Dnd 3d print

🐲 Collection • 3D files for 3D printing to play Dungeons and Dragons・Cults

🐲 Collection • 3D files for 3D printing to play Dungeons and Dragons

Download 3D files of Dungeons and Dragons

Do you like playing Dungeons and Dragons? Then join us on an adventure to find out where to get the best 3D models and 3D printing files of D&D miniatures and terrain. There's plenty to develop a whole universe, customize your miniatures and embellish your game boards.

Ulvheim building and ruins - A

Free

Fates End - Dice Tower - FREE Wizard Tower!

Free

Guild Mage Redux (32mm scale)

Free

Skeletons! 28mm, no supports.

Free

Beholder - 28mm D&D miniature

Free

Wood Stump

Free

28mm Bar Back and Accessories

Free

Oni

Free

Ulvheim Small Merchant House

Free

Locked Chest

Free

Purple Worm

Free

Ghoul

Free

Lady Knights (multiple poses)

Free

Wargaming Tree growing on Rocks / Ruin

Free

Crystal Cluster

Free

Tower of Darkness (28mm/Heroic scale)

Free

Tresure chest 2.

Free

Naga Warriors

Free

Dice Tower sized for resin printers

Free

Gloomhaven Captain of the Guard

Free

Cultists (28/32mm scale)

Free

28mm Fountain of the Alewife

Free

Palm Tree

Free

ClickLock building-system

Free

Goblins! 28mm, no supports

Free

Medieval Cottage (15mm scale)

Free

Halberdiers! 28mm, no supports

Free

Knight (28mm scale Wrath & Ruin preview model)

Free

Armored Warrior (multiple poses)

Free

Dragonborn Warlord (multiple poses)

Free

Fey Goddess - Tabletop Miniature

€0. 96

Modular arabic style village

Free

Flesh Mound

Free

Wolf - Tabletop Miniature

€0.96

Blacksmith Shop for 28mm miniatures gaming

Free

Gloomhaven Forgotten Circles Monster: Aesther Ashblade

Free

Lurching Keep (28mm/32mm scale)

Free

Openlock / Openforge Skull Cave Dungeon Entrance

Free

ScatterBlocks: Dwarven Statue (Heroic Scale)

Free

Barrel and Mimic Barrel

Free

Skeleton King - Tabletop Miniature

Free

Labyrinth Tower Gift Box Puzzle

€1. 44

Undead Bone Golem - 28mm Undead

Free

Secret Lock Book

Free

Blue Dragon for 28mm Tabletop Roleplay

Free

Crystal Set

Free

Wood Elf - Tabletop Miniature

Free

Tree with Base

Free

Guild Mage Redux (32mm scale)

Fates End - Dice Tower - FREE Wizard Tower!

All-in-one travel DnD kit

Dice Tower sized for resin printers

Here is our selection of the best 3D printer files to play and customize your Dungeons and Dragons games, all of these creations are from the Cults STL file platform and are very easily 3D printable

Dungeons and Dragons, also known as D&D (or DND), is a fantasy tabletop role-playing game (RPG) derived from wargames. The original D&D, published in 1974, was designed by Gary Gygax and Dave Arneson. Like an RPG video game, a game of D&D does not end in one sitting; it continues week after week as players' characters gain experience, skills, and loot!

To get the most out of your games, with this collection of STL files, you'll be able to print even more miniatures and elements for your playground. No matter which version of Dungeons & Dragons you play, you'll be able to print your warriors, dwarves, monks, hordes and other elves!

From now on, thanks to resin-based 3D printers, your miniatures will be very detailed, just like the real thing! All you need to do is to paint them to obtain superb game elements. Another advantage of 3D printing is the customization, you can add your faces, new weapons or make jokes to your friends players. Moreover the 3D printing community is very active regarding those game worlds like Wargames and Dungeons and Dragons, so you will have access to a lot of easily 3D printable models designed by all members.

30 Cool Things to 3D Print for Dungeons & Dragons (Free) – 3D Printerly

Since its creation in the 80s, Dungeons, and Dragons is still the most popular table game in many parts of the world. This is evident from the series of awards the game has amassed over the last three decades.

I have researched and compiled lists of cool things from Dungeons and Dragons ranging from the characters to the terrains that you can 3D print from your 3D printer. Buckle up as I take you through this list of amazing stuff.

By choosing this wholesome pack, you’ll get to print a whole package containing; Wizard (2 versions), Rogue (Halfling), War Cleric (Dwarf), Fighter (Dwarf), Ranger Warlock, Barbarian, Tempest Cleric, Bard, Monk, Paladin, Druid, Dungeon Master.

Created by Efgar

This is the time for something scary! The graveyard-themed set is an item I suggest you print. Get that spool of filament or resin into your 3D printer and do print something frightening.

Created by EpicNameFail

These dungeon doors come in different styles that blow your mind. It will make more sense if you give it a good coat! Excellent addition to your DnD games. You’ll find this on MyMiniFactory rather than Thingiverse.

Created by Leonard Escover

Having walls to mark your D&D territory is cool, but you know what is even cooler? A wall with a torch.

Created by Baroudeur

Spice up your game with diverse characters.

Created by Stormforge Minis

When you find it, you’d love it. Manticores are rare, and a good one as such.

Created by M3DM

To give your tabletop game a facelift, you’d be needing some props. One of the props you can’t go wrong with are some good quality barrels.

Created by Trynn

Created by Hugolours

It’s the details and the pose for me. Get the game rolling with this tabletop Dragon.

Created by Miguel Zavala

The tabletops measure 1. 5 inches in diameter but should be able to be scaled to suit your gaming needs.

Created by Curufin

Having something to beautify your terrain and give it that appealing look is something we all look forward to. A rock bridge can serve that purpose in a great way.

Created by M3DM

This is one of the coolest things you can 3D print. Lovers of Dungeons and Dragons know the importance of a dragon in their game.

Created by Ipminiatures

One of those who downloaded and 3D printed this exclaimed in the comment section, “this might be one of the most useful things I have ever found on Thingiverse!” I agree with him, for many reasons. Who goes to war without a loaded arsenal?

Created by dutchmogul

Adding a cottage to your DnD isn’t a bad idea in any way. It might take a lot of assemblages, but it is worth it!

Created by Code2

It’s called Dungeons and Dragons for a reason; some props that give the feel should be printed. The dead tree to me is one of the cool stuff you can 3D print on your own to add to your D&D tabletop collections.

Creator M3DM

If you want to give your Dungeons and Dragons game a medieval touch and add some little imperfections to it, printing this is a great idea. It is a story building with no roof.

The excessive use of filaments shouldn’t scare you because it has just about 5% infill and requires no support.

Created by Terrain4Print

This VII-XVIII-inspired warship is a private collection of the creator. However, the ship has also some related art to Dungeons and Dragons and it is well integrated with the shipping line.

Created by Piperrak

A bizarre floating rock chained to the ground. A perfect mystic piece to use in your dungeons.

Created by dandruff

The cool thing about these RPGs will definitely be the captain of the knights. You get to have knights and their gaffers. So cool! No raft or support is needed, just download and print.

Created by dutchmogul

Don’t lose any of your D&D props by having a tray in which you can put everything in. Your character tokens, cubes, and dragons, etc.

Created by tev

The chest has amazing features: a lock system which was not in the previous model.

There are a few pieces but should be easy to assemble, also you should not need to glue any part but depending on your printer, maybe you will want to glue the hinge rod. All pieces should fit and stay without problems.

Created by makersAnvil

This special kit makes a well, or you can rearrange the stone segments into a low, winding wall. If you want to print a set of blocks now, you can find the Cyclopean Stone set here on Thingiverse. Like all ScatterBlocks, it prints quickly and without the need for rafts or support.

Created by dutchmogul

Created by Storm Forge

Probably one of the coolest things about Dungeons and Dragons. The dice set containing D4, D6, D8, D10, D12, & D20 is a recommendable thing to 3D print.

Created by PhysUdo

I love coins. Especially when you coat them in golden or brass paint to give them that real look. This can be found on Cults3D.

Created by agroeningen

If the old-fashioned idea of tracking your spells irks you, then this innovative spell tracker is for you. The spells are racked up in this container and it is only taken out when it has been used.

Created by DawizNJ

You may want to consider 3D printing a dice holder especially when it is a familiar problem that the hinges of the original dice holder might sever from heavy usage. A screw holder like this one is a more preferred choice for holding dice.

Created by jlambier

The watchtower kit includes; the poles, the roof, the stepping board, and the ladder.

Created by BroamChomsky

The purple worm is another yet amazing stuff from DnD that you can 3D print. To get a better print, slice the 3D design into three parts. Once that is done, you’re on your way to getting an awesome result.

Created by schlossbauer

The multipurpose dice holder can serve a great number of purposes for you:

Can hold your dice.
Holds your miniatures
Can hold your can of beer (or soda)

Created by ZeusAndHisBeard

Dungeons and Dragons pieces are delightful to print. Either you want to use the piece to replace the old one or keep it as a souvenir. Whichever reason motivated you to try it out, just know it’s worth it!

You made it to the end of the list! Hopefully you found it useful for your 3D printing journey.

If you want to check out other similar list posts I carefully put together, check out some of these:

30 Cool Things to 3D Print for Gamers – Accessories & More
35 Genius & Nerdy Things That You Can 3D Print Today
51 Cool, Useful, Functional 3D Printed Objects That Actually Work
30 Holiday 3D Prints You Can Make – Valentines, Easter & More
31 Awesome 3D Printed Computer/Laptop Accessories to Make Now
30 Cool Phone Accessories That You Can 3D Print Today
30 Best 3D Prints For Wood to Make Now

What is 3D printing and how it can be used! Interesting!

What is 3D printing

3D printing technology was patented in the 80s of the last century, but gained popularity relatively recently. New, promising techniques have been developed and the possibilities of 3D technologies have reached a completely new level. However, to this day, the technique is not known in all circles, and not everyone is aware of what 3D printing is. In today's article, we will try to explain in detail and in an accessible way what 3D printing is and where it is used.

In short, 3D printing is a technique for manufacturing three-dimensional products based on digital models. Regardless of the specific technology, the essence of the process is the gradual layer-by-layer reproduction of objects.
This process uses a special device - a 3D printer, which prints certain types of materials. More details about it are written here. Other names for the technology are rapid prototyping or additive manufacturing. Often the phrase "additive technologies" is used in the meaning of "3D technologies".

3D printing steps

To make it clearer what 3D printing is, let's take a look at the playback process step by step. Below are the specific stages of 3D printing. How it works:

3D modeling of the required object is performed according to certain rules;
The file with the digital model is loaded into the slicer program, which generates the control code for the 3D printer;
Sets required 3D printing options;
The code is written to a removable memory that connects to the 3D printer;
3D model reproduced.

Objects are reproduced gradually. According to the required shape, the selected material is applied layer by layer, forming the finished product. It is worth noting that the possibilities of 3D printing are almost limitless, that is, anything can be made. In some technologies, very thin overhanging elements are provided with supports, thanks to which they can be avoided from sagging.
Naturally, this is a very simplified description of the stages of 3D printing, but they give a very clear idea of the essence of the technique.

Other questions and answers about 3D printers and 3D printing:

Basics What is 3D scanning?
Basics What is a 3D model?

3D Printing Technologies

Different 3D printing technologies are used to reproduce different objects. They differ both in the consumables used, and in the speed and accuracy of printing. Here are the main 3D printing technologies:

Fused deposition modeling (FDM) . One of the most common 3D printing technologies, used in most desktop 3D printers, and represents an ideal price / quality ratio. Printing occurs by layer-by-layer supply of a thread of molten plastic;
Laser stereolithography (SLA) . The formation of the object occurs due to the layer-by-layer illumination of a liquid photopolymer resin by a laser, which hardens under the influence of radiation. One of the variations of this technology is DLP 3D printing. It uses a special projector instead of a laser. Both 3D printing methods are used to create objects with a high degree of detail. In the case of DLP printing, speed is also an added advantage;
Selective laser sintering (SLS) . Reproduction is performed by layer-by-layer melting of a special powder under the action of laser radiation. This 3D printing method is widely used in the industry for the manufacture of durable metal elements

3D Printing Applications

As you may have guessed by now, 3D printing is extremely versatile. The second name of the technology - rapid prototyping - speaks for itself. In the manufacture of prototypes and models of models, 3D printing can be simply indispensable. It is also a very cost-effective solution for small-scale production. In the aerospace and automotive industries, 3D technologies are already being used with might and main due to the high profitability and speed of manufacturing components. Culinary professionals are working on the development of 3D food printers, and in medicine, 3D printing has become something of a technology of the future. With the help of 3D bioprinting, it is planned to produce bones, organs and living tissues, but for now, implants and full-fledged medicines are printed on 3D printers. Desktop 3D printers can be used for domestic purposes: for repairs, making various household items, and so on. And designers, fashion designers, sculptors and artists appreciate the possibilities of 3D printing and 3D modeling as an unusual way to realize their talent.

Well, that was a brief description of what 3D printing is. We hope we were able to provide the necessary information in an accessible way. If you have additional questions that we have not covered, write to us by e-mail and we, if necessary, will add your questions! Best regards, 3DDevice team.

We also want to remind you about the possibility to order 3D printing, 3D scanning, 3D modeling services or purchase of related equipment and consumables with delivery throughout Ukraine in 3DDevice. If you have any questions, please contact us at one of the phone numbers listed here. We look forward to collaborating!

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3D printing for dummies or "what is a 3D printer?"

1 3D printing term
2 3D printing methods

2.1 Extrusion printing
2.2 Melting, sintering or gluing
2.3 Stereolithography
2.4 Lamination

3 Fused Deposition Printing (FDM)

3.1 Consumables
3.2 Extruder
3.3 Working platform
3.4 Positioners
3.5 Control
3.6 Varieties of

4 Laser stereolithography (SLA)

4.1 Lasers and projectors
4.2 Cuvette and resin
4.3 Varieties of

The term 3D printing

The term 3D printing has several synonyms, one of which quite briefly and accurately characterizes the essence of the process - "additive manufacturing", that is, production by adding material. The term was not coined by chance, because this is the main difference between multiple 3D printing technologies and the usual methods of industrial production, which in turn received the name "subtractive technologies", that is, "subtractive". If during milling, grinding, cutting and other similar procedures, excess material is removed from the workpiece, then in the case of additive manufacturing, material is gradually added until a solid model is obtained.

Soon 3D printing will even be tested on the International Space Station

Strictly speaking, many traditional methods could be classified as "additive" in the broad sense of the word - for example, casting or riveting. However, it should be borne in mind that in these cases, either the consumption of materials is required for the manufacture of specific tools used in the production of specific parts (as in the case of casting), or the whole process is reduced to joining ready-made parts (welding, riveting, etc. ). In order for the technology to be classified as “3D printing”, the final product must be built from raw materials, not blanks, and the formation of objects must be arbitrary - that is, without the use of forms. The latter means that additive manufacturing requires a software component. Roughly speaking, additive manufacturing requires computer control so that the shape of final products can be determined by building digital models. It was this factor that delayed the widespread adoption of 3D printing until the moment when numerical control and 3D design became widely available and highly productive.

3D printing techniques

There are many 3D printing technologies, and even more names for them due to patent restrictions. However, you can try to divide technologies into main areas:

Extrusion printing

This includes techniques such as deposition fusion (FDM) and multi-jet printing (MJM). This method is based on the extrusion (extrusion) of consumables with the sequential formation of the finished product. As a rule, consumables consist of thermoplastics or composite materials based on them.

Melting, sintering or bonding

This approach is based on bonding powdered material together. Formation is done in different ways. The simplest is gluing, as is the case with 3D inkjet printing (3DP). Such printers deposit thin layers of powder onto the build platform, which are then selectively bonded with a binder. Powders can be made up of virtually any material that can be ground to a powder—plastic, wood, metal.

This model of James Bond's Aston Martin was successfully printed on a Voxeljet SLS printer and blown up just as successfully during the filming of Skyfall instead of the expensive original

sintering (SLS and DMLS) and smelting (SLM), which allow you to create all-metal parts. As with 3D inkjet printing, these devices apply thin layers of powder, but the material is not glued together, but sintered or melted using a laser. Laser sintering (SLS) is used to work with both plastic and metal powders, although metal pellets usually have a more fusible shell, and after printing they are additionally sintered in special ovens. DMLS is a variant of SLS installations with more powerful lasers that allow sintering metal powders directly without additives. SLM printers provide not just sintering of particles, but their complete melting, which allows you to create monolithic models that do not suffer from the relative fragility caused by the porosity of the structure. As a rule, printers for working with metal powders are equipped with vacuum working chambers, or they replace air with inert gases. Such a complication of the design is caused by the need to work with metals and alloys subject to oxidation - for example, with titanium.

Stereolithography

How an SLA printer works

Stereolithography printers use special liquid materials called "photopolymer resins". The term "photopolymerization" refers to the ability of a material to harden when exposed to light. As a rule, such materials react to ultraviolet irradiation.

Resin is poured into a special container with a movable platform, which is installed in a position near the surface of the liquid. The layer of resin covering the platform corresponds to one layer of the digital model. Then a thin layer of resin is processed by a laser beam, hardening at the points of contact. At the end of illumination, the platform together with the finished layer is immersed to the thickness of the next layer, and illumination is performed again.

Lamination

3D printers using lamination technology (LOM)

Some 3D printers build models using sheet materials - paper, foil, plastic film.

Layers of material are glued on top of each other and cut along the contours of the digital model using a laser or blade.

These machines are well suited for prototyping and can use very cheap consumables, including regular office paper. However, the complexity and noise of these printers, coupled with the limitations of the models they produce, limit their popularity.

Fused deposition modeling (FDM) and laser stereolithography (SLA) have become the most popular 3D printing methods used in the home and office.

Let's take a closer look at these technologies.

Fused Deposition Printing (FDM)

FDM is perhaps the simplest and most affordable 3D construction method, which is the reason for its high popularity.
High demand for FDM printers is driving device and consumable prices down rapidly, along with technology advances towards ease of use and improved reliability.

Consumables

ABS filament spool and finished model

FDM printers are designed to print with thermoplastics, which are usually supplied as thin filaments wound on spools. The range of "clean" plastics is very wide. One of the most popular materials is polylactide or "PLA plastic". This material is made from corn or sugar cane, which makes it non-toxic and environmentally friendly, but makes it relatively short-lived. ABS plastic, on the other hand, is very durable and wear-resistant, although it is susceptible to direct sunlight and can release small amounts of harmful fumes when heated. Many plastic items that we use on a daily basis are made from this material: housings for household appliances, plumbing fixtures, plastic cards, toys, etc.

In addition to PLA and ABS, printing is possible with nylon, polycarbonate, polyethylene and many other thermoplastics that are widely used in modern industry. More exotic materials are also possible, such as polyvinyl alcohol, known as "PVA plastic". This material dissolves in water, which makes it very useful for printing complex geometric patterns. But more on that below.

Model made from Laywoo-D3. Changing the extrusion temperature allows you to achieve different shades and simulate annual rings

It is not necessary to print with homogeneous plastics. It is also possible to use composite materials imitating wood, metals, stone. Such materials use all the same thermoplastics, but with impurities of non-plastic materials.

So, Laywoo-D3 consists partly of natural wood dust, which allows you to print "wooden" products, including furniture.

The material called BronzeFill is filled with real bronze, and models made from it can be ground and polished, achieving a high similarity to products made from pure bronze.

One has only to remember that thermoplastics serve as a connecting element in composite materials - they determine the thresholds of strength, thermal stability and other physical and chemical properties of finished models.

Extruder

Extruder - FDM print head. Strictly speaking, this is not entirely true, because the head consists of several parts, of which only the feed mechanism is directly "extruder". However, by tradition, the term "extruder" is commonly used as a synonym for the entire print assembly.

FDM extruder general design

The extruder is designed for melting and applying thermoplastic thread. The first component is the thread feed mechanism, which consists of rollers and gears driven by an electric motor. The mechanism feeds the thread into a special heated metal tube with a small diameter nozzle, called a "hot end" or simply a "nozzle". The same mechanism is used to remove the thread if a change of material is needed.

The hot end is used to heat and melt the thread fed by the puller. As a rule, nozzles are made from brass or aluminum, although more heat-resistant, but also more expensive materials can be used. For printing with the most popular plastics, a brass nozzle is quite enough. The “nozzle” itself is attached to the end of the tube with a threaded connection and can be replaced with a new one in case of wear or if a change in diameter is necessary. The nozzle diameter determines the thickness of the molten filament and, as a result, affects the print resolution. The heating of the hot end is controlled by a thermistor. Temperature control is very important, because when the material is overheated, pyrolysis can occur, that is, the decomposition of plastic, which contributes both to the loss of the properties of the material itself and to clogging of the nozzle.

PrintBox3D One FDM Extruder

To prevent the filament from melting too early, the top of the hot end is cooled by heatsinks and fans. This point is of great importance, since thermoplastics that pass the glass transition temperature significantly expand in volume and increase the friction of the material with the walls of the hot end. If the length of such a section is too long, the pulling mechanism may not have enough strength to push the thread.

The number of extruders may vary depending on the purpose of the 3D printer. The simplest options use a single print head. The dual extruder greatly expands the capabilities of the device, allowing you to print one model in two different colors, as well as using different materials. The last point is important when building complex models with overhanging structural elements: FDM printers cannot print “over the air”, since the applied layers require support. In the case of hinged elements, temporary support structures have to be printed, which are removed after printing is completed. The removal process is fraught with damage to the model itself and requires accuracy. In addition, if the model has a complex structure with internal cavities that are difficult to access, building conventional supports may not be practical due to the difficulty in removing excess material.

Finished model with PVA supports (white) before and after washing

In such cases, the very water-soluble polyvinyl alcohol (PVA) comes in handy. Using a dual extruder, you can build a model from waterproof thermoplastic using PVA to create supports.

After printing, PVA can be simply dissolved in water and a complex product of perfect quality can be obtained.

Some FDM printers can use three or even four extruders.

Work platform

Heated platform covered with removable glass work table

Models are built on a special platform, often equipped with heating elements. Preheating is required for a wide range of plastics, including the popular ABS, which are subject to a high degree of shrinkage when cooled. The rapid loss of volume by cold coats compared to freshly applied material can lead to model distortion or delamination. The heating of the platform makes it possible to significantly equalize the temperature gradient between the upper and lower layers.

Heating is not recommended for some materials. A typical example is PLA plastic, which requires a fairly long time to harden. Heating PLA can lead to deformation of the lower layers under the weight of the upper ones. When working with PLA, measures are usually taken not to heat up, but to cool the model. Such printers have characteristic open cases and additional fans blowing fresh layers of the model.

Calibration screw for work platform covered with blue masking tape

The platform needs to be calibrated before printing to ensure that the nozzle does not hit the applied layers and move too far causing air-to-air printing resulting in plastic vermicelli. The calibration process can be either manual or automatic. In manual mode, calibration is performed by positioning the nozzle at different points on the platform and adjusting the platform inclination using the support screws to achieve the optimal distance between the surface and the nozzle.

As a rule, platforms are equipped with an additional element - a removable table. This design simplifies the cleaning of the working surface and facilitates the removal of the finished model. Stages are made from various materials, including aluminum, acrylic, glass, etc. The choice of material for the manufacture of the stage depends on the presence of heating and consumables for which the printer is optimized.

For a better adhesion of the first layer of the model to the surface of the table, additional tools are often used, including polyimide film, glue and even hairspray! But the most popular tool is inexpensive, but effective masking tape. Some manufacturers make perforated tables that hold the model well but are difficult to clean. In general, the expediency of applying additional funds to the table depends on the consumable material and the material of the table itself.

Positioning mechanisms

Operation of positioning mechanisms

Of course, the print head must move relative to the working platform, and unlike conventional office printers, positioning must be done not in two, but in three planes, including height adjustment.

Positioning pattern may vary. The simplest and most common option involves mounting the print head on perpendicular guides driven by stepper motors and providing positioning along the X and Y axes.

Vertical positioning is carried out by moving the working platform.

On the other hand, it is possible to move the extruder in one plane and the platforms in two.

SeemeCNC ORION Delta Printer

One option that is gaining popularity is the delta coordinate system.

Such devices are called "delta robots" in the industry.

In delta printers, the print head is suspended on three manipulators, each of which moves along a vertical rail.

The synchronous symmetrical movement of the manipulators allows you to change the height of the extruder above the platform, and the asymmetric movement causes the head to move in the horizontal plane.

A variant of this system is the reverse delta design, where the extruder is fixed to the ceiling of the working chamber, and the platform moves on three support arms.

Delta printers have a cylindrical build area, and their design makes it easy to increase the height of the working area with minimal design changes by extending the rails.

In the end, everything depends on the decision of the designers, but the fundamental principle does not change.

Control

Typical Arduino-based controller with add-on modules

FDM printer operation, including nozzle and platform temperature, filament feed rate, and stepper motors for positioning the extruder, is controlled by fairly simple electronic controllers. Most controllers are based on the Arduino platform, which has an open architecture.

The programming language used by printers is called G-code (G-Code) and consists of a list of commands executed in turn by the 3D printer systems. G-code is compiled by programs called "slicers" - standard 3D printer software that combines some of the features of graphics editors with the ability to set print options through a graphical interface. The choice of slicer depends on the printer model. RepRap printers use open source slicers such as Skeinforge, Replicator G and Repetier-Host. Some companies make printers that require proprietary software.

Program code for printing is generated using slicers

As an example, we can mention Cube printers from 3D Systems. There are companies that offer proprietary software but allow third-party software, as is the case with the latest generation of MakerBot 3D printers.

Slicers are not intended for 3D design per se. This task is done with CAD editors and requires some 3D design skills. Although beginners should not despair: digital models of a wide variety of designs are offered on many sites, often even for free. Finally, some companies and individuals offer 3D design services for custom printing.

Finally, 3D printers can be used in conjunction with 3D scanners to automate the process of digitizing objects. Many of these devices are designed specifically to work with 3D printers. Notable examples include the 3D Systems Sense handheld scanner and the MakerBot Digitizer handheld desktop scanner.

MakerBot Replicator 5th Generation FDM Printer with built-in control module on the top of the frame

The user interface of a 3D printer can consist of a simple USB port for connecting to a personal computer. In such cases, the device is actually controlled by the slicer.

The disadvantage of this simplification is a rather high probability of printing failure when the computer freezes or slows down.

A more advanced option includes an internal memory or memory card interface to make the process standalone.

These models are equipped with control modules that allow you to adjust many print parameters (such as print speed or extrusion temperature). The module may include a small LCD display or even a mini-tablet.

Varieties of FDM printers

Stratasys Fortus 360mc professional FDM printer that allows printing with nylon

FDM printers are very, very diverse, ranging from the simplest home-made RepRap printers to industrial installations capable of printing large-sized objects.

Stratasys, founded by Scott Crump, the inventor of FDM technology, is a leader in the production of industrial installations.

You can build the simplest FDM printers yourself. Such devices are called RepRap, where "Rep" indicates the possibility of "replication", that is, self-reproduction.

RepRap printers can be used to print custom made plastic parts.

Controller, rails, belts, motors and other components can be easily purchased separately.

Of course, assembling such a device on your own requires serious technical and even engineering skills.

Some manufacturers make it easy by selling DIY kits, but these kits still require a good understanding of the technology.

A variant of the popular late 3rd generation Prusa RepRap printer

If you like to make things with your own hands, then RepRap printers will pleasantly please you with the price: the average cost of the popular early generation Prusa Mendel design is about $500 in a complete set.

And, despite their "do-it-yourself nature", RepRap printers are quite capable of producing models with quality at the level of expensive branded counterparts.

Ordinary users who do not want to delve into the intricacies of the process, but require only a convenient device for household use, can purchase a ready-made FDM printer.

Many companies are focusing on the development of the consumer market segment, offering 3D printers for sale that are ready to print "straight out of the box" and do not require serious computer skills.

3D Systems Cube consumer 3D printer

The most famous example of a consumer 3D printer is the 3D Systems Cube.

While it doesn't boast a huge build area, ultra-fast print speeds, or superb build quality, it's easy to use, affordable, and safe: This printer has received the necessary certification to be used even by children.

Mankati FDM printer demonstration: http://youtu. be/51rypJIK4y0

Laser Stereolithography (SLA)

Stereolithographic 3D printers are widely used in dental prosthetics

Stereolithographic printers are the second most popular and widespread after FDM printers.

These units deliver exceptional print quality.

The resolution of some SLA printers is measured in a matter of microns - it is not surprising that these devices quickly won the love of jewelers and dentists.

The software side of laser stereolithography is almost identical to FDM printing, so we will not repeat ourselves and will only touch on the distinctive features of the technology.

Lasers and projectors

Projector illumination of a photopolymer model using Kudo3D Titan DLP printer as an example

The cost of stereolithography printers is rapidly declining, due to growing competition due to high demand and the use of new technologies that reduce the cost of construction.

Although the technology is generically referred to as "laser" stereolithography, most recent developments use UV LED projectors for the most part.

Projectors are cheaper and more reliable than lasers, do not require the use of delicate mirrors to deflect the laser beam, and have higher performance. The latter is explained by the fact that the contour of the whole layer is illuminated as a whole, and not sequentially, point by point, as is the case with laser options. This variant of the technology is called projection stereolithography, "DLP-SLA" or simply "DLP". However, both options are currently common - both laser and projector versions.

Cuvette and resin

Photopolymer resin is poured into a cuvette

A photopolymer resin that looks like epoxy is used as consumables for stereolithographic printers. Resins can have a variety of characteristics, but they all share one key feature for 3D printing applications: these materials harden when exposed to ultraviolet light. Hence, in fact, the name "photopolymer".

When polymerized, resins can have a wide variety of physical characteristics. Some resins are like rubber, others are hard plastics like ABS. You can choose different colors and degrees of transparency. The main disadvantage of resins and SLA printing in general is the cost of consumables, which significantly exceeds the cost of thermoplastics.

On the other hand, stereolithography printers are mainly used by jewelers and dentists who do not need to build large parts but appreciate the savings from fast and accurate prototyping. Thus, SLA printers and consumables pay for themselves very quickly.

An example of a model printed on a 3D laser stereolithography printer

Resin is poured into a cuvette, which can be equipped with a lowering platform. In this case, the printer uses a leveling device to flatten the thin layer of resin covering the platform just prior to irradiation. As the model is being made, the platform, together with the finished layers, is “embedded” in the resin. Upon completion of printing, the model is removed from the cuvette, treated with a special solution to remove liquid resin residues and placed in an ultraviolet oven, where the final illumination of the model is performed.

Some SLA and DLP printers work in an "inverted" scheme: the model is not immersed in the consumable, but "pulled" out of it, while the laser or projector is placed under the cuvette, and not above it. This approach eliminates the need to level the surface after each exposure, but requires the use of a cuvette made of a material transparent to ultraviolet light, such as quartz glass.

The accuracy of stereolithographic printers is extremely high. For comparison, the standard for vertical resolution for FDM printers is considered to be 100 microns, and some variants of SLA printers allow you to apply layers as thin as 15 microns. But this is not the limit. The problem, rather, is not so much in the accuracy of lasers, but in the speed of the process: the higher the resolution, the lower the print speed. The use of digital projectors allows you to significantly speed up the process, because each layer is illuminated entirely. As a result, some DLP printer manufacturers claim to be able to print with a vertical resolution of one micron!

Video from CES 2013 showing Formlabs Form1 stereolithography 3D printer in action: http://youtu.be/IjaUasw64VE

Stereolithography Printer Options

Formlabs Form1 Desktop Stereolithography Printer

As with FDM printers, SLA printers come in a wide range in terms of size, features and cost. Professional installations can cost tens if not hundreds of thousands of dollars and weigh a couple of tons, but the rapid development of desktop SLA and DLP printers is gradually reducing the cost of equipment without compromising print quality.

Models such as the Titan 1 promise to make stereolithographic 3D printing affordable for small businesses and even home use at prices in the region of $1,000.