What can

If you have any trouble logging in to your account,contact us. To start 3D printing or Laser Cutting, youll need to create an account here. Once done, youll be able to upload your files and get live quotes of yours parts 3D printing has become increasingly democratized in the past few years. The press releases … Continue reading “What can”

If you have any trouble logging in to your account,contact us.

To start 3D printing or Laser Cutting, youll need to create an account here. Once done, youll be able to upload your files and get live quotes of yours parts

3D printing has become increasingly democratized in the past few years. The press releases daily updates highlighting the brilliance of the emerging technology, but what can 3D Printing do exactly? Is it possible to use it not only for prototype but also for production ?

If youre looking for the essential information about 3D printing, or additive manufacturing, youre in the right place. The following page aims to level you up on this new way of producing objects.

The information is organized as follows:

The invention of 3D printing target 2 things: reduce time to get the first version of a product and emancipate many constraints that are not possible with traditional production methods. For example, with 3D printing, it is possible to print complex geometric shapes and interlocking parts that require no assembly. It is also possible to produce single objects, in small quantities, at low cost and fast delivery. This technology also helps in the reduction of production-related material loss. For more information on the benefits of 3D printing compared to plastic molding and other manufacturing processes, you can refer to our comparison page between 3D printing and traditional manufacturing methods.

3D Printing can produce different objects without creating specific tooling or even using several tools. This is how 3D Printing helps increasing flexibility in the production flow and helps reducing industrial expenses. Since theres no need to build dedicated production line, it helps also significatively to save time: 3D Printing enables to innovate faster and mechanize faster. Since 3D Printing makes a replica of the 3D files one by one, so economies of scale cant be realized when the same file is produced several time: this is clearly different from series manufacturing methods which aim for producing millions of units of the same objects. On the contrary, 3D Printing is the perfect method for on-demand, sur-mesure and customization needs. There are a lot of other good reasons to choose 3D Printing instead of other manufacturing methods. For more information on the benefits of 3D printing compared to plastic molding and other manufacturing processes, you can refer to ourcomparison between 3D printing and traditional manufacturingmethods page.

Finally 3D Printing gives to everyone the power to manufacture objects only when they are needed or desired. Its a fantastic process for the creative ones who wish to make something out of their imagination. 3D Printing enables in this way many people to produce and sell their creations by skipping traditionnal edition and distribution networks. 3D Printing is also usefull to reproduce objects that are no longer on sale, for instance in order to repair an old bike for which spare parts are discontinued.

3D printing has been growing in the media spotlight in recent years. This additive manufacturing techniques are far from being a brand new technology. This 3D printing method has been used in many professional environments for nearly 30 years.

3D printers now occupy an ever more important place in the media, this is mainly due to the opening of this technology to the general public. Having for a long time been restricted to professionals and industrial prototyping, 3D Printing now allows printing of parts and finished products and has become accessible to the general public.

3D Printers are usually divided into 2 categories: home 3D printers and professionnal 3D printers. This distinction is not always true: some companies own home 3D printers for the very early stages of a prototype and the general public can have access to professional-grade 3D printers in FabLabs or with online 3D printing services such as Sculpteo.

However, be aware that the 3D printing technology is significantly different between professional printer and 3D printer available for the general public. Most 3D printers for the general public use filament deposition method (FDM) and produce almost exclusively objects in ABS or PLA plastic, professional 3D printers can print many materials with a higher level of precision.

Beyond the awesome stories that come in the media spotlight, 3D printing has already made a shift in the manufacturing process of various industries such as dental and hear-aiding, aerospace, civil and military aeronautics, jewelry The more we work on 3D Printing technology, the more we figure out that very few industries wont take benefit from 3D Printing!

Sculpteo is a 3D printing service online. Our printing centers are exclusively equipped with high-performance professional 3D printers. We haveseveral materials and different finishesare available. Our service is available to all, whether you are an self-employed and small businesses, larger structure that is not equipped with a professional 3D printers, or to individuals for their personal creative needs.

Our ambition is to offer to all the ability to manufacture objects in our factory by controlling our 3D printers directly from a desktop. 3D Printing should not be a matter of techniciens: it has to be an affordable and easy way for all to produce faster and better.

For more information, visit our sectionabout usor try our service now andTransferring a 3D File. By doing so, you will access animmediate price quoteas well Manage your 3D files thanks to ourfree tools.

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What Can 3D Printing Do? 8 3D-Printing Stories

What Can 3D Printing Do? 8 3D-Printing Stories That Wowed in 2016

What Can 3D Printing Do? 8 3D-Printing Stories That Wowed in 2016

Courtesy Dr. Marki Sugimoto, Transition Hair Solutions, Airbus, CEIT Biomedical Engineering, 3dChef and Under Armour.

The world of 3D printing took off in awe-inspiring directions this past yearpushing creative boundaries to discover new methods and uses of additive manufacturing. Here are eight stories from 2016 worth revisiting, showing what 3D printing can do in medicine, food, beauty, construction, and production.

Architect Patricia Andrasik is keen to provide refugees in Iraq with more than just shelter; she wants to createsustainable housing solutionsthat can become true homes. Like companies from China, which use giant 3D printers to prefabricate structures out of clay and cement, Andrasik employs 3D printing because it allows her to build within a controlled context, simultaneously educating and involving the population about this alternative construction technique.

Andrasik also takes the areas unique cultural ecology, environment, and climatic conditions into consideration while integrating the homes into existing contexts. She hopes to provide not only homes but also opportunities. My final objective is very simple, she says. Its making families comfortable in their built environment so theyre able to live happy, sustainable liveswherever they are.

Taking inspiration from nature, Alan Guyandirector of design and manufacturing innovation at sports-clothing company Under Armourredefined the future of footwear, using generative-design software to producethe first 3D-printed performance training shoe.

Why did we use 3D printing to create this piece of unique footwear? Guyan asks. Well, for starters, the lattice structure can only be achieved by 3D printing. And I like the simple fact of just that: To make something that cannot be made by conventional means is very exciting. We can have different correlations of different parts, different types of parts, and different types of structures, all within one composition that allows us to repeat, fail, and then find successes. The other unique thing about 3D printing is that the opportunity for customization is endless.

CEITs 3D-printed titanium implant restored 86 percent of a patients maxillofacial bone tissue. Courtesy CEIT Biomedical Engineering.

3D printing has helped doctors at Buenos Airesbased Novax DMA and CEIT Biomedical Engineering from Bratislava, Slovakia, create customtitanium surgical implantsto correct inherited conditions or those caused by injury or disease. These doctors now have ability to not only create complex freeform shapes and surfaces that are lighter and last longer but also control density, which helps improve the success of the porous implants.

Using generative-design software and 3D printing, Airbus manufactured a partition usingbionic designthat is 45 percent lighter than conventional airplane partitions and based on the properties of slime mold. In collaboration with New Yorkbased architectural firm The Living, Airbus used three different additive-manufacturing systems to create the partition, whose light weight results in huge fuel savings, carries a smaller carbon footprint, and foretells the possibility of a fully 3D-printed plane in the future.

Thefuture of 3D-printed foodis more than just a passing fad for Anjan Contractor and Jordan French of Beehex, Inc.; Jason Mosbrucker and Luis Rodriguez of 3Digital Cooks; and scholars Sonia Holland and Dr. Kjeld van Bommel. For these innovators, its about creating a new food experience that saves space and time while reducing waste, creating new diet foods, and more. Looking to the future, Mosbrucker envisions wearables talking to your refrigerator, which then talks to your oven, which then talks to your 3D food printer, resulting in a nutritionally optimized meal ready to eat upon waking up or returning home from work.

In the world of beauty, Italian company Cesare Ragazzi Laboratories found a way to 3D printcustom hair prostheticsfor people suffering from hair loss. After the 39-step processwhich includes meeting with a trained stylist, creating a digital model of the scalp, printing a 3D skull replica, fabricating a breathable membrane, and sewing on natural hairthe client receives a one-of-a-kind hairpiece that looks, feels, and acts like their own hair. Clients are transformed, says CNC stylist Danielle Grillo. Theyre smiling. Theyre happy. They become the person that they used to be.

Martin Wallace, GlaxoSmithKlines director of technology seeking, talks about the future of medicine and how3D printing pharmaceuticalscan improve both R&D productivity and patient benefits. New technology allows the pharmaceutical industry to print tissue samples that reduce the need for animal testing, print personalized medicine to simplify the supply chain, and create complex shapes and geometry in order to deliver the drug in a different way, Wallace says. Manipulating the geometry of a tablet could be used to adjust the drug loading, modify the release, or mask the taste of a medicine.

Dr. Maki Sugimoto is no stranger to bringing mobile devices, 3D printers, and virtual reality to the medical world. His work with 3D imaging led him to develop a method called Bio-Texture Modeling to3D print bodily organ replicasthat are anatomically correct and have a realistic texture, mass, and other physical qualities. With the replicated organs, patients can gain better understanding of their diagnoses, and surgeons can interact with the models before procedures to noninvasively gain information on the organ itself.

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What Is 3D Printing? – Exploring Additive Manufacturing

What is 3D Printing? – Exploring Additive Manufacturing

What is 3D Printing? – Exploring Additive Manufacturing

Frequently Asked Questions about 3D Printing

Working in 3D is fantastic fun. Its challenging, frightfully complex, and allows for almost boundless creative expression.

However, compared to real world three dimensional art forms like woodworking, sculpture, ceramics, or textiles,3D modelingis sorely lacking in one regardthe models have no real element of physical tangibility.

You can view the artwork on a screen or even make a high quality 2D print of a greatrender, but unlike a marble sculpture or a ceramic pot, you cannot reach out and touch it.

You cant turn it in your hands, or run your fingers over itssurface texture, feel the subtleties of its contours or its weight.

For an artistic medium so reliant onform, its a shame that a digital model must ultimately be reduced to a two dimensional image. Right?

Not exactly. As Im sure youve deduced, theres a bit more to the story.

3D Printing(often calledrapid prototypingoradditive manufacturing) is a manufacturing process that allows computer generated3D modelsto be transformed into a physical objects through a layered printing process. The techniques were initially devised in the 90s as a means to produce relatively inexpensive prototype parts for industrial and automotive design work, however as costs begin to fall, 3D printing is finding its way into an expanding variety of industries.

Because of its cost-effectiveness and versatility, the advent of additive manufacturing ultimately has the potential to be as important and game-changing as the introduction of the assembly line a hundred years ago.

Here are some frequently asked questions about 3D Printing:

Although there are a handful of different 3D printing methods, the

procedure is relatively consistent from one to the next. In additive manufacturing, three-dimensional objects are created from a raw material in either liquid or particle form.

Using the digital model as a guide, a 3D printer deposits microscopically thin layers of the raw material, and the print gradually materializes as the layers are built up step by step by step. The amount of detail possible in a 3D print is determined by the thinness of the layers, and the raw material can be anything from synthetic resin, to ceramic powder, metal, or even glass.

The 3D printing process is actually quite involved. If youre interested in a more in depth examination of the procedure take a look

Well also look at the different types of 3D printers, some of the companies that make them, and explore the advantages and disadvantages of each.

What are the applications for 3D Printing?

The standard application for 3D printing has traditionally been

in mechanical and automotive design settings. 3D printing makes it quick and inexpensive to produce concept models, and perform fit & functionality tests. The technology has even advanced to the point where it is possible to print small quantities of production quality parts.

However in the last decadeprices for 3D printersand raw materials have fallen, opening the door to non-industrial applications. This list is far from comprehensive3D printing could literally have applications in

of niches, but here are some current outlets for the technology:

Pre-viz models can be produced quickly and inexpensively.

Custom implants, prosthetics, educational models. Although its far off, the possibility of

Geographic or topological models can be produced directly from raw GIS data.

In a word, yes! Perhaps the greatest advantage of 3D printing compared to traditional manufacturing techniques (like injection molding) is that the cost per unit is the same whether you print one copy or one thousand. Because of this, there are a growing number of online vendors who are willing to print your models on demand, without any need for minimum quantities. Check out the following links to compare some of the most popular printing services:

That all depends on how large a print is desired, and the type of material that its printed inresins are going to be significantly cheaper than metals in every case.Shapewaysreports that the average price on one of their orders is usually between$50 and $100 dollars.

One way to drastically reduce the price of your print is to make sure the model has been properlyprepared for the 3D printingprocess. This means making sure that the model will print hollow rather than solid.

Obviously, a solid model will use a lot more material than a hollow oneon their website, Shapeways estimates the price of a solid 2cm x 2cm cube to be approximately$17, while a hollow cube of the same size would only cost$3. Instructions are provided for creating a hollow model on the Shapeways page.

When it comes down to it, only you can answer that question, but I will say this: One of the best gifts anyone ever gave me was a small (approximately 2 inch) printout of one of my 3D character models. Two inches may sound small, but an astounding amount of detail can be resolved even at that scale.

The largest (and probably the most impressive) 3D print Ive seen in person was a quarter-scale model of Iron Man, on display at the 2009 SIGGRAPH computer graphics conference in New Orleansit was unbelievable to look at. Unless youve got an awful lot of money, its cost prohibitive to print anything that large, but any one of the vendors mentioned above can print your models on a smaller scale.

In my opinion, its definitely worth the money to see a model that youre particularly proud of transformed into a real-world object. Its a wonderful feeling to actually be able to hold your work in your hand, and I recommend trying it at least once or twice.

Now, if youre wondering whether itd be worth it to have larger quantities of your models printed with a commercial purpose in mind, thats a whole different ballgame. Obviously, costs vs. potential income would have to be weighed and examined. The notion is becoming more and more feasible every day, but keep in mind that even a small figurine is still relatively expensive. Unlike virtually any other manufacturing process, 3D printing is actually most cost-effective at smaller quantities.

Unless youre willing to invest quite a bit of money, we recommend sticking to the online services for now. Top quality 3D printers from industry leadingZ Corpstill range from$15,000all the way up to approximately$60,000. Although there are a few home kits that cost significantly less ($1500 – $2000), chances are youll get better results from one of the online vendors.

Its very likely that quality consumer (orprosumer) 3D printing equipment will be a reality in the very near future. Entry level costs similar to high-end photography equipment ($3-5000 dollars) might be a likely comparison.

10 Principles of 3D Printing Excerpt

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Roadblocks and Implications for 3D Printing

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Dont have a 3D Printer? Try one of these 3D Printing Service Bureaus

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Here are the Mobile 3D Printing Apps You Need

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Need an easy-to-use 3D Slicing Program? Im testing Cura for LulzBot

How to Get Rich Quick With a 3D Printer

Trying to find the best way to build a 3D model?

Removing 3D printed support can be a pain, here are some tips.

Have you ever thought about coating a 3Dprinted part in metal? plating

Need ABS or PLA material for your 3D printer? Check this big list.

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What is FDM 3D Printing

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Fused Deposition Modeling (FDM) is a 3D Printing technology popularly featured in most consumer grade desktop 3D printers.  This method of 3D Printing requires a fairly simple set up, using only a heated nozzle, a build platform, and coiled thermoplastic filaments to build an object. Before printing begins, the modeling software slices the 3D CAD file, and it creates an extrusion path that the nozzle will follow. Any necessary supports that the object needs are also factored into the path. The computer controls the nozzles movements as it works its way across the build platform, creating a cross section of the object in accordance with the calculated path.

After the software determines the path for the nozzle, the filaments are unwound and fed through the heated nozzle. The nozzle is hot enough that the plastic becomes semi-liquid. The malleable plastic is then forced from the nozzle in super fine beads. Almost immediately after leaving the nozzle, the plastic hardens and binds to the layer under it. After the nozzle has completed building one layer, the computer lowers the platform about one-sixteenth of an inch, and the nozzle begins extruding material for the next layer. When the object is finished, the user either dissolves the supports attached to it in a solution of detergent and water or simply breaks them off.

FDM Process Video bySolid Concepts, Inc

FDM is more user-friendly than the other two methods, and it has fewer working parts to contend with. Its also more affordable, making it the most popular method for desktop 3D printers. In addition to carrying a lower price tag, the thermoplastic filaments are also environmentally and mechanically stable. However, printing an object with FDM generally takes longer than printing the same object usingSLSorSLA, and the final product will need some retouching. FDM often produces objects with rougher surfaces.

Because FDM produces objects that are durable, it is often used to create prototypes that will withstand strenuous testing. Objects that need to endure large temperature changes, mechanical stress, and chemical corrosion are often printed using FDM. This technique is also used to create final products, especially smaller, detailed objects. Engineers often use FDM when they want to test parts for form and fit, and automotive manufacturers generally use it to create prototypes for smaller parts.

There are a variety of desktop FDM printers available; it is by far the most popular printing method for personal use. Among the many printers in this category currently available, the well knownMakerBot Replicatoris one of the most plug and play friendly of the group.  In addition to the onboard features (assisted leveling, an onboard camera, and more) it comes with cloud storage and ties in to the MakerBot ecosystem.

Here at 3D Supply Guys, we offer a number of different printer brands featuring FDM technology. Our popular printer brands include Flashforge, Solidoodle, and 3Doodler. To see our full line of FDM printer brands, pleaseclick here.

All varieties of quality 3D Printers, 3D Filament, and 3D Supplies, delivered fast. Have a question? Call or email us for easy access to sales & support.

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Functional 3D Printing Processing and Design Perspective

Functional 3D Printing Processing and Design Perspective

Functional 3D Printing Processing and Design Perspective

Dr. Yong Chen is an associate professor in the Department of Industrial and Systems Engineering and Department of Aerospace and Mechanical Engineering (courtesy) at the

(USC). He received his Ph.D. degree in Mechanical Engineering from

in 2001. Prior to joining USC in 2006, he was a senior Research and Development (R&D) engineer in

, the pioneer in 3D Printing industry. Dr. Chens research focuses on additive manufacturing (3D printing) in micro- and meso- scales, especially modeling, analyzing, synthesizing, and optimizing digital design and manufacturing. Dr. Chen has published more than 90 publications in refereed journals and conferences. Among them, he received over 10

in major design and manufacturing journals and conferences. Other major awards he received include the National Science Foundation

Faculty Early Career Development (CAREER) Award

Outstanding Young Manufacturing Engineer Award

from the Society of Manufacturing Engineers (SME). He was cited as one of the top young engineers (ages of 30-45) in USA through the invitation to the National Academy of Engineering (NAE)

in 2009 and 2013, and chaired Advanced Manufacturing session in

China-American Frontiers of Engineering Symposium

in 2015. Currently he serves in the editorial boards of

ASME Journal of Computers and Information in Engineering

International Journal of Precision Engineering and Manufacturing

. He has served as conference/program chairs as well as keynote speakers in several international conferences, including the conference chair of the 2017 International Manufacturing Research Conference (NAMRC/MSEC/ICM&P) held in Los Angeles, California in June 2017.

The majority of 3D printing systems are designed to work with a single material at a time. Furthermore, the printed parts nearly always serve a structural function (e.g. plastic housings, titanium bone implants, etc.). A new generation of 3D printing technologies has started to emerge in which (a) multiple materials can be digitally blended to produce parts having heterogeneous properties, and (b) the deposited materials can serve more than just structural functions, e.g. electrical, thermal, optical, magnetic, chemical or other functions. While the applications for functional 3D printing are nearly endless, significant challenges remain to be addressed in order to achieve desired functions. This talk will start with an overview of 3D printing technology and some recent developments on functional printing. The challenges of developing functional 3D printing processes based on some of our recent work will be discussed. In addition, how to use functional and heterogeneous material property to realize design benefits will be discussed as well as some novel applications enabled by functional 3D printing. The talk will conclude with remarks and thoughts on future 3D printing developments and potential opportunities for design and manufacturing engineers.

Tech terms explained What is 3D printing?

Tech terms explained: What is 3D printing?

From aircraft to pizza, shoes to body parts, 3D printing is becoming more and more popular.

Last updated: 01 January 2018, 09:42 GMT

In the ever-changing world of high-tech gadgets and gizmos, a whole load of jargon is thrown our way that many of us dont necessarily understand.

In our regular seriesWhat iswe tackle a tech term or object and explain what it means so you can understand it a bit more.

[Read more: What will happen to health technology in 2018?]

Here we explain 3D Printing, a manufacturing process that can change lives.

The advent of 3D printing has sparked a media frenzy, and for once the attention is not misplaced: the new technology could revolutionise manufacturing.

Instead of using ink, 3D printers use melted plastic filament, such as PLA (Poly Lactic ACID), to create a thin layer of plastic. The print head gradually builds these layers on top of each other, which harden to create a solid object.

3D printers come with software for creating and printing your own 3D designs. Alternatively 3D printable files are available online.My Mini Factoryhas a huge range of free 3D plans including a soap dish, camera handle, lamp shade and 3D puzzle game.

3D printers have a range of uses from phone cases to chess pieces, toys, jewellery and cooking utensils.

Nickolay Lamm used a 3D printer to print a more realistic Barbie Doll using measurements of the average American woman (below).

Afreeform 3D printed houseis being created in the US along with a 3D printed car, which you can check out in the video below.

But 3D printing has more serious uses within the medical industry.

Adam Rehak from Prague created glasses to help diagnose dyslexia (above).

[Read more: Amazing advances in health technology in 2017]

A woman from the Netherlands hadpart of her skull replacedusing a 3D printed part. Its also being used to create artificial limbs,teethand even a super pill forprinting your own medicine.

In the heart-warming video below, watch a 10-year-old from Edinburgh receive a bionic hand for Christmas.

3D printing is incredibly quick. Once the 3D plan has been created the object can be made within hours or days, depending on the complexity.

In contrast to traditional manufacturing processes, 3D printing only uses the plastic it needs, so theres little waste, making it more efficient and cheaper.

The beauty of creating a 3D object is that you can create something unique that cant be bought in store – whether its a pair of shoes or a temporary tracheal split (above).

Once you factor in the cost of the printer, the cost of 3D printing is comparatively low.

In poor countries, people could use 3D printers to cheaply create products, without being dependent on imports.

Small businesses can produce a limited run of a product in-house, for a relatively small financial outlay.

3D printers can only print one colour at a time, so if you want to use a range of colours, you need to print each piece individually before joining them together. Depending on the complexity of the object, it could take a long time to manually construct.

In the US there was huge controversy when plans for a 3D gun – The Liberator – were published online by Cody Wilson from the group Defense Distributed. In theory, anyone with a 3D printer and plastic can now make a working firearm.

In the UK 3D printed gunshave been banned.

Theres also been debate about whether 3D printers will take away manufacturing jobs.

Maplinintroduced the first 3D printer to the UK high street in 2014. The Velleman K8200 retailed for 700 and could create 3D objects 20 x 20 x 20cm in size.

Previously 3D printers cost thousands of pounds, so in contrast this was a relatively cheaper option.

Since then prices have dropped further,theXYZprinting 3F1J0XEU00E Junior 3D printer(192.59) and theWanhao i3 Duplicator 3D-Printer(339.00) are about half the price.

Polaroid Play 3D Pen(25.95) is a 3D printing pen that lets you draw in plastic, which cools to create a solid object.

If you dont fancy buying your own printer, London-basediMakris the worlds largest 3D printing store, and it offers a bespoke 3D-printing service.

[Read more: Nasa tests rocket engine injector built using 3D printing]

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Best 3D Printers By People Who Use Them Often or Daily

Best 3D Printers Rated By People Who Use Them Daily Or Often

Best 3D Printers Rated By People Who Use Them Daily Or Often

3D Printer Reviews can be tricky, why not ask regular users for their thoughts

If you are researching 3D printers,which one to buy, or even which one to use, you cannot go wrong by using the list or index that3D Hubspublishes each year. These reviews come from the 2015 guide. In fact, the company releases a trends document each month, in which it shares the top printers in use on the 3D Hubs network and how those users rate the printers.

As some of my readers know, Im a fan of what 3D Hubs is building a network of 3D printers around the world so that you can print from anywhere.

That is a big deal because lots of people are not yet willing or able to buy a printer, but they still might want to 3D print a model. 3D Hubs gives them a great chance of finding a nearby printer. In fact, 3D Hubs calculated that a 3D Printer is within 10 miles for over one billion people on the planet (likely the worlds biggest metropolitan areas).

Back to the reviews: Publishing a running rating, each month, ensures that this information is pretty fresh with top printers moving rank from time to time. And you get insights based on active use.

But the annual report, the2015 3D Printer Guide, highlights the best 18 printers as voted by the community. As they state:  The guide is based on 2279 reviews on 235 different 3D printer models, which really shows the full power of our global community. 1623 years of combined 3D Printing experience – wow, how impressive is that!

Note: The guide is web-based, not a PDF, and that works well because you can jump between categories and read more details and reviews with just a click.

They break it down with five main categories: Enthusiast, Plug-n-Play, Kit/DIY, Budget, and Resin. Based on votes, and by the way, you can sort by different criteria. Again, by vote, here they are:

So the guide rounds up the top printers across the 12-month time period, still making it one of the most comprehensive (if not the most) reports on individual 3D printers on the market today.

Now, lets take a quick look at the monthly May Trends report, which starts with a summary:

In May, the Form 1 reclaimed the crown as the highest rated desktop printer. With 400 reviews, its also the most popular resin printer on 3D Hubs. MakerBots Mini is on the rise, jumping from 6 to 2 this month. Zortraxs M200 lost the pole position, claiming 3rd place in this months report.

DeltaWASP, the high-end delta printer from Italy is steadily moving up the chart, now in the 4th spot, while Lulzbots Taz 4 skyrocketed from 14 into the top 5. The Flashforge Creator also had a spectacular rise, jumping from the 15th spot to the 8th position. There are no new printers in the top 20 this month.

Instead, May is the return to glory month. The original Replicator from MakerBot and the first Ultimaker appear again in our top 20.

In the monthly report, they added an industrial class or category:

The Objet Eden 260 and Projet 3500 HDMax both managed to secure complete 5 star ratings, taking home first and second place respectively, while the ProJet 460Plus fell back slightly, claiming 3rd place.

The Objet Pro 30 moved up 2 spots and now claims 6, and new to our list is the uPrint, Stratasys entry level FDM printer, which claimed the 10th position.

As another bonus, I wanted to share the Top 3D Print Cities.

In the Monthly report, the following cities and their ranks:

1: Its called The City That Never Sleeps for a reason. New York extended its lead as the top print city, with 248 3D printers available on 3D Hubs.

2: Milan breached the impressive 200 mark.

3: Los Angeles grew a staggering 18.4%, extending its lead ahead of London with 187 3D printers.

9:  Boston sprinted into our top 10 with a strong 18.2% growth. Total 104.

So, if you are in the market for a 3D Printer, this list is an awesome place to start. It is an ever-changing list, and you can dig in on their methodology. If there are other resources you have used, please let me know by clicking on my name, below the post title.

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