80 Amazing Facts About 3D Painting!

Facts About 3D Painting: Three-dimensional printing (also known as 3D printing) or coupling production is a process by which digital models can be used to create three-dimensional solid objects of virtually any shape. In the process of addition, three-dimensional printing is done so that layers of metal or other objects are continuously added one on top of the other in different shapes. Three-dimensional printing is considered distinct from the traditional mechanical production process, because in the traditional method, a metal or object is cut or perforated to give the desired shape.

These printers typically do three-dimensional printing using digital technology. Sales of these machines have skyrocketed since the beginning of the 21st century, and their prices have plummeted.

This technology is capable of both prototyping and distributed manufacturing. The technology is used in jewelry manufacturing, footwear industry, industrial design, architecture, engineering and construction, automotive, aerospace, dental and medical industries, education, geographic information systems, civil engineering, and many other fields.

Chak Hall of 3D Systems Corp. made the first workable three-dimensional printing machine in 1984.

80 Amazing Facts About 3D Painting!

Interesting Facts About 3D Painting

  • FDM 3D printers make up 48% of all 3D printers in use.
  • The market for on-demand parts services and CAD software is expected to triple by 2026.
  • Prototyping is the leading application of 3D printing in industries like aerospace and automotive.
  • 73% of engineering businesses believe they will manufacture or source more 3D printed parts in 2021.
  • 54% of engineering businesses increased their 3D-oriented usage for functional end-use parts in 2020.
  • The 3D printing market value is predicted to reach $9.4 billion by 2022 in the medical industry alone.
  • 3D printing software should grow from $787.5 million in 2018 to $2.1 billion by 2023 at a CAGR of 22.2%.
  • The world’s largest 3D printer manufacturer is AutoDesk, with a market capitalization of $68.22 billion.
  • The ceramic segment, while fairly new, is expected to grow at a CAGR of 23.3% over the forecasted period.
  • The top 5 leading 3D printing companies are AutoDesk, HP Inc., 3D Systems, Desktop Metal, and Proto Labs.
  • 65% of engineering businesses used 3D printing more in 2020 whilst traditional manufacturing technologies were limited.
  • More specialized materials will be adapted for 3D printing in order to meet the criteria demanded in specialized fields.

Facts About 3D Painting House 

  • Scanning software is expected to grow rapidly and generate increased revenue with a projected CAGR of 21.4% from 2021 to 2028.
  • The next frontier of 3D printing will be to move from small models and fixtures to functional end-use parts in mass production.
  • The AM market is projected to double in size and reach a valuation of $37.2 billion by 2026, according to the HUBS trend report.
  • Between 2018 and 2026, the 3D printing materials market is predicted to grow by 12% annually, reaching just under $4 billion by 2026.
  • The dental, fashion, jewelry, and food industries are expected to grow the desktop 3D printing segment, with dental taking the lead in 2020.
  • Hardware is predicted to continue holding the largest revenue share, but software is expected to have the fastest CAGR over the forecasted period.
  • In 1990, EOS GmbH was founded and created the EOS “stereos” system, which is now globally recognized as SLS technology (selective laser sintering).
  • 3D printers have been used in the medical field for over two decades, with the first successful bladder printed in 1999 and the first kidney printed in 2002.
  • Healthcare’s 3D printing market size was valued at $1,036.58 million in 2020 and is predicted to reach $5,846.74 million by 2030 at a registered CAGR of 20.10%.  
  • The 3D printing industry expanded 7.5% in 2020 despite the pandemic to nearly $12.8 billion. This is compared to the past average growth of 27.4% over the last 10 years.
  • We expect to see additive manufacturing playing a bigger role in sustainability and conservation efforts as 3D printing has proven to reduce waste and energy consumption.
  • For application, prototyping leads this market segment by more than 55% of the revenue worldwide in 2020 due to the rise in industries adopting 3D printing for prototyping.

Mind-Blowing Facts About 3d Printing

  • According to a SmartTech Analysis, the 3D printed prosthetics, orthotics, and audiology market will accrue $509 million in revenue by 2026 and grow to $996 million by 2030.
  • Design software was responsible for more than 36% of global revenue for the 3D printing market in 2020 and is expected to continue dominating the 3D printing software market.
  • The aircraft company Boeing expects to save $3 million by adopting 3D printed titanium parts and will produce the first commercial airplane to fly with FAA-approved AM parts.
  • Over the next decade, we can expect the majority of manufacturing spend to shift to functional end-use parts as the technology becomes more affordable and more markets adopt it.  
  • In the last half of the 2010s, ZCorp launched the Spectrum Z510 in 2005, which was the first high-definition color 3D printer, and the first 3D printed prosthetic limb was created in 2008.
  • Functional parts, another segment of the application market, is expected to grow at a CAGR of 21.5% from 2021 to 2028, along with an increased demand for designing and building functional parts.
  • Industrial printers account for more than 76% of the global revenue for printer types, with the remaining being desktop 3D printers, which are primarily made up of hobbyists and small businesses.
  • Throughout 2020, established 3D printer manufacturers saw a decline in sales while independent service providers saw a 7.1% increase in sales worldwide, resulting in a $5.3 billion revenue for the group.
  • When divided into software, hardware, and services, hardware leads the market by a majority of over 63%, followed by software, then services. Hardware is made up of applications, materials, and verticals.
  • In 2009, the FDM patent fell into the public domain, which led to a wave of innovation in FDM 3D printers, increased accessibility to desktop 3D printers, and growing popularity amongst individual consumers.

Unbelievable Facts About 3D Painting

  • After going public in December 2020, Desktop Metal’s market capitalization exceeded $7.5 billion in 2021, and received $575 million as part of a merger with special acquisitions company Trine Acquisition Corp.
  • General Electric expects to save between $3-5 billion over a period of 10 years by switching to 3D printed parts. They also have the largest number of 3D printing patents in the US, with 342 published patents.
  • The stereolithography segment of the 3D printer market accounted for over 10% of the market’s global revenue in 2020, holding the largest share as one of the most established and conventional printing technologies.
  • It is possible to print living tissues. Here is an outstanding material that is now 3D printable: Living tissue, or organ parts. It is a kind of part of the new experiments made in the medical industry to save lives.
  • As far as materials used in 3D printing, metal led the market with more than 48% of the global revenue and is anticipated to expand at a CAGR of 23.3% over the next six years. Polymer has the second-largest share of the revenue.
  • Adidas has used data-based analysis to develop 3D printed midsoles for the new 4DFWD shoes. Over the last four years, they’ve developed 4D footwear and their signature 4D lattice midsoles, which are made of 40% bio-based material.
  • When looking at verticals, automotive holds the largest share of the industrial 3D printing market accounting for over 23% of the segment’s global revenue. Aerospace and defense and healthcare are anticipated to contribute to future growth.
  • The idea of 3D printing was first conceptualized in the 1970s, but the first 3D printing experiments were not attempted until the 1980s when Dr. Hideo Kodama developed a rapid prototyping technique, that involved a photosensitive resin that was polymerized by a UV light.
  • 3D Bioprinting allows creating various tissue structures, such as kidney tissue or skin tissue. Even blood vessels and bones are now becoming 3D printable using this technology. This is definitely offering new possibilities in terms of tissue engineering and regenerative medicine
  • Another benefit of this great bioprinting technology to create living tissues: it is a great way for medical researchers to make laboratory tests. For example, instead of testing on animals, it is becoming possible to test directly on human tissue or organs as these prints have the exact same properties and reactions.

Unique Facts About 4D Painting

  • 4D printing technology might be the next revolution. But what is 4D printing exactly, how is this different from 3D printing? 4D Printing is referred to as 3D printing transforming over time. For these objects, a fourth dimension is added: time. The big breakthrough about 4D printing over 3D printing technology is its ability to change shape over time.
  • 3D printing is a French invention. Indeed, the creation of 3D printing kind of started in France. Jean-Claude André, Alain le Méhauté and Olivier de Witte registered the first patent for this game-changing technology in 1984, but everything didn’t go as expected, and we often credit the American Charles Hull for this innovation. To read the full story, check out our interview with Jean-Claude André, one of the 3D printing creators. 
  • Mass-production is possible with additive manufacturing. Additive manufacturing can be used for production, yes, we just saw that. But do you know that this technology can go even further and can also be used for mass-production? Mass producing goods is no longer a problem for 3D technology, and mass manufacturers are already using it. Companies such as Airbus are seeing the full potential of additive manufacturing to mass-produce parts!
  • 3D printing is older than you think. Additive manufacturing is often seen as a really new manufacturing technique. But this technology is actually not that new. We can say that 3D printing made kind of a buzz in the 2000s when the general public discovered FDM (Fused Deposition Modeling) technology and nylon filament. But the birth of additive manufacturing is way older than that! First 3D printing experiments and patents appeared in the ’80s
  • 3D printing is not only possible on earth. Additive manufacturing is not only dedicated to use on earth, and astronauts know it! This game-changing technology is offering great advantages in space, but which ones? 3D printing in space can be used for several projects from creating adapted tools to a 3D printed habitat to live on Mars, or on the Moon. Additive manufacturing and 3D printing without gravity are actually offering brand new possibilities.  
  • 3D printing materials are more numerous that what you think. We just told you about the numerous 3D printing techniques actually available in the industry. But the industry is also flourishing on the material side. If plastic, metal, and resin, are offering great opportunities. Researchers are developing new material, so this technology can answer all needs possible. 3D printed wood, ceramics or 3D printed meat. Yes, materials possibilities are endless. 
  • You can lower your costs using 3D printing. People often see 3D printing as an expensive manufacturing technique, but it could actually help you lower your costs by accelerating your product development. As you know, in business, time is money. Using additive manufacturing is a great way to reduce costs and save time. It can help you with prototyping as it is faster and cheaper than many traditional processes. You only need to create a 3D model of your idea to print it. 
  • There are numerous 3D printing techniques. People often associate 3D printing with FDM technology and desktop 3D printers, but there are actually various types of 3D printing processes. But that is not the only 3D printing technology. As you can see on our online 3D printing service, we are offering multiple technologies such as SLS (Selective Laser Sintering), HP Multi Jet Fusion, DMLS (Direct Metal Laser Sintering), SLM (Selective Laser Melting), DLS (CLIP), etc. From plastic to metal and resin, there are different 3D printing processes and even more 3D printing materials available on the market. 
  • 3D printing might be part of your favorite movie. A lot of movies now have 3D printed parts in it, the film industry is obviously making the most of all the advantages of additive manufacturing! It can be used to work on the designs of monsters or creatures or to directly manufacture props. You might not know it, but Iron Man’s suit is 3D printed, stormtroopers in Star Wars movies also have some 3D printed parts. 3D printing can also be used in animation film to create 3D printed parts and universes. In the Black Panther movie, 3D printing actually helped to push the limits of design to create Queen Ramonda’s look, by mixing traditional African culture together with new-age technology.
  • Additive manufacturing saves lives. 3D printing is taking more and more space in the medical industry. This manufacturing technique is actually helping surgeons and doctors in their daily job. That is why we can say that 3D printing is helping to save lives on different levels. Applications of additive manufacturing in the medical sector are numerous. 3D printing is making it possible to create perfectly adapted devices: from casts to prosthetics. But it also becomes possible to make implants, adapted tools for surgeons, and to print a 3D model to prepare a complex surgery. Indeed, it is becoming common in hospitals to 3D print models of kidneys or hearts and prepare some complex surgeries.
  • 3D printing is mainly seen as a prototyping technique. And indeed, it is a very good way to make some rapid prototyping and create functional prototypes, but not only! Additive manufacturing is more and more used for production. Each year, we study the evolution of the uses of additive manufacturing by companies, with the biggest report of the additive manufacturing industry, the State of 3D Printing. In this report we can notice that year after year, 3D printing is used for more and more different applications by companies. And we can clearly see that a growing 51% of respondents apply 3D Printing technologies for production. This technology is actually more and more used for production purposes!
  • 3D printing can help to build houses. Additive manufacturing is also helping to build at an architectural scale! The first big advantage of this manufacturing technique for architecture is that it saves time. 3D Printing in the construction industry means reduced production time. Indeed, machines themselves are very fast, some of them are capable of manufacturing a 600 to 800-square-foot (55 to 75-square-meters) home in just 24 hours. Additive manufacturing is really seen as a new way to create affordable housing. This new construction method can be used for social housing, but also to face the housing shortage in developing countries. But this technology actually offers possibilities for a large variety of architectural projects and buildings.
  • Actually, you can 3D print anything… even a 3D printer. Everything is 3D printable, even 3D printers! You could 3D print a 3D printer by yourself. Some self-replicating 3D printers are already available on the market. But, these types of 3D printers can’t do the whole job themselves, there is still some assembly that can’t be done automatically. And there are still a few parts of a 3D printer that can’t be 3D printed, such as electronic components. So you can 3D print a 3D printer, but not totally for now. This also stands for plastic 3D printing only. Other types of 3D printers such as metal 3D printers, a liquid resin or ceramic 3D printing can’t be 3D printed! The first self-replicating 3D printer was invented by Dr. Adrian Bowyer through the RepRap project and was unveiled in 2008.
  • You can 3D print food. Do you know that even food is 3D printable? It is already possible to 3D print steaks and vegan steaks. Moreover, the chocolate 3D printer will be the perfect investment for your next Easter. Regarding meat 3D printing, Giuseppe Scionti, an Italian bioengineer worked on some bioprinting projects, such as creating synthetic tissues, like artificial corneas and 3D printed artificial skin. As you can imagine, working on regenerative medicine can definitely help to recreate meat products. This Italian scientist is on his way to find a way to produce meat and help reduce greenhouse gas emissions from livestock, at the same time. Chocolate 3D printing is also becoming quite interesting for chefs working in pastry. 3D printers are actually helping them create chocolate designs that are complicated to achieve only using hands.
  • You can wear 3D printed parts. Clothes, shoes, jewelry, bags, glasses, watches, all of these elements can be 3D printed! Indeed 3D printed fashion is now a real thing. Additive manufacturing is widely used by sneaker brands: Nike, Adidas, New Balance, or Reebok to name a few, major brands have tried it out with varying degrees of success. 3D printed glasses are also becoming a big thing. In the eyewear industry, this technology has been used more and more to create 3D printed glasses since it opens a broad range of possibilities to create 3D printed glasses frames totally custom-made. Optimization of production processes, cost optimization (storage with on-demand printing, manufacturing as there are no material scraps, but also for prototyping …), customization possibilities or creation of complex shapes… 3D printing opens new creative fields for the fashion industry.
  • 3D printing can improve your tooling process. When talking about the benefits of 3D technology, improving a tooling process is certainly not the first that comes to our mind. If your manufacturing process can be improved by a better prototyping or production process thanks to 3D printing, that is not all. Additive manufacturing can help you create tools perfectly adapted to your work. This technology allows customizations. Surgeons, doctors, are more and more making the most of this technology to create tools adapted to their job, making them more convenient for their use. We had an example on our blog with Marc Soubeyrand. This surgeon is using 3D printing to create his own tools with plastic materials for orthopedic surgeries! 3D printing tools can also be a great way for your business to save money. For example, Volkswagen Autoeuropa, the car manufacturer, is using 3D printing to manufacture some of its tools. The company estimates that thanks to 3D printing they saved 250,000€ in 2017. Reducing your tooling investment thanks to 3D printing could be the perfect solution.
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