solved if 3D printing techniques are used.
5. Education industry
In order to have the most widespread adoption of 3D printer technology within domestic education, Many universities and colleges have started to study 3D printed technology. 3D printing continues to gain popularity in education. 3D printing will become a widely-used technology in education.
Lemondedudroit, Lemondedudroit advance material Tech Co., Ltd., a professional manufacturer of powdery metallic products, has more than 12 years in chemical product development research. For high quality powdery iron, contact us to send an inquiry.