In this Best 3D Scanner Under $200 Review, we are going to show you the cheapest 3D Scanners on the market. All of them are approximately around 200$. Any Best 3D Scanner Under $200 can lack precision in comparison to more expensive 3D Scanners. Nevertheless, you should consider those cheap 3D Scanners if you are starting in the world of 3D Scanning or if you do not require advanced features. Here is the list:
iSense 3D Scanner for iPhone
Connected to an iPhone, the iSense 3D Scanner for iPhone 6 Kit it can slip into a pocket. This 3D Scanner is suitable for on the road 3D scan.
Nonetheless, it has some drawbacks. For example, it has low accuracy. So you won’t be able to catch all those refined details that you might want.
Also, you cannot 3D Scan models in some lighting conditions.
The Xbox One is a simple 3D Scanner created for the Xbox video game console. Despite it does not have huge precision while 3D scanning objects it happens that it scans pretty easily and fast. Most of the small 3D scanning devices for PCs or video games do not have accurate precision like industrial 3D Scanners but still work pretty good. In addition, the prices are much cheaper.
XYZprinting Handheld 3D Scanner
In certain ways, the XYZprinting 3D scanner is extremely impressive. It’s inexpensive but astonishingly good at picking out detail in things for passable, or even extraordinary, 3D scans. For under $200, that’s something.
On the flip side, it was an absolute pain to get working, as well as the program is at times embarrassing. A careful thumbs up whether or not it matches your avocations, or if this can be the sort of stuff that might be helpful to your school. You only have to be sure because whether it’ll play together with your hardware to maintain the receipt is anyone’s think – regardless of what the specifications say.
BQ Ciclop 3D Scanner
BQ is famous because of its variety of electronics goods, from graphics tablets and smartphone to 3D scanners and 3D printers.
Both it working applications and the hardware called Horus are under a CC-BY-SA and GPL license.
This cost the laser triangulation technology is used by the 3D scanner to 3D scan items placed on its rotating table that is automatic. Its electronic equipment is just encompassed by this low-cost variant of the BQ Ciclop. All other components (including framework and poles) has to be purchased and/or 3D printed.
3D printers have now been out on the market for more than ten years.
They come fully assembled and then we got the 3D printers that require you to join them together better known as a 3D printer kit.
The prices of 3D printers are constantly going down, and new cheap 3D printing companies are appearing online almost every month.
From desired tailored gifts to items of clothing that are easily made to fit all 3D printing can accomplish this and more!
The prices of 3D printing machines and the complexity of them vary by the manufacturer or brand of the 3D printer that you purchase.
Most people prefer a plug and play 3D printer, but there are a few individuals who would like to know their 3D printing machines inside out.
3D printers’ kits are a perfect match for them also the low price are an incentive in the purchasing of a 3D printer kit.
Below is a list of cheap 3D printer kits, click on the images to get their prices:
But the benefits of buying an already assembled printer is that all you need to power it up, choose your 3D design and hit print and watch the magic of creation happen! Again the competition and innovation surrounding 3D printing technologies have dramatically decreased the prices of 3D printers, therefore making it very affordable and attainable to the average consumer. A cheap 3D printer kit can be anywhere from $300 to $2000 but, of course, the quality of the prototype constructed by the machine will greatly depend on what you paid. A big mistake for you to do is to rush and get one without creating a checklist of personal requirements for your future projects regarding the usage of the 3D printer.
Therefore consider these questions before you purchase your first or next 3D prototyping machine:
What can of product do you desire to replicate?
Will the 3D printer be able to print the size of the item desired?
How much is CAD knowledge required to use the 3D printer?
Does it come with a 3D scanner?
How much assembly requires this 3D printer?
The length of time the 3D printer takes to produce the prototype,
Price of substance material which will be needed to construct the prototype.
Warranty and services which come with the 3D printer once purchased.
One organization that has profoundly contributed to the low-cost of 3D printers is Dr. Adrain Bowyer who started the RepRap project. We can consider the RepRap Project as the ultimate do-it-yourself (DIY) 3D-printer organization for it has given rise to many known 3D-printers including Makerbot, Prusa, Printrbot, and Huxley. At Dr. Bowyer website’s RepRap.org you will find more than a couple of 3D printers also plans you find a forum and the support if you decide to build your 3D printing machine.
Furthermore, Dr. Bowyer is one of the co-creators of Thingverse.com. Thingverse.com is where you can browse through their many categories of 3D models and once you found the right 3D-design which you would like to 3D print can easily download it to your computer all for FREE!
You can find not only very expensive 3D printers but also low-cost printers. Indeed, a cheap 3D printer kit will be the preferred choice for most consumers out there, and if you want to find the one that will fill your needs, you will take some time to find.
The machines become self-aware and start to take out the human race.
3D printing is here to stay and is slowly changing the face of manufacturing for the better.
The days where you have to take an idea to someone to have a prototype created.
The process that involves can now be in your home, businesses, and schools.
3D printing options
3d printing has the power to create just about anything you can think.
There are several 3d printing options to choose from when determining what to buy.
Each one has pros and cons and different materials each one can use.
There are hundreds of different materials to choose from but not every printer can use all the materials.
What you want to build will largely determine which printer is right for you.
What 3D Printing is Doing to Help
Not very many people had faith in 3D printing when it first made its appearance, believing it to be just another fad that would disappear with the rest.
However, it has become such an integral part of technology and how industries create their products.
They are starting to infiltrate almost every field that exists, from entertainment, to fashion, to the medical field.
For example, one of the latest 3D printers used by a company called Touchable Memories is being used to help those who have become visually impaired.
Through the utilization of the 3D printing options on hand, they have created three-dimensional models of photographs that they can touch and feel, so it’s almost like experiencing the real thing.
The 3D model for the injured has been quite a breakthrough in helping those who are losing their eyesight to connect still with those memories recorded in photographs.
Another such breakthrough is the use of the 3D printers and their options to build new body parts.
The latest story is that medical scientists have managed to make a new ankle for a cancer patient, providing him with the foundation to be able to walk again.
When the patient diagnosed with cancer of the heel, it was recommended that he lose the entire leg.
However, with the modern technology of 3D printing, which no longer has to be the case.
3D printing is capable of replicating even the smallest of details, making it perfect in the medical field for producing just about any part of the body that needs replacing.
Also in the medical field, along with creating new organs and developing new prostheses, the best 3D printers are starting to produce customized medication.
Each patient reacts differently to certain kinds of medicines, and it can be difficult to find the right dosage for them without too many detrimental side effects.
However, 3D printing provides the answers that pharmacists and medical doctors have been looking.
Outside of the filament that is used to contain the medications, which is harmless to the body, different percentages and doses can be programmed into the printer to insert the right level of medication for the patient.
These details can then be kept on record when a refill needs to make or there need to be adjustments in the future, maintaining the patient healthy and well-balanced.
It is through the development of the latest 3D printers that such technology is at our fingertips. Who can say what new ideas and miracles of technology can develop in the future with the best 3D printers and all their options at one’s disposal?
Who can say what new ideas and miracles of technology can develop in the future with the best 3D printers and all their options at one’s disposal?
3D Printing Technology – The Age for Kids
3D Printing Technology is going to see its biggest growth when people stop marketing it like it’s only for designers and manufacturers.
The main things you can print right now with a desktop 3D printer are plastic toys.
When a brand wants to show off its new consumer 3D printer, it’s all about having one in your school’s design class.
The newer generation printers come with the same price tag as a play station, iMac or Xbox.
They are for the kids.
As the 3D printing technology, quality, price, and usability fall within the range of a game console parents are going to be in new competition to get the best most updated model for their children.
And every weekend Timmy and his friends are going to run around the neighborhood scaring each other with the bugs they printed out after their homework.
And when the squirt gun fight’s winner decided by the dad who 3d printed the best Super Soakers out for his kid’s team you’re going to see major growth in the industry.
When little Sophie can 3d print out cooler chairs, tables, and rooms for her doll house then the princes’ next door, you are going to see the pink 3D printers (think Easy Bake Oven) start selling more than the black and blue ones (think creepy crawlers).
As the software gets easier to use and more projects get promoted that make the printers cool people will begin to catch on.
The era in 3D printing is the age for kids.
As 3D Printing Technology grows, you are going to see the kids using that technology grow with it becoming adults.
That’s when the real innovation happens.
If you’re a printer manufacturer, think about how you present your printer.
Make your printers so easy to program and use that a 10-year-old could do it.
Come out with templates so a kid can sit on their iPad and pull tentacles, eyes, and wings onto their chosen body type like their online playing Spore.
Click, print, and they can create creatures from their imagination and be the star of the show and tell.
There go our sales through the roof again.
We’re in exciting times with 3D printing.
Improvements and price drops of the machines are running into an increased variety of materials, better software, and cheaper 3D scanners.
I’m excited for when the Thingiverse marketplace filled with more and more projects a group of kids could get behind.
Rather than the plethora of plastic trinkets and one off fixer-upper projects that dominate its pages now.
Reasons to buy a 3D printer
Foster your creativity. 3D printing technology is simple, easy to learn and use. You do not even have to make the effort of designing a product as there are many different databases of 3d models available online at no cost. But of course, nothing is more satisfying than being able to reproduce your creations, even if it is a simple box. You would always be more proud of it.
Design and produce your presents, furniture, gadgets, toys. People will never again have the sensation of being in another IKEA house when they visit you. If you are a good designer, you can even sell your creations in a flea market.
Instant glue and you won’t be best friends anymore. You won’t have to buy a spare PART ever again; you will just reproduce it. Even if it is a complex piece, you will probably find someone who has already faced the same problem and has better CAD design skills.
Be a member of the open community. Acquiring a 3D printer is not just a product you buy and use. You will seduce by the dynamic community of users and producers, a community which made it possible for 3D printers to be available today at a reasonable price. And they probably revolutionize the manufacturing industry. Is the car the next victim of the Open community? We hope so.
Decrease CO2 global emission. Your little contribution may have an impact on the reduction of CO2 emissions caused by transport of goods from overseas. Also, PLA plastic is biodegradable and will not harm the environment.
You want to buy a 3D printer, but you don’t know which one to choose?
Here are your 3D Printers Buying Guide to help you make your decision in the 3D printing jungle!
In this article, we will try to bring you as much information possible about the new low-cost 3D printers, but we won’t forget 3D printers that are more expensive and might interest you if you’re a business owner (a design studio or an architecture studio for example).
We’ll go from the most expensive ones to the less expensive ones, because it usually means that the quality and possibilities decrease with the price (but, hey, it’s not always true!).
So if you don’t plan on spending more than $1,500 in your 3D printer, skip directly to the second part of the article.
Make Your Choice
The first thing you need to ask yourself is what you will be doing with your 3D printer.
If you want high-end outputs, you have to choose a ZCorp (which brings you super fast and very accurate models).
If you want to be able to use your 3D printed parts directly and in a durable way, Stratasys’ Dimension should be on your list.
But if you’re less interested in super high quality and more by building and experimenting with 3D printing for a lower price, Open Source DIY 3D printers are the right fit for you.
Size and materials are also things to think about when buying a 3D printer.
In this 3D Printers Buying Guide, we will concentrate on the prices of the various 3D printers existing on the market.
Professional 3D Printers
Between $10,000 and $20,000, it’s the price to afford for the professional 3D printers available on the market.
The Object 24 starts at $19,900. Objet’s 3D printers are among the best 3D printers with their high-end accuracy, resolution, and finish. Dimension (with its uPrint series) and 3D Systems are excellent machines as well.
Z Corporation, sold at $14,900, proposes the fastest 3D printers available (the ZPrinter 3D prints at 0.8 inches per hour!) and the material cost is pretty cheap ($0.60 per cubic in).
Dimension 3D printers (between $13,900 and $18,900) are a good choice for whom want to produce final and durable products. Even is the material cost is pretty high compared to others, strength, and thickness of assets are a good advantage.
3DSystems, the other giant of 3D printing industries (with Stratasys), is selling its Projet 3D printers between $10,900 and $14,500. 3D Systems offer the only photopolymer with a material cost estimation of $120/lb. These 3D printers are fast and print with a great accuracy, resolution and finish.
The high cost of equipment and poor choice might be a weakness, depending on the kind of projects you are working.
Personal 3D Printers
Prices get cheap fast in the 3D printing market. If you want to experiment with 3D printing but don’t want to spend all your money on it, personal 3D printers might be the solution for you.
Makerbot, Ultimaker, BotMill, Up!, Cubify are all 3D printers below $3,000.
Some sold as kits (it means that you will have to assemble it), some are half-assembled, and others fully assembled.
Usually, the Open Source ones are sold as both kits or assembled the device.
The ones that are not Open Source are ready-to-print.
Depending on the package, it won’t take you the same amount of time to make it work. The documentation will be clear and vigorous or not; the community will be here to help or not.
We advise you to take some time to read the information regarding each of these low-cost 3D printers so that you won’t be disappointed.
The MakerBot’s 3D printer is called the Replicator. It will cost you around $1,000 to $2,000 depending on the version. It’s one of the most advanced Open Source 3D printers available, with the capability of deposing two colors or materials simultaneously. If you adjust the parameters at its best, you can get layers 0,008 to 0,012 thick, which is very good.
Here we show all the different versions available:
Other 3D printers using thermoplastic extruding techniques are Ultimaker, sold as a kit for $1,700 or Bits from Bytes ($1,400 as a kit, $3000 assembled) and BotMill ($1,545 fully assembled), both owned by 3D Systems.
[email protected] and Up! are both a little more expensive and older. The [email protected] 3D printer sells at a price of $2,500 (parts only). Up! (owned by PP3DP) will cost you $2,690 and is sold already assembled.
Fabbster 3D printers no longer develop. Cube by 3D Systems is a fully assembled 3D printer which is not Open Source and sells at the price of $1,299.
If you’re comfortable with building a kit, you will get the best 3D printing results with Makerbot, Ultimaker, Bits from Bytes and BotMill. Even if the 3D printing process is globally slow and the choice of material remains weak (mostly ABS plastics), you will have a lot of fun building the kit and playing with it. After a few weeks of practice, you will be able to 3D print small and medium pieces for all kind of projects.
The RepRap is unique as it’s the mother of all these Open Source 3D printers. It has the particularity of being able to replicate itself by 3D printing its parts. As a result, the price of the RepRap is very variable, depending on the parts you plan on buying, and the parts you plan on having 3D printed by you or the RepRap community. Count around $520 for an entire RepRap Mendel second generation with all the mechanical parts.
On the bottom side of these 3D printers, pricing scale is the super low-cost winners that are Printrbot and MakiBox. They are both Open Source and are among the easier kits to build. Printrbot is almost ready to launch at the price of $499. Makibox, designed by Makible, will be available at $300. These two last ones are fully available on the market, and new ones should launch in the next months.
The 3D printing material can be pretty expensive, depending on the kind of equipment and the amount of powder or filament your 3D printer is using for an average 3D print. We recommend that you take a look at the material cost before to buy your 3D printer.
The low-cost 3D printers are also the cheapest for the 3D printing material. It is usually less than $20/lb. The more expensive 3D printers (3D Systems, Objet, Dimension) are also the ones with more expensive 3D printing material. Count from $130 to $175 per lb for an Objet 3D printer or a Dimension one. The 3D Systems’ Projet requires a 3D printing material costing $120 per lb.
You can also check other 3D Printers Buying Guides on Google
Using a is 3D Printer is a complicated process. The purpose is to learn how to use a 3D printer.
How to use a 3D printer?
If you want to know how to use a 3D printer by the easiest possible way the read this beginner’s guide.
With this beginner’s guide to 3D printing, we want to introduce you to this world of 3D Printing to discover how amazing can be to print 3D models.
We want you to learn how to use a 3D printer. It will let you learn not only how to assemble and use a 3D printer, but how to scan 3D objects and to create rapid 3D models.
The beginner’s Guide to 3d Printing contains:
What is 3D printing? Short History of Printing in 3D Technology in 3D printing Processes used in 3D printing Materials for 3D printing Global Effects of 3D printing Value and benefits of 3D printing Applications
Are you ready to learn how to use a 3D Printer?
If you feel not, let’s get started it with this beginner’s guide to 3D Printing!
What is 3D printing?
Everybody claims the vast potential to new 3D printers. Everybody says that the fact that everybody could use a 3D printer will be a revolution and, in fact, is a revolution already!. As you can see, thousands of 3D printers entered the market and advertised in social websites, newspapers and, even, television channels.
But, why is this 3D printing technology a revolution? The reason is that it could be the end of traditional manufacturing as we know it. Let us explain it. The reason for these thoughts is the new additive manufacturing and new materials process behind this new technology. And, this is just the key because 3D printing is radically different from actual production methods.
Those new materials for 3D Printing allow builds up parts in layers at the sub-millimeter scale. This fact is just the fundamental difference of new 3d printing from the existing traditional manufacturing techniques. But, why should I want to use a 3D printer and not another process to create a piece?
The good new is that 3D printers are going beyond manufacturing process or industrial prototyping. And, this technology becomes more affordable to small companies or, even, individuals. You can acquire now 3D printers for under $400 due to the scale economies and the increasing production of desktop 3D printers.
The exponential adoption rate of additive material techniques (also known as 3D printing) continues increasing on all fronts with new applications, materials, services and 3D printing courses (how to use a 3D Printer) for this new technological revolution.
You can be who can write the future of 3D printing, do you want to be part of it? Hurry up because it is a run with a lot of candidates where everybody needs to know to use a 3D printer.
Do you want to learn how to use a 3D printer or do you prefer to miss this incredible opportunity?
Short history of 3D Printing
The most interesting part of the history of 3D printing becomes when Open Source prototypes become affordable for everybody. It is just now and these next years.
Do you already know how to use a 3D printer?
At this point, it is just where we start to learn how to use a 3D printer.
First of all, the starting point of the process is to have a 3D digital model. It can be created using a variety of 3D software programs.
3D CAD software for industry (usually too expensive for particular users and it does not ensure better results)
More accessible programs (even free programs like Blender, 3D Canvas, Sketch Up, K 3D, Wings 3D or Maya)
3D scanner or your phone camera to create the digital model.
How do they work? To use a 3D printer we usually want to replicate real objects. So, we need to get a 3D model within the three options we have shown above. Once it is on our computer screen, we would be ready to print it. It is just like when we type a text in our computer; only once we can see it on the screen, so can decide if we want to print it or not.
Then, once you create the 3D model, we should guide the 3D printer to follow printing trajectories. There are a surprising number of different types of 3D printers and different technologies. Not only that but also different materials that depend on the process and the final object desired. All commonly used materials for industrial prototyping or indoor applications are:
plastics (PLA, ABS, Nylon, …)
metals (aluminum, cobalt derivates, etc.)
ceramics (require usual process after printing)
a kind of cement mixed with sand (like the mixture used for building houses).
There are a lot of researchers looking for conducting 3D printing for many other kinds of materials such biomaterials, chocolate, flavor, etc.
In any case, plastic is most current used material (like PLA, ABS, etc.). Even that, we could found a huge number of prototypes for 3D printing machines adapted to food and which creations taste excellent.
If you want more information about how to use a 3D printer, visit our 3D Printers Reviews to discover the specifications and availability of the latest 3D Printers.
Now, if you want to know how to use a 3D printer, you would probably know what the most commonly used processes for 3D printing are.
Processes used in 3D Printing
If you want to know to use a 3D printer, you should know what the process you will use in your 3D printer machine is. It depends on the materials, the available technology that you have and the result that you want to obtain.
Pros invented several 3D printing processes. From the beginning of this new technology, the printers were expensive, large and highly limited in what they could produce.
Nowadays, a large number of additive processes are now available. As mentioned above, the main differences between methods depend on the process to deposit layers and the materials that you use to create 3D objects.
Some methods soften or, simply melt, material to produce the layers. For example SLM (selective laser melting), FDM (fused deposition modeling), DMLS (direct metal laser sintering), SLS (selective laser sintering).
Others simply cure liquid materials by using different sophisticated technologies. For example, SLA (stereolithography).
While other only consists of a shape and join different materials such as polymer, paper or metal. It is called LOM (laminated object manufacturing).
As you should guess, each method has its advantages and drawbacks. That is the reason why most companies consequently offer different choices. For example, they let choice between polymer or powder for the material used to build an object. Nevertheless, other companies sometimes use standard processes to produce durable prototypes.
The primary considerations in choosing a machine are four (or maybe five):
the cost of the 3D printer
the cost of the end printed prototypes
cost and choice of the materials (uses, colors, etc.)
other 3d printing capabilities (optional)
For example, printers that directly work with metals are very expensive. However, depending on what you desire to produce, you can use a less expensive printer to create your mold. And, this frame will be used to make other metal parts by its counter-mold. How we use a 3D Printer depends on of the kind of materials and outputs we will use or need. Melting methods for plastics are very common and have commercial potential. But, other types of processes exist, and we can neglect them.
What process should I take to use a 3D printer? As we have said you above, another factor in deciding what process you should take to use a 3D printer are the desired materials.
Materials for 3D printing
There are available a lot of materials for 3D printing since the early days of the technology. Nowadays, there are a wide variety of different types of materials. Furthermore, they supply in various states (filament, granules, powder, pellets, resin, etc.).
Companies develop a lot of specific materials for specific platforms or applications (for example, safety materials able to disinfect can apply in the sanitary sector). Then, material selection becomes more precise since their properties for different applications.
There are too many proprietary materials from the many different 3D printers to cover them all in this post. Instead, we are going to look at the most used types of content in a generic way.
To use a 3D printer, what the materials could use? We hope you have learned that it depends on of the 3D printing technology that you have in your hands.
Well, at this point of this introduction you should have already a rough idea about how to use a 3D printer. We could observe now the global implications and how to use a 3D printer for many different applications.
PLA and ABS
We could differentiate two main used plastics in the world of 3D printers for particulars or small enterprises (even if large businesses commonly uses both also), the PLS (Polymer Layered Silicate) and ABS (Acrylonitrile Butadiene Styrene).
ABS is the another common plastic used for 3D printing. It is a stronger than PLA plastic, and it comes in a wide range of colors.
PLA is another commonly plastic used with 3D printing. The main reason because it has gained traction with 3D printing is that it is a bio-degradable material.
It is offered in a transparent color or in a vaster variety of colors depending on what useful will be for your 3D printing applications. You can use it in resin form for DLP/SL processes or in filament form for the FDM process.
PLA is not as durable or, as flexible as ABS.
With the fused deposition modeling (FDM) process, Polypeptide (PLS) (or even Nylon) comes in the form of powder. Nevertheless, with the sintering process, people commonly use the filament form.
PLS is a strong, durable but also flexible plastic material that has proved reliable for 3D printing. Unpigmented, it is white, but it can be easily colored re-printing (although it could also complete a post-printing). One of the options by using PLS is to combine it (in powder format) with powdered aluminum to get another commonly used 3D printing material for sintering, called ‘Alumide.’
There are other plastics to use a 3D printer like Lay Wood, a unique material developed for entry-level extrusion 3D learners. Lay Wood is a wood/polymer composite (WPC), and it also comes in filament form.
Metals for 3D printing
It is indeed a fact that 3D technology brought innovations and improvement to different industries around the world. Many people have the fun of using the 3D printing technology. Through the utilization of the said printing technology many projects, objects and other inventions became more appealing and attractive to the eyes of many people. The use of the 3D technology also became a general improvement in many sectors and industries.
Do you love some new and useful metal 3D curved? If you want things like that, then you must know that such things became possible and available to many people because of the use of the 3D metal printing technology. 3D printed metal products are part of the fashion trend and other business industries.
The technology using the 3D printing is getting more fascinating and advance. Today, 3D metal printing is part of the trend used by many people. The materials usually use for 3D metal printing are increasing from time to time in agreement with the purpose of creating 3D metal printed objects. The standard input materials for metal printing are stainless steel, Titanium, Aluminum and other types of metals. The metal prints can classify into four different surfaces such as Satin, High Gloss, Matte finish and Sheer. It is such a very impressive and stunning metal prints that the 3D metal printing technology can offer for many people.
3D metal prints may represent the new art medium that can be used to preserve photos by infusing dyes directly into an individual coated aluminum sheets. Yes, it is right through the utilization of the 3D technology you can now keep some of your photos by printing it to some metals components. 3D technology substantially made a blast to many industries and brought innovation to the life of many people. Here are some of the 3D metal products and functions of the 3D metal printing that became possible and available for many people:
Medical equipment such as prosthetics. Such medical materials and products are being created and produced using the 3D metal printing. 3D metal printing technology is a very useful and practical aid to many people who need prosthetics materials.
3D metal printing technology is also an important factor in the industry of Automotive. Some parts of a vehicle need to have 3D metal curved to be able to achieve the desired design.
Here some of the reasons why 3D metal printing is right for many people.
Durability of the product
You can personalize it
The object can be more eye appealing
Luminosity to your photos and other objects
Availability of the broad range in different shapes
The object can be a magnificent decoration for the house
The 3D metal printing technology brought innovation to the life of many people. As the time passes by, the demand of the voters to these 3D metal printed products are increasing day by day. To meet such requirements and needs, there are many companies that are now using such techniques and strategies to be able to provide high-quality 3D metal printed products for many people.
Industrial grade 3D printing uses a high number of metal composites, and different types of metals. What is the most common? They could be the cobalt derivatives or the aluminum because of its high ductility.
On the other hand, we could find other stronger metals used for 3D printing like Stainless Steel. Because of the melting, EBM or sintering processes in the form of powder. Its color is like dark-silver, even if it could be plated with other materials to get a bronze or gold effect.
If you are thinking about how to use a 3D printer in jewelry, we are sure you think why not to use Silver and Gold. In fact, they have also used those in powder form. And, as you should know, these are both very conductive and durable materials.
Probably, the best option to use a 3D printer in industrial applications is Titanium. The reason is that is less expensive, and it is also unyielding.
Ceramics for 3D printing
Ceramics are one of the latest groups of materials that can be used to use a 3D printer, but not all of them have the same level of success.
The particular problem to this materials have is that, once 3D printing completes, the ceramic pieces need to follow the same processes as any real ceramic piece in the traditional methods of production. So, in the end, it causes the same elevated costs by firing and glazing.
Papers for 3D printing
We could differentiate two main used plastics in the world of 3D printers for particulars or small enterprises (even if large firms commonly uses both also), the PLS (Polymer Layered Silicate) and ABS (Acrylonitrile Butadiene Styrene).
Biomaterials for 3D printing
There is a massive investment in research to get 3D printing biomaterials for medical applications. We are sure you have already seen on television a lot of living tissue successes on experiments. In fact, a huge number of institutions are working hard in this kind of techniques. Some of nearest applications include external prosthesis for replace body parts or printing human organs.
Food for 3D printing
Now is the moment to speak about food because many experiments have been done to get print different food substances like chocolate or sugar. But not only that, one are of research is focused on developing lab-meat without killing any animal (good news for vegetarians!). As you should guess, these hamburgers should be printed at the end the process beautiful enough to be sold and eaten.
Do you imagine to use a 3D printer machine to produce our finely balanced whole meals?
Other materials for 3D printing (Stratasys case)
To finish up with materials, Stratasys offers a unique (proprietary) component to their 3D-printing system. Furthermore, with its standard Objet-3D-printing materials, you can combine them during the printing process (various specified concentrations) to get new 3D printing materials with the desired properties to your pieces. It is great because it comes up to 140 different Digital-Materials from combining the existing primary materials in many different ways.
Global Effects of 3D Printing
The truth is that 3D printing is having an extraordinary effect on the way that you manufacture products. This technology permits new ways of thinking. It has universally favorable results in the society, the economics and, even, the environment.
Now that you have a rough idea about how to use a 3D printer, we could see the global impact that 3D printers are producing in our society.
Industrial effects of 3D printers
We think that the key success factor of 3D printing technology is the closer that it is to the end consumer. It reduces the current supply chain restrictions and increases the product customizations which mean enhance the quality of the goods.
But it has not only advantages for final users, but 3D printers also allow to create small production batches in industry. It helps to offer products on demand, and it could be a way to engage your customers, reduce inventories and stocks.
Conventional goods or spare parts coming from one part of the world could become obsolete. It could be a significant impact in all our companies.
Our objective is to aim people to operate their 3D printer at home just like everyone does with a computer. We want that everybody knows how to use a 3D printer.
Nowadays, we have communities of users designing any (customizable) product. If you are not sure how to create your our 3D models, we can create whatever you desire or only write us to any consultancy. In any case, there are tons of information you can found on Internet, even millions of 3D models able to be printed. You can print it demand or download it to print it with your 3D printer as you desire.
In fact, the adoption of 3D printing could cause a reinvention of some already invented products. It means a bigger number of entirely new products.
Currently, we can create impossible geometries and shapes with a 3D printer. We think that the journey has only just begun. We believe that know how to use a 3D printer will become one of the always required skills not only for an industrial engineer but anybody. 3D printing has very great potential to inject innovation and growth to bring back local manufacturing.
Once we know what could be the global effect of 3D printing, even if it is not extremely necessary to learn how to use a 3D printer, we could mention what the benefits of this technology are.
Benefits of 3D Printing
Everybody speaks grandiosely about 3D printing but, usually, they do not explain why this technology is amazing. We would like being clear on affirmations. So, we want to tell you why we believe in this technology and let you discover how amazing it is by yourself.
In our opinion, the main four reasons because of 3D printing are better than other production techniques are:
High level of customization
Low level of the entry barrier
Reduction of the level of complexity
Environmentally friendly (sustainability)
This point is not necessary to know how to use a 3D printer.
In any case, 3D printing brings a bunch of benefits that other traditional methods of manufacture simply cannot; whether at a technical, personal or local level.
Once we have learned what the benefits of 3D printing are, even if it is not extremely essential to get to use a 3D printer, we could observe what its applications are.
Imagine you want to use a 3d printer but what can I create? Here, you will found the last 3D printer applications. With this post, you can get business ideas to open your new venture or simply to push your creativity:
This part is the end of our Beginner’s Guide to 3D printing. We hope you’ve liked it. What can I do now?
Go directly to get a 3D printer at the lowest price in the market but, be careful of the 3d printer quality.
Or, if you have already a 3D printer, you can learn much more 3D printing techniques in our courses.
Minnesota 3D printer manufacturer Afinia has peacefully been producing their line of high-quality desktop 3D printers for individual years now, sadly for many of their fans to little fanfare. Even after receiving abundance of accolades and industry honors, the brand, while well regarded and successful, never resembled to garner the same amount of buzz that many lesser 3D printers have. But with the approaching release of their H800 3D printer, the industries particular company might conclusively be getting the awareness that they justify. Early reports of the new H800 recommend that it is a moderately prominent machine and a big leap in essence from their already impressive H480. And before a single unit has even released it has already taken home it’s the first grant. They just acquired the RAPID 2015 Exhibitor Innovation Award, whichever is awarded to the many innovative outputs featured at the RAPID 3D printing organization.
The Afinia ES360 desktop 3D scanner generates printable 3D illustrations with high efficiency for a range of productive 3D printing statements. The scanner is a complete fit for educators, designers, and home hobbyists contemplating to increase the inclinations of their 3D device. With a cheap cost point and rapid, precise scanning (~0.1mm), the ES360 gives details and fulfillment related to a completion level scanner.
Using protected, white light scanning, the ES360 Desktop 3D Scanner is easy enough for anyone to use. Just “click” the start button, and the scanning manner will convert your receiver in a 3D representation that can then compose on a 3D printer, like Afinia’s award-winning H480 or H800. The ES360 is lightweight, at lower than 8 lbs, allowing for comfortable carrying, also.
The ES360 is the single two-scan-mode scanner on the business. Choose to attach automated scan or free scan, depending on your qualifications and the dimension of the gizmo. Automatic scan mode answers for a max scan size of 215x215x200mm while the free examine method enables for a maximum scan area of 700x700x700mm.
The scanner can work reasonably speedy, as it can complete its automatic scan cycle in only three minutes. Some competing turntable scanning systems can become much longer. However, the three-minute time frame is only for the mechanical serving of the scan; processing and transformation to a proper 3D model takes a bit more time. The good news is that the method can be automated, and you can push the start button and walk away to do additional work while the scanner is working.
It looks like Afinia is now further developing their line of products with their ES360 desktop 3D scanner. The ES360 uses white light scanning to efficiently generate profoundly detailed 3D printable models in a fraction of the time that laser scanners expect. Afinia says that the ES360 was designed to be utilized by anyone, and can capture an entirely 3D printable model with perfectly the impact of a button. The new turntable style 3D scanner is an ideal compliment for their new 3D printer, both in style and in ease of use and is being trained squarely at the education, hobbyist, and 3D designer markets.
There is a substantial abundance of cables to plug in—for correlating the cameras, projector, turntable plus PC operating Afinia’s software. It might be satisfying to have an empty table on which to set up all this stuff.
When you achieve the assembly, it’s a bit of a cable jungle. While the ES360 is more or less portable, you probably want to set it up enduringly on a table to withdraw the effort of having to install everything up frequently.
Once you’re set up—and by set up, I meant that you’ve correctly cabled everything and placed the ES360 projector/camera unit accurately on its marks on the supplied sheet—you’re ready to begin scanning.
Thoroughly, almost. There is one very strange problem I noted while my first struggles to practice the scanner. For some analysis, the scanner would not project the structured light design on the object. Eventually, after a request to the paramount Afinia support line, it was concluded that this button was the obstacle. It’s the control switch for the projector, and it’s lightened with a blue LED—whether it’s off or on! When you primary power up the scanner, the switch lights blue, but it is switched off! You require pressing the button to light up the projector. And, of course, it continues blue ultimately this process.
You’ll also need to connect the Afinia ES360 software on your processor. Is a straightforward means, while you must present a license key that appears with your equipment.
I must say, nevertheless, that the software is for Windows-based systems only, and there are no transcriptions for different programs. No difficulty, I thought, I’ll just boot Windows natively on my MacBook.
Entirely, it applies out that this does not operate. In spite of valiant efforts by Afinia and my support, the approximately current MacBook was unable to run the Afinia software correctly, having many difficulties with the High-Definition Multimedia Interface (HDMI).
My recommendation: Do not venture to use the ES360 unless you have a non-Mac Windows PC handy. Once transferred onto a current Windows PC, the software worked flawlessly and instantly.
The most significant activity to complete before scanning is calibration. This function guarantees that the hardware and software are in tune with the imprecise positioning of the two ingredients comprising the ES360. Calibration includes placing this marker board on the turntable in numerous positions while running the calibration routine. It’s moderately simplistic and takes only a few minutes. You must do this anytime you transfer any of the scanner’s hardware components.
If you don’t perform the calibration method correctly, your scans will turn out remarkably misrepresented. Now you’re ready to study an actual part. I’ve found that the best outcomes occurred with light-colored objects.
Maximum Examine Dimensions 215x215x200mm (for automatic scan mode)
Lulzbot 3D Printer: The price of this Lulzbot 3D Printer is around $1,000 and unlike some smaller personal printers, a bit of assembly is required before putting it to use. The LulzBot AO-101 is one of the best private 3D printers on demand.
All the needed accessories of the Lulzbot 3D Printer are incorporated into the printer in order to construct it, and the directions are straightforward and easy to understand. If you are unfamiliar with the assembly of 3D printers, it is suggested that you view videos online in order to be walked through the construction process.
Specifications of the Lulzbot 3D Printer
One of the greatest characteristics of the LulzBot AO-101 is a build plate that is heated and significantly larger than most other personal printers. Above the large, heated build plate, the nozzle can extend nearly 4 inches and is able to print creations with dimensions as large as 7 x 7 x 7 inches.
The two accepted filaments for this printer are both ABS and PLA. The LulzBot AO-101 is able to complete multi-color printing though colored filaments must be purchased separately online. Even wood filaments can be purchased and used with this printer.
The filament container is better than what you would find on most other personal 3D printers because it rests on the side, giving you more access to the top of the printer. Another advantage regarding filaments for the LulzBot is that they are not spooled and thus more inexpensive than traditional, spooled filaments.
The USB port located on the printer is how you will connect to your computer in order to upload and print designs. There is also an SD card reader for people who want to upload designs via an SD card. At this point, the LulzBot and many printers like it are not able to connect wirelessly, though as 3D printing technology improves this will likely become a mainstay with every printer.
Software inside the Lulzbot 3D Printer
The LulzBot comes equipped with all the necessary software you need to run the device, though the software is not fitted with any design models or plans. Luckily, however, there are plenty of designs and 3D models online that can download the software free of charge.
Also included with your purchase are both a power supply and USB cable.
The nozzle is able to print at about 200mm per second and comes with three different nozzle sizes; .25mm, .35mm, and .5mm. When you change your nozzle, you are required to use Slic3r code generator in order to complete the configuration process for it. If you neglect to configure the nozzle accurately once you have attached it your creation’s layer dimensions and accuracy may be inaccurate
The LulzBot 3D Printer AO-101 comes with a USB and SD connection which makes it versatile as far as connections are concerned. One drawback that we found was the fact that you need to assemble this printer in order to use it. Because not everyone is adept at building 3D printers, this process can become quite frustrating.
Despite the assembly, the LulzBot 3D Printer AO-101 is one of our top printers due to its exceptional print speed, reliable construction, and its inclusion of 3 different nozzle sizes.
If you watch nearby you right now, you will probably recognize that most of the 3-dimensional objects in the room you are in are composed of more than just a single color. 3D printers like the Cubify 3D Printer are great, but the problem most of them have is that the items they print can be no more than one color.
The Cubify CubeX Trio is better than the competition because it can print things in not one, not two, but three different colors. This is an advantage that suits most every designer.
With this type of variety in the color of the 3D items you print, you may be under the impression that the printer sacrifices other features in order to fulfill a wide color array. The reality is that the Cubify Trio has plenty of other features that flat-out put it in a different category than most of its competitors. In the following few sections, all of the Trio’s attractive features will be discussed and analyzed.
Bigger is Better
One of the main gripes that designers have had with 3D printers up to this point is that the items they print, while useful and reliable, are too small. The Cubify Trio and its designers took this complaint into consideration when designing this printer and quite frankly exceeded the expectations of the general public.
With a print area of 1,098^3 inches, the Trio offers the biggest in the industry. The enlarged printing area allows you to create items with dimensions as big as 10.75 inches in width, 10.75 inches in length, and 9.75 inches tall. These dimensions are broad enough to be able to print a regulation-sized soccer ball.
Software of Cubify 3D Printer
Though it may seem nonsensical to you, many 3D printers do not include the appropriate software and thus force you to spend extra dollars and waste additional time to buy the compatible programs. The Cubify CubeX Trio trumps the competition in this category because it is included with the printing software at no extra charge.
The software is known as the Cubify Invent software and can upload your prints as well as tap into the 3D Systems website and download any copies that may be useful to you. The software is even able to run diagnostics on the printer, though this can be easily done via the printer’s touchscreen. The initial diagnostics work to level the printing area as well as calibrate the 3D printing heads. The flexibility of this software to include both your designs and those downloaded from the web mean that you will never be at a loss for viable printing designs.
Coloration Variety of Cubify 3D Printer
Having touched on it in the opening paragraph, you already know that the Cubify CubeX Trio is capable of printing objects that are up to three different colors. In order to be able to print in three different colors means that the Cubify Trio must have three distinct printing heads each equipped with their own cartridges.
The CubeX can print in a thickness of .25mm and offers you three different print speeds depending on how detailed you want the printing to be. The three speeds at which you are able to print are as follows:
High Definition-best quality, slowest print speed
Crisp Definition-mid-range quality with an average print speed
Standard Definition-lowest quality, fastest print speed
To put it in perspective, the CubeX can print 15mm per second at its fastest print speed. This means that it would take about a little under a half hour for you to print a full-sized soccer ball.
Conclusion of Cubify 3D Printer
With a huge print area and the ability to create items with multiple colors, you will find it nearly impossible to find a better value on such a useful 3D printer. The technology behind the Cubify CubeX Trio is stunning and works to make the life of the designer as easy as possible, and isn’t that what every 3D printer designer wants?
In the XYZprinting Da Vinci 3D Scanner Review, we review different aspects of the DaVinci XYZ 3D printer. We make a brief introduction of the company who created the model and then review basic features and details. We end with our main conclusion.
XYZprinting company which is a comparatively new company, founded in 2013, but has already cleared several 3D printers to the public. They are devoted to creating cost-effective outcomes to the consumer market and businesses global.
They have gathered on user knowledge with every product they have produced to the market. Their focus on discovery has put them in a good position to face in the 3D printer market.
Kinpo Group Support
The support of Kinpo Group, a world advance complex in electronic production, gives XYZprinting access to thousands of engineers in four continents for analysis and advancement.
Kinpo Group has been improving and inventing printers for commercial and private use for more than a decade. The Company also gained the CES 2014 Editors’ Choice Honor for their first reaction of the da Vinci 3D printer.
The DaVinci XYZ 3D printer is a fabulous user-friendly and affordable 3D printer. Those individuals engaged in a desktop 3D printer should examine XYZprinting’s brand-new variant of the Da Vinci 3D printer.
That da Vinci 1.0 AiO is a legitimate option for 3D printing enthusiasts that are affected in a different user-friendly sense. It is relatively economical and combines a 3D scanner. The scanning program is placed below the publication platform and can scan objects at best size of 6 x 6 x 6 inches.
3D Scanner Bundle
The scanner is remarkably good for consumers without 3D modeling skills. In general, every DaVinci XYZ 3D printer enthusiast needs a 3D Scanner. The DaVinci XYZ 3D printer comes modeled and accurately calibrated out of the box. There is a lot of filling material, so be prepared to spend some time separating the tape and casting zip ties.
If anything appears to the DaVinci XYZ 3D printer during unpacking, there is an opportunity to calibrate the DaVinci XYZ manually. The AiO is a somewhat large printer for an individual extruder (18.4 x 20.1 x 22 inches). The printer reaches with an ABS filament cartridge for the user’s first print.
DaVinci XYZ 3D Scanner Details
That Da Vinci 1.0 AiO is not delicate: The big plastic cover of the printer/scanner sequence measures a sizeable 18.5 x 20 x 22 inches (47 x 51 x 56 cm), so it would consider up a massive lump of your desk. It is heavy, as well: At a hefty 60 pounds, it’s not something you are going to be moving it approximately much.
This big, boxy design does indicate that the complete printing and scanning assembly is enclosed, though, so it is less prone to gathering dirt or having prints fail in a drafty room. Also, the hot parts are beyond casual range.
Clear Plastic Door
The clear plastic door on the front of this case opens to render way to the printing and scanning range, and a door on top is for adjusting the filament cartridges. Magnets hold the door closed, but it doesn’t lock. And reopening the door does not pause the print, so the da Vinci isn’t suitable for use by unsupervised teenagers.
A LED light inside the case illustrated the printing and scanning area but had the disturbing habit of turning off after a several of minutes. You have to press the OK button on the powers to turn the light back on. These controls are a group of six buttons above the door, and a four-line LCD for the print status and the menu.
This printer designs for stand-alone use. You have to store the 3D print file or save the 3D scan through the combined software from a USB-tethered computer as there is no SD card slot.
The da Vinci 1.0 AiO wants the same ABS filament cartridge design as XYZ’s previous models. At the cost of about $28 for a 600-gram cartridge, the thread operates out to approximately $45 per kilogram; that is on the high side.
Generic filament sells for between $25 and $45 a kilo online. The XYZ printing filament is ready in 13 colors — a good range. You can’t use other elements such as PLA or the flexible plastics that many other printers help.
The hot glass print bed can hold objects up to 7.8 x 7.8 x 7.5 inches, for an entirety of 456 cubic inches. That puts it on a par with the greatest print size of the contemporary MakerBot Replicator, which offers 455 cubic inches.
Prints had virtually no predicaments sticking to this heated bed. The models can adhere to the print bed, but this is very rare. XYZ does combine a UHU glue stick, to help prints adhere to the bed, but usually, it is not necessary.
When you inaugurate the included XYZscan software, the print bed is raised out of the way so you can place the thing on the scanner’s turntable.
When it is available, the program twists the turntable and zaps the object with two red laser arrays (one to the side of the purpose and one slightly above it). A camera next to each laser identifies the reflected light, and the program then uses this information to create the scanned model.
Setup: Plug & Print
The da Vinci 1.0 AiO is simplistic to use and doesn’t require any setup or tweaking. You will be able to prepare the box and begin the first print in about 25 minutes. Most of this time is spent unwrapping the device. Unlike with most competing printers, you do not need to calibrate the printer or level the print bed. Those two important factors come already tested and calibrated.
Printing Quality: Acceptable
The condition of the da Vinci 1.0 AiO’s prints is excellent. The 3D Prints have clean edges and a large amount of detail. There is some definite layering on some coverings, such as the back of the Thinker sculpture. The DaVinci XYZ 3D printer also delivers a lot of plastic whiskers, made from small volumes of molten plastic that is still appended to the printhead as it moves. They are easily clipped off, but still, decrease the regularity of the print.
The DaVinci XYZ 3D printer also delivers a lot of plastic whiskers, made from small volumes of molten plastic that is still appended to the printhead as it moves. They are easily clipped off, but still, decrease the regularity of the print.
The da Vinci 1.0 AiO grapes with the geometric carving print. This copy comprises creating a lot of thin, angled surfaces and sharp edges, and many came out broken or only partly completed. To be fair, maximum filament 3D printers grapple with this, as it is a very sophisticated design to print, and the da Vinci wasn’t much critical than other 3D printers of the same type, such as the Printrbot Simple.
The final 3D print outcomes as a set of 3D gears that fit collectively to form a restless gear mechanism. Some of the smaller parts can be somewhat undeveloped and a little difficult to separate from the shielding material. However, after a small quantity of cleaning, you will be able to fit the mechanism together, and all of the gears will turn as expected.
Speedy scan algorithm takes less than 5 minutes to deliver a 3D scan with a mechanical grade resolution.
Asymmetric Laser Sensors Technology work mutually with the turntable to ensure a complete scan.
3D prints entirely concluded with no assembly demanded.
Printing space enclosure defends users from the high temperatures required to 3D print.
Simplistic to use scan software uses smart-fix technology to intensify a 3D scan.
Access to the XYZWorld society which features a 3D Cloud Library with millenary of easy-to-use, downloadable designs ready for you to print. Upload and share your own ideas with the association.
Filament cartridges are cassette formed which makes them easy to load.
Cheap thread alert lets you know when you need to replace filament cartridges.
Build volume 7.8 x 7.8 x 7.8 inch, which is 15 to 75% larger than what others in its class can print.
With easy-to-install filament cartridges, users can quickly refill the printer.
Da Vinci’s all enclosed design protects users from the high temperatures required to print.
Smart Platform Auto Calibration. XYZWare EZ Mode making it easy to use for non-experienced users.
3D Design+ Cloud – A service platform makes your 3D creative come true.
Price less than $500 – The DaVinci XYZ is the most affordable 3D printer of its capacity on the market.
One-Year Limited Warranty: XYZprinting provides one-year limited warranty after product registration on XYZprinting website. For technical support, you can contact leaving a message on the support page of the official site.
Specifications & System Requirements
The method of Fabrication is FFF (Fused Filament Fabrication).
Optimum Build Volume (weight x height x depth): 7.8 x 7.8 x 7.8 inch (20 x 20 x 20cm).
Printing Definition: Fine (100 microns), Standard (200 microns), Speed (300 microns), Ultra Fast (400 microns).
Print Head: Single Nozzle.
Nozzle Diameter: 0.4mm.
Print Rate: 150mm/sec.
Filament Diameter: 1.75mm.
Print Material: ABS and PLA.
File Format Type: STL (universal) and XYZ (proprietary).
Panel Type: 4 x16 LCM.
Language: Japanese and English.
Connection: USB 2.0 Cable.
Windows OS XP (.net 4.0 is required).
Windows OS 7 or above (for Personal Computer).
Mac Osx 10.8 / 64-bit above (for Mac).
X86 32/64-bit compatible PCs with 2GB+ DRAM (for PC).
X86 64-bit compatible Macs with 2GB+ DRAM (for Mac).
Scanning Quality: Unexpected
The possibility to put an object into the 3D scanner and output a 3D-printed replica appears like science fantasy. Predestinated, the DaVinci XYZ does this extraordinary process in the blink of an eye. You will see that the 3D scanner part of this device is finicky and difficult to use and that it produces somewhat lower outcomes.
XYZprinting confirms that the object to scan should not be less than two cubic inches in volume. That point is because the scanner doesn’t distinguish unessential details. XYZ says that the tiniest resolution it can scan at is 0.5mm. Nevertheless, in practice, you will observe much larger details.
We found that if you try scanning a stumblingly 2-inch-high figurine of a man whose face is flanked by greenery, the resulting scan can take some of the details but will miss many others. For example, it can blow the leaves around one side of his face.
The 3D scanner strives with many of the objects you can scan. It can fail with objects that are transparent, contemplative or dark. That is because those objects alter the light reflection that it uses to identify the object edges. Sometimes these objects won’t appear in the final scan or will half appear as odd bits.
While there is an incapacity to scan glass objects, the obstacle with studying dark objects is extraordinary. You can even scan a black digital camera flopping. This matte-black camera can do the scan, but the 3D model will be very glitchy, with scattered outsides and parts.
You will get positive results with simple, clean objects with smooth curves rather than hard edges, like a tea cup or a mug. As long as these items are not exceedingly sparkling, the scans will complete well.
Those results are great when contrasted to scanners like that Cubify Sense 3D or the MakerBot Digitizer that do an excellent job as well. Some of those systems also offer more complicated editing tools that help provide cleaner, more reliable models.
Bottom Line: Decent Printing, But Poor Scanning
This XYZprinting Da Vinci 3D Scanner Review makes clear that this DaVinci XYZ is a great combination of a superb 3D Printer and a great 3D scanner. The DaVinci XYZ produces decent quality 3D prints of most things and handles easily accurate details or complex objects.
Join the Next Industrial Revolution with professional-quality manufacturing on your desktop.
The MakerBot Desktop 3D Printer and 3D Scanner Bundle includes:
MakerBot Replicator 2 Desktop 3D Printer
MakerBot Replicator 2-the standard in desktop 3D printing is a fast, easy, and affordable tool for making professional-quality models.
Bring your projects to life with 100-micron layer resolution and a 410-cubic-inch build volume.
Prepare files for 3D printing in seconds with FREE MakerBot® MakerWareTM software, which includes regular downloadable updates.
Also included with purchase is a one-pound spool of MakerBot® Natural PLA Filament.
MakerBot Digitizer Desktop 3D Scanner
Fast turn the ideas in your world into 3D models that you can modify, improve, share, and 3D print.
The MakerBot Digitizer runs on easy-to-use, yet sophisticated FREE MakerWare® for DigitizerTM software, which creates clean 3D models with just two clicks! We’ve optimized the entire process to operate seamlessly with the MakerBot Replicator 2, making this bundle the perfect pairing for creating 3D models and physical objects.
With the MakerBot Replicator 2 and the MakerBot Digitizer, you don’t need any design or 3D modeling skills to get started. You can start 3D printing and 3D scanning right away.
There are so many possibilities; the only limit is your imagination!
Makerbot Replicator 2 3D-Printer
With a heated build platform, this dual 3D printer is simply the best.
The Replicator 2, by Makerbot is one of the newest and best personal 3D printers available on the market today. In fact, the size and weight of this device make it perfect for workshops of all purposes and sizes. Nearly every facet of the Replicator 2 is designed to be user-friendly and work to suit the needs of the designer.
Improved software makes the Replicator 2 faster, more functional, and more reliable than its predecessor while still maintaining a cost that will not force you to spend copious amounts of money. This article concentrate on the characteristics of the Replicator 2 as to give you a better understanding of how and how well it functions.Replicator 2
To declare the understood, the function of every 3D printer is to turn 2-dimensional pictures into 3-dimensional items that can be touched, held, and used for whatever purpose the designer chooses. The Replicator 2 is different than most other printers in that the final product is the final product. While other printers may require you to sand or make other alterations after the printing job is completed, the Replicator 2 boasts a 100-micron layer resolution as to create smoother surfaces that need no post-production work at all.Project Size,
The Replicator 2 also bests its predecessor in the size of the objects it is able to create. Having over 30% more capacity than the original Replicator, this updated version allows you to print objects with dimensions as large as 11.2” long x 6.1” wide x 6” high, including a diagonal measurement of up to 12.75”. Not only does it make projects capable of being bigger than ever before, but it also assembles these items faster too.
The Replicator 2 uses Makerbot’s PLA filament, which is a type of renewable bioplastic. This filament allows you to build larger items than the original Replicator could without having to sacrifice the stability of the project. The material is incredibly durable and works well with moveable parts and is available in a plethora of different colors including matte, metallic, translucent, sparkly, and more. PLA filament is also more energy efficient than any other filament on the market today.
Ease of Use
Seeing as this personal 3D printer comes pre-assembled you do not have to waste time putting parts together. Another Ease-of-use feature is the platform for your printed item which pops out, making it easier to retrieve your project once it is completed. The Replicator 2 is going to save you money on electric bills too because it uses 32% less power than its predecessor.
Finally, the Replicator 2’s new software allows for faster printing and the ability to cue multiple jobs at one time. Its user-friendly interface supports .stl and .obj files; a feature that was missing on the original Replicator.
With a more attractive design, stronger frame and support, and a faster, more efficient build process, the Replicator 2 bests its predecessor on almost every level.
1.75 mm filaments of plastic (for example, ABS, PLA, PVA, Nylon, … ).
Platform coated in aluminum and heated with temperature control, with super wide Kapton tape. Print without Raft possible!
LCD display interface (operation without a computer).
Quick Start Guide
This 3D printer requires no installation, and it works on the principle of FFF (Fused Filament Fabrication) with plastic filaments.
It works at the same time the two materials, which multicolored objects and the use of materials in the support soluble in water are possible.
Materials used on the 3D Printer are ABS, PLA, PVA and other general materials such as nylon, LAYWOO-D3, HIPS, FPE, etc.
The hardware and software of the 3D printer are suitable for printing speed (acceleration), leading to realize a precise speed of 180 mm/sec.
The package encloses a self-created SD card, all the necessary drivers, and software (for Windows or Mac), and contains the manual, to allow quick and easy access.
Ideally, connect the 3D printer on your PC, install the drivers and software, copy profiles, download template for printing and start printing.
SD Card with full software ( ReplicatorG ) and manual in English, the pressure profiles and many print styles.
3 Accessories ( power cord, USB cable, SD card, small tools, etc).
Construction of the platform
Generously sized and heated in a process.
This 3D Printer is a 3D desktop multifunction printer for your home or office. The 3D Printer offers a full range of 3D printing for the office and is a guarantee that you are well equipped for future trends.
Extrusion system extremely reliable
The 3D printer supplies an MK7 extruder + universal update that allows you to print without any problems. It’s the result of a long development, testing, and tuning. The result is an extruder that is extremely reliable and easy to maintain. It is very reliable; the drive system filament is one of the strongest on the market (NEMA high torque stepper motor 17). You get high-quality print features, and the Makerbot reduces the post-print process highly. Changing the filament is a snap with the LCD interface.
There is an SD card slot where you can insert the card, allowing the machine to determine the location and to start printing! Another possibility is to connect your 3D printer via the USB port of your computer. On the LCD screen, you can always track the status of the print job in progress.
The motherboard is equipped with a USB port so you can easily connect the device with the USB cable that came with your computer. End of travel on each axis (X, Y, Z), you never have to align the axes XYZ-hand.
When you begin the print job, the 3D printer lines, heats, and starts printing automatically. All you have to do is sit back and relax while the printer does all the work. It seems like a futuristic gadget in that way, and that is great.
The electronics are completely in the body so that all is hanging. This concept of design makes the 3D printer the possibility of international shipping with no problems.
Assistance with issues and questions
For quick and easy initial printer setup the pack includes a bundle composed of all quick start guide and the SD card with drivers, software, pressure profiles and field tested two documents printed (for Windows PC or Mac).
In the case of difficulties or questions, the supporter team is always happy to assist you via email or telephone.
Some technical specifications of the 3D printer
Interface: Possibility of printing through USB or printing from SD card.
Dimensions: 470 x 430 x 380 mm (L x W x H).
Huge space: 150 x 225 x 150 mm (L x W x H).
Total height: max. 150 mm.
By evidence MakerBot Power PCB.
Heated build platform max. 120 ° C.
Extrusion temperature up to max. 260 ° C.
Temperature sensor for accurate measurement of temperature (extruder and platform).
Works with 110V and 230V.
The accuracy of the production in the XY plane: about 0.1 to 0.2 mm.
The height of the layer (the resolution in the Z direction) of each element printed is from 0.1 to 0.5 mm (and it is adaptable).
The device allows to 3D print with ABS, PLA, PVA and other conventional materials.
Diameter os the material: from 1.75 to 1.8 mm.
Dim fan noise by installing silent fans (about 50-55 dB corresponds approximately to an ordinary conversation, the volume of the room)
A brief overview:
Import of the following types of files: STL files G code, OBJ (experimental), Collada (on beta version).
Converting data into Gcode friendly.
Model the data processing of the dual extrusion.
Dynamic 3D preview of the print objects.
Allow modifications and adaptations of the 3D model before printing (e.g., move, rotate, zoom in / out, mirrors, etc).
Manual control and monitoring of the 3D printer (XYZ axis control and the extruder motor with selectable speeds, the temperature of the extruder, the temperature of the platform, calibration).
With the help of Print-O-Matic ® pressure parameters are automatically calculated and used to print good results.
Can be printed with or without raft.
Moreover, they can be printed off the loose parts’ as balls, because the software generates a sub-structure, which can separate after printing (breakpoints).
The print settings can be adjusted manually and stored as individual profiles (interest rates, the construction of the layer, filling, backing material, the printing speed, etc., flow rate)
Access to internal parameters of the motherboard
ReplicatorG developed as open source software, Hack 100% Capacity
Thingiverse is the “world of things”, a free download from dog reds of 3D models and, of course, can be printed out immediately!
The MakerBot businesses available for each platform has a large community of users who upload their own designs, evaluate the plans of others and present their impressions.
The practice of the rulers, toys, learning styles, machine tools and works of art is something to suit everyone.
How about, for example, with the self-made Christmas tree, snowflakes Darth Vader nutcracker or Keksausstechern in any form?
On sites like Archive3d.net, there are thousands of 3D models for free. You can open from download and print with 3d software like Rhino 3D or STL export. Design a 3D piece in Rhino, SketchUp, and 3dmax or STL export and print it!.
3D Printer (LCD, dual-extruder construction of the platform interface, heated tuning switch with blue LED)
AC power cord
BONUS: 1kg 1.75 mm ABS filament role or on request 1 kg PLA filament
Support via e-mail
Quick Start Guide
SD CARD with drivers, software, files, Gcode and manual test
Processing time and the shipping time is 5-8 working days after receipt of payment.
The company manufacturing this 3D Printer guarantees the quality of the printer and provides a 3-year warranty on the products and, of course, they will help you with any problems you may face.
For questions you can contact anytime
Zhuhai CTC Electronic Co., Ltd. Head Office
Tel: 0086 -0756 à 8518488