Saturday, October 15, 2022

When Was The First 3d Printer Made

Don't Miss

The 1990s: Emergence Of The Main 3d Printers Manufacturers & Cad Tools

First 3D printer in space

Now that the basics were established, the evolution of additive manufacturing is pretty fast. The main 3D printers manufacturers are emerging, new technologies are perfected, and 3D modeling tools start to be developed as well, bringing additive manufacturing to the next level.

In Europe, EOS GmbH was founded and created the first EOS Stereos system for industrial prototyping and production applications of 3D printing. Its industrial quality is today recognized worldwide in SLS technology for plastics and metals.

In 1992, the Fused Deposition Modeling patent was issued to Stratasys, which developed many 3D printers for both professionals and individuals. From 1993 to 1999, the main actors of the 3D printing sector emerged with various techniques:

ZCorp and binder jetting: Based on MITs inkjet printing technology, they created the Z402, which produced models using starch- and plasterbased powder materials and a waterbased liquid binderArcam MCP technology and Selective Laser Melting.

At the same time, we can see that more and more new CAD tools, allowing to create 3D models, are becoming available and developed, with, for example, the creation of Sanders Prototype , one of the first actors to develop specific tools for additive manufacturing.

Charles Hull was awarded the European Inventor Award in the Non-European countries category, by the European Patent Office Price in 2014.;

To resume:

1995: Z Corporation obtained an exclusive license from the MIT

The 1980s: When Was 3d Printing Invented

The first documented iterations of 3D printing can be traced back to the early 1980s in Japan. In 1981, Hideo Kodama was trying to find a way to develop a rapid prototyping system. He came up with a layer-by-layer approach for manufacturing, using a photosensitive resin that was polymerized by UV light.;

Although Kodama was unable to file the patent requirement of this technology, he is most often credited as being the first inventor of this manufacturing system, which is an early version of the modern SLA machine.

Across the world a few years later, a trio of French researchers was also seeking to create a rapid prototyping machine. Instead of resin, they sought to create a system that cured liquid monomers into solids by using a laser.;

Similar to Kodama, they were unable to file a patent for this technology, but they are still credited with coming up with the system.

That same year, Charles Hull, filed the first patent for Stereolithography . An American furniture builder who was frustrated with not being able to easily create small custom parts, Hull developed a system for creating 3D models by curing photosensitive resin layer by layer.;

In 1986 he submitted his patent application for the technology, and in 1988 he went on to found the 3D Systems Corporation. The first commercial SLA 3D printer, the SLA-1, was released by his company in 1988.;

But SLA wasnt the only additive manufacturing process being explored during this time.;

The 2000s: 3d Printing Explodes

While there were iterative changes and innovations related to 3D printing throughout the early 2000s, 2005 marked the year that 3D printing went on the path to becoming more mainstream. Many of the early patents began to expire, and inventors and entrepreneurs sought to take advantage.

A professor in England named Dr. Adrian Bowyer made it his mission to create a low-cost 3D printer. By 2008, his Darwin printer had successfully 3D printed over 18% of its own components, and the device cost less than $650.

When the FDM patent fell to the public domain in 2009, more companies were able to create a variety of 3D printers and the technology became more accessible.

3D printing began making mainstream headlines, as concepts such as 3D printed limbs and 3D printed kidneys were fascinating and potentially powerful.

Also Check: When Printing What Does Collate Mean

The Range Of Applications

The 3D printing industry already serves four quite distinct market segments, all of which are at different stages of maturation. As illustrated in my diagram below, the most mature market for 3D printing involves the production of prototypes. Next, and growing very rapidly, we have the use of 3D printers to fabricate the molds and other tooling from which final products are made. After this comes direct digital manufacturing — or in other words, the use of 3D printers to make final products or parts thereof. And finally we have the very new market for personal fabrication.

D Printing: What You Need To Know

You Can Now See the First Ever 3D Printer  Invented by ...

3D printers have become affordable enough to hit the mainstream, but should you buy one? Here’s what to considerabout materials, possible uses, software, and much morebefore you dive in.

They’re not your granddad’s daisy wheel printer, or your mom’s dot matrix. In fact, they bear little resemblance to today’s document or photo printers, which can only print in boring old two dimensions. As their name suggests,;3D printers;can build three-dimensional objects, out of a variety of materials. They’re going mainstream, showing up at retailers such as Staples, Best Buy, and Home Depot, and you can buy numerous 3D printers and their supplies on Amazon.com and through other online outlets. Though still mostly found on shop floors or in design studios, in schools and community centers, and in the hands of hobbyists, 3D printers are increasingly being found on workbenches, in rec rooms, and kitchensand perhaps in a home near you, if not your own.

Read Also: What Does Collated Mean On A Printer

The Future Of Additive Manufacturing & 3d Printing

It has been inspirational to see the evolution of 3D printing and to see manufacturers across all industries work together to shape the industry and economy. According to Statista, the worldwide market for 3D printing products and services is anticipated to exceed 40 billion U.S. dollars by 2024.

Additive manufacturing suppliers and 3D designers continue to list their company on Thomasnet.com to increase their RFQs and grow their business . As the 3D printing community continues to evolve, we are curious to see how the rest of the manufacturing industry evolves too.;

Editor’s Note: If you’re sourcing suppliers for COVID-19 items,;. If your industrial business can support the production of essential supplies to combat the COVID-19 outbreak,;please complete this form;to notify us of your availability and willingness to dedicate resources. Thomas is working with State and Federal Government offices to help mobilize manufacturers to deliver supplies and services.

For more additive manufacturing articles, visit:

The History Of 3d Printing And Its Development

The earliest record of 3D printing through the additive process was the Japanese inventor Hideo Kodama in 1981. He created a product that used ultraviolet lights to harden polymers and create solid objects. This is a stepping stone to stereolithography .

Charles Hull invented stereolithography, a process similar to 3D printing that uses technology to create smaller versions of objects so they can be tested before spending time and money on creating the actual product. ;The object is printed layer by layer, rinsed with a solvent, and hardened with an ultraviolet light. The process uses computer-aided designs to create the 3D models.

Selective Laser Sintering is another, more advanced, form of 3D printing. It uses additive manufacturing and a powder polymertypically nylonto create objects. SLS uses a laser to fuse the powder together, layer by layer, into more complex shapes than SLA is capable of creating.

Fused Deposition Modeling , developed by Scott Crump, is the most common form of 3D printing today. It is known as the desktop 3D printers because it is the most commonly used form of the technology. To form an object, the printer heats a cable of thermoplastic into liquid form and extrudes it layer by layer.

You May Like: How To Scan A Document From Canon Printer To Computer

D Printing In The Present Day Where Are We Now

Just when you thought things couldnt get any better, things always do. At least this appears to be the case with 3D printing. The progress is so fast, and so groundbreaking, it wont be long before the latter part of this guide is out of date. Seriously, its proving impossible to keep up sometimes. Its only a matter of time when well all be printing our own custom parts in 3D as and when we need them.

So whats next? Nobody knows for sure, but what we can all agree on is that there will be more to write on 3D printing history in the future. At the time of writing this guide, the only limitations to date are human imagination, or so it seems. If we keep going like this, there will no longer be any WOW factor. Perhaps thats the only downside for those of us who love a great surprised.

D Printing In Laymans Terms

3D Printing Made Easy for First-Time User, Long-Time Custom Jeweler

Before moving on, its important to define 3D printing in laymens terms for the uninitiated readers. If you already understand the workings of 3D technology, feel free to skip this section. For everyone else, itll pay you to read through it. Dont worry; were not going to get too technical here.

Youll often hear others refer to 3D printing as additive manufacturing . The latter involves the whole process of making 3D solid objects from computer-generated files, or digital files. The actual 3D printing process is only one part of the entire procedure. Despite this, the two terms are largely interchangeable these days, so for the sake of simplicity well use 3D printing most of the time.

So what is 3D printing exactly and why should you care?

3D printing technology has begun to revolutionize the way we produce entire physical objects and parts in the last few years. The range of things produced by 3D printing today is vast, and continues to get more ambitious. At the time of writing, we can 3D print anything from simple toys to clothing to tools. We can also use the technology to produce musical instruments and even human body parts. Yes, you did read that right. The potential, it seems, is endless.

How does 3D printing work exactly?

What else do I need to know about 3D printing and printer technology?

Don’t Miss: How Do I Connect My Wireless Printer To My Phone

The Low Cost Lcd 3d Printing Revolution

Resin 3D printers used to cost thousands, and that would only afford you a basic SLA printer. Then Digital Light Processing came along a number of years ago, offering a more scalable and modern alternative.

Then it was the turn of LCD 3D printing more similar in process to DLP than SLA to usher in the new era of low cost resin printing. Suddenly low cost resin printers like the ELEGOO Mars and AnyCubic Photon offered reasonably accurate resin prints at a printer cost of less than $500. When the first Formlabs printers came out, people found it astonishing that you could print accurate resin objects for $3,500 oh how things have changed.

What About The Future

We can see today that 3D printing is revolutionizing big sectors such as automotive, architecture or medical. But where can this technology still improve?;

3D Bioprinting;is becoming a big subject for the medical field. Indeed, applications of 3D bioprinting could be numerous. You can easily see the diverse advantages of this technology. It could create human tissue for burn victims. It is also a way to create human organs, in order to perform organ transplants. We can see today that there is not enough donors and bioprinting could be an excellent, fast, and life saving solution. The 3D bioprinting technology could allow to create various tissue structures, such as kidney tissue, skin tissue.;

3D printing for architecture;is also improving, but could really become bigger in the upcoming years. Projects faster to build, cheaper, and that avoid material waste: the benefits of this technology for the construction sector are numerous.

Don’t Miss: Which Printer Ink Is Cheapest

Stratasys Eos And Fdm And Sls To Rival Sla

Stereolithography had competition in the 3D printing space however, with rival processes in development. In 1988, Carl Deckard at the University of Texas filed a patent for Selective Laser Sintering technology. Instead of using a UV light, SLS used a laser to trace and solidify layers of powder polymers. This innovative new technology was then leased to DTM Inc to use.

Then it became a three-horse race. Scott Crump co-founded Stratasys in 1989 and filed the patent for Fused Deposition Modeling, probably the most well-known 3D printing technology today. 3D Systems and Chuck Hull may have had a head start, but competitors were hot on his heels.

This competition was further exacerbated by the founding of EOS in 1989 in Germany by Dr Hans Langer. The German juggernaut would go on to dominate the SLS 3D printer market, as well as pioneer Direct Metal Laser Sintering in the mid-90s.

After the release of the SLA-1 a few years prior, Stratasys released their first FDM 3D printer in 1991. This was the first real competition for 3D Systems, as each had the patent rights to two very different 3D printing technologies. FDM parts were stronger and more chemically resistant, but SLA parts could be created quicker, and more accurately. Who would come out on top?

  • For an up-to-date comparison of the two technologies as they are today, check out our comparison of FDM vs SLA.

The 3d Printer Phenomenon And Its Applications

You Can Now See the First Ever 3D Printer

From 2008, the use of 3D printers skyrocketed.

Communities and printing services are born, which allow any professional in any field to benefit from the printing of 3D objects for a low price: designers, architects, artists, craftsmen

The first complex prosthesis that does not need assembly is printed, emulating a leg from the knee to the foot, allowing a person to walk with it.

Also Check: Brother Printer Not Grabbing Paper

What Does The Future Hold For 3d Printing

A variety of 3D printers for homes and small businesses is readily availablePCMag has reviewed quite a number of thembut they are still often viewed as exotic, and rather pricey, contraptions. Expect that to change within the next few years, when 3D printers will become more commonplace in housesto be found on workbenches, in studios, in home offices, and even in the kitchen. You may not find them in every household, but they’ll become indispensable to those people who do have them. For the most part, items made with 3D printers have had homogenous interiors, but we’ll start to see more complex creations combining multiple materials and composites, as well as printable electronics. With today’s 3D printers, if you lose your TV remote’s battery cover, it may be possible to print a replacement cover. With tomorrow’s, if you lose your remote, perhaps you’ll be able to print a whole new remote.

Also, 3D printing is gaining a foothold in outer space. NASA is experimenting with 3D printers on board the International Space Station. Eventually, 3D printers could be used to create habitats on Mars and other worlds. To save the Apollo 13 astronauts from dying of carbon monoxide asphyxiation, NASA had to in effect find a way to fit a square peg into a round hole. Had there been a 3D printer on board, they may have been able to easily solve the problem by designing and printing a connector.

Mimaki Expands 2d Line

One prediction that has been made since HP first announced that it was interested in the 3D printing space more than two years ago is that other 2D printer manufacturers would soon jump on board.; Other than HP, however, other 2D printer companies have been less aggressive about the third dimension, with Epson working on a five-year industrial 3D printing plan and Brother just looking into the technology.; One Japanese printer manufacturer,;Mimaki, has been working in the realm of specialty printing for some time and has just now announced the development of a new color 3D printer.

Mimaki Japan chairman Akira Iked suggested that theyve been working on a type of 3D printing since 2011.; Their UJF-3042 printer is capable of using UV light to print onto 3D objects.; The chairman seemed to incline that the technology could be used to 3D print objects and that Mimaki would be testing the market in the coming months by running a printing service. It was Mimaki president Hisayuki Kobayashis comments at the companys anniversary this week that really raised eyebrows.

You May Like: How To Print To Hp Printer From Android

The History Of 3d Printing

3D printing, also called additive manufacturing, has been one of the breakout technologies of the last 18 months. People are now clamouring to get involved with the technology, with printable objects ranging from hand-guns to medical equipment. Yet, despite its recent popular emergence and contrary to popular belief, 3D printing has been existence for more than 35 years, with the inception of the concept traced back to 1976 and the first example of it coming in the early 1980s.

When Was The 3d Printer Invented

Producing the world’s first 3D-printed bridge with robots “is just the beginning” – Joris Laarman

When were 3d printers like this makerbot invented? The technology was first used in the mid 1980s

3D printing is a pretty novel upgrade on the plain old 2D ubiquitous printers all over the world. Although it seems to be a relatively new technology which has appeared out of nowhere in the last few years, you might;be surprised to find that 3 d printing;has been around for more than three decades. In this article well talk;about the history of 3D printing and when the first 3D printer was first invented.

Also Check: How To Get An Hp Printer Online

The First 3d Printer Emerges

Inkjet technology was invented by the Teletype Corporation in the 1960s, a method of pulling a drop of material from a nozzle using electronics. It resulted in a device capable of printing up to 120 characters per second and ultimately paved the way for consumer desktop printing.

Teletype later experimented with melted wax as described in a 1971 patent belonging to Johannes F. Gottwald, whose idea was to output an object made of liquified metal that solidified into a shape predetermined by the inkjets movement upon each new layer. This device was the Liquid Metal Recorder, which is the basis of rapid prototyping and posited that printing could move beyond ink.

More articles

Popular Articles