Raise3D Technologies  

43 Tesla
Irvine,  CA  92618

United States
888-963-9028
  • Booth: E8819

Pioneering Flexible Manufacturing - Raise3D inspires creativity and ingenuity with innovative 3D printing techonoly that empowers our customers to build extraordinary things. 
Our award winning 3D printers are known for their rigorous quality standards and built specifically for the needs of our customers to be more competitive, incorporate advanced materials and large build volumes to produce customized manufacturing on demand. Our customers have come to rely upon our capabilities and trust our technological leadership in 3D printing. At RAISE3D we encourage and value new ways of thinking, invest in research and development and promote the use of new technologies. Quality is at the heart of everything we do and customer satisfaction is our key performance indicator.


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  • Multi-material printing, soluble supports, and high production volume are the promises of dual extruder 3D printers. Here are the pro top 10.

    Dependent dual extruders can print soluble support material and base material for the same print (Source: Ultimaker)

    Step Up to a Dual Extruder FDM Printer

    Dual extruders are a feature that separates professional 3D printers from hobby machines (although there are many budget versions). Having two extruders saves time, enables easier part post-processing (e.g. removing soluble supports), and can double the production volume of your machine.

    Dual extruder printers can also enable multi-material 3D printing. By combining materials, you can obtain different mechanical properties in one single print, which can result in more functional and realistic prototypes.

    Printing with two materials at once, whether it’s two colors or a flexible TPU next to strong sturdy polypropylene, eliminates part assembly and time-consuming filament changes. You can also save money by printing with a costly filament, such as carbon fiber, just where needed and economical material for infill or non-structural areas.

    Of course, the most common use for dual extruders is printing a part in a base material and its supports in a soluble material for quick and easy removal. Soluble supports (dissolvable in water or alcohol solution) are not only easier to remove than break-away supports, but they enable you to print much more complex parts with internal supports that melt away.

    When it comes to productivity, two heads are clearly better than one, enabling you to cut your print time in half. This makes the machine much more effective for serial manufacturing.

    The dual extrusion direct-drive IDEX setup (Source: Craftbot)
    OVERVIEW
    Printer Dual Type Build Volume in mm Price Max Extruder Temp
    3DGence Industry F420 Dependent 380 x 380 x 420 ~$50,000 500°C
    BCN3D Epsilon W50 IDEX 420 x 300 x 400 $8,400 300 ºC
    BigRep Studio G2 Dependent 1000 x 500 x 500 ~$65,700 280°C
    Craftbot Flow IDEX XL IDEX 425 x 250 x 500 $4,848 300ºC
    Essentium HSE 280i HT  True IDEX 695 x 495 x 600 ~$185,000 550 ºC
    Modix BIG-60 V3 Dependent 600 x 600 x 660 $3,700 500°C
    Raise3D Pro2 Plus Dependent 305 × 305 × 605 $4,000 300℃
    Stratasys F370 Dependent 355 x 254 x 355 ~$50,000 500ºC
    Ultimaker S5 Dependent 330 x 240 x 300 $6,000 280ºC
    XYZprinting PartPro300 xT Dependent 295 × 300 × 300 $5,500 500ºC
    Cincinatti MAAM Dependent 1000 x 1000 x 1000 $155,000 500ºC
    Aon-M2, M2+ IDEX 450 x 450 x 640 $49,999 500°C
    BEST IDEX & DUAL EXTRUDER 3D PRINTERS 

    Multiple Types of Dual Extrusion 

    Image of Best IDEX & Dual Extruder 3D Printers: Multiple Types of Dual Extrusion
    Dependent dual extruders on the 3DGence Double P255 (Source: 3DGence)

    Although all dual extrusion printers can extrude two different filaments at the same time, there are different ways to do it and different advantages.

    Dependent Dual Extrusion

    These are the most popular type of dual extrusion printers. They have one print head unit with two extruding nozzles with two hot ends inside. Here, both extruders are “dependent” on each other and move as one on the X, Y, and Z axis. These nozzles themselves within the print head often raise slightly when not printing.

    Both nozzles essentially take turns printing on the same part. One nozzle may print with a base material while the other prints the support material. You could also have a multi-material situation where one nozzle prints in one color while the other in another color, or each nozzle prints in a different non-soluble material.

    A dependent dual extruder has two nozzles in one print head (Source: Ultimaker)

    Although this method eliminates the need to switch or reload filaments, it doesn’t double your productivity like the independent dual extrusion options below.

    Dual Extrusion Isn’t Always Multi-Material

    Note that many dual extruder printers only accommodate printing one, so-called “model” or “base” material, such as PP or PEEK, and one support material at a time – not two model materials at once. One extruder in the pair is always dedicated to support material, whether its BVOH, or a range of support materials that are specifically matched to their model materials.

    Independent dual extruders (IDEX) on the Raise3D E2 printing two separate parts with two different materials in mirror mode (Source: Raise3D)

    Independent Dual Extruders (IDEX)

    These printers feature two extruder print heads on the same X-axis gantry, but they can move on the X-axis independently while still dependent on the Y and Z axis. This means a single printer can act like two smaller printers each printing the same thing at the same time (copy mode) or each extruder can be programmed to print different parts at the same time (mirror mode) with some limitations. For example, one extruder can print a left shoe model while the other prints a right shoe model.

    Another advantage of IDEX over some dual nozzles in one print head is that the two nozzles can have significant temperature differences, which enables you to combine different materials more reliably into the same part. PEEK, for example, requires a high extruder temperature that would make PLA too viscous. With separate extruders in separate print heads, each one can be programmed to achieve the optimal temperature for each material. The higher-end of the dependent dual extruders can also feature varying temperatures because they are heated and cooled individually.

    True IDEX

    The third type of dual extrusion printers feature completely independent extruders. There is currently only one printer with this feature, the Essentium HSE (high-speed extrusion) 280i HT. On this machine, the independent extruders are not joined on the same gantry and can move separately along the X-, Y- and Z-axis. Essentium calls this “true” IDEX and it enables you to print two completely different parts with different materials on one platform, increasing your machine’s throughput. Of course, it can also print one part with multiple materials, or base materials and soluble supports.

    Although there have been (and still are) some multi-extruder printers on the market featuring three or more extruders, it’s an attribute that has yet to find a strong following.

    The Mark Two continuous fiber filament printer (Source: Markforged)

    Continuous Fiber

    There are a handful of industrial FDM dual extrusion printers dedicated to printing with continuous carbon, Kevlar, or fiberglass fibers along with a base material, typically nylon. Having dual extruder technology is a crucial aspect of this method, in which the outer contours are printed in nylon material and the inner workings of the component are provided with continuous fibers. The print head actively switches between two nozzles during printing to produce robust fibre-reinforced plastic parts in just one construction process. This technology is often called continuous filament fabrication (CFF) or continuous fiber reinforcement (CFR).

    Below, we take a look at the defining features of the top 10 machines (in alphabetical order) in both dependent and independent dual extrusion. But first, take a look at some of the features to consider in your dual-extruder 3D printer purchase.

  • When you are looking to purchase a 3D printer, it can be overwhelming to go through all of the options available on the market. As technology has improved, more and more variations of 3D printers have been developed, so you must find the right one for you.

    This ultimate guide will list out the best 3D printers for 2021, as well as their pros and cons according to the top 3D printing service providers!

    Choosing the Best 3D Printer

    Before we get into specific types of 3D printers, let’s review some important things you should consider before you make your final decision.

    Use Case For 3D Printing

    For starters, you must ask yourself what you plan to use the 3D printer for. Are you a mechanical engineer that wants to model out some new ideas, or a founder of a hardware product that needs an efficient way to build prototypes?

    If so, the best 3D printer for you will be different than someone who is a hobbyist and doesn’t need a commercial machine.

    3D Printer Pricing

    When you are choosing for the best 3D printer, pricing is another important consideration. The amount you are willing to spend on a 3D printer will also help you narrow down the top choice from this list.

    Fused deposition modeling, or FDM printers, will be the most cost-effective. This popular option creates 3D models by heating and extruding plastic.

    Stereolithography (SLA) machines utilize ultraviolet light and photosensitive liquid, so these will be slightly more expensive. The most expensive options use selective laser sintering (SLS), which is equipped with lasers that can melt the powder to create the print.

    Materials You Will Use With Your 3D Printer

    The type of material you plan on printing will also help you determine what the best 3D printer will be for your needs. PLA and ABS are the most common thermoplastics used, and these come in the form of spools of filament that need to be replaced when the printer runs out.

    Higher-level models can support materials like wood fill, metal fill, glass fiber infused, and more!

    Resolution

    Another thing that you need to consider is the level of detail that you need on your print. The smaller the resolution on the printer, the greater level of detail it can create. The micron resolution will vary depending on the model you choose.

                THE ULTIMATE 3D PRINTER LIST GUIDE FOR 2021:

    FormLabs Form 3 Best 3D Printer
    Source: FormLabs

    FormLabs Form 3

    Starting off our list of best 3D printers for 2021 is the FormLabs Form 3. This impressive SLAprinter has a resolution range from 25 to 300 microns and is a relatively small machine considering its high-quality output.

    FormLabs Form 3 Pros

    This is an ideal choice for superior printing capabilities that support a wide variety of materials. Since it uses a precision laser to create the print, it uses liquid resin instead of solid filament. Although this process will require more time and preparation to complete, the result is worth it!

    Simply put, the combination of the technology and breadth of materials available make this perfect for developing prototypes, casting, and production.

    FormLabs Form 3 Cons

    The main drawback to the FormLabs Form 3 is that the SLA prints require cleaning. Similarly, the cost of this machine is close to $4,000 – so it is not a cheap option.

    Ultimaker S3 Best 3D Printer
    Source: Ultimaker

    Ultimaker S3

    The next 3D printer on our list is the Ultimaker S3. This machine has been a staple in the industry for quite some time, and it comes from of the most reputable manufacturers of 3D printers. The resolution with this machine ranges from 20 to 600 microns, making it ideal for students or others who are creating a wide variety of prints.

    Ultimaker S3 Pros

    The Ultimaker S3 is known for its quality, speed, and reliability. You can interchange many accessories and materials to fit your unique printing requirements, such as swappable cartridge hotends. Its touchscreen, user interface, and slicer software also lead the market.

    This 3D printer is also easy to network, making it extremely usable and business-friendly.

    Ultimaker S3 Cons

    The only negative thing we can report about the Ultimaker S3 is the cost. This 3D printer starts at around $3,800, so you will need a substantial budget to make this one work!

    Monoprice Voxel
    Source: Monoprice

    Monoprice Voxel

    The Monoprice Voxel is going to be our top choice for the average person. Perhaps you’ve got a tight budget or are just looking to get started with 3D printing without making a substantial investment. If so, this affordable option will be able to meet all of your needs without breaking the bank! The layer resolution goes from 50 to 400 microns, and this model supports a BS, would fill, copper fill, steel fill, and PLA. It has a smaller build volume of 6.9 in, but this lightweight machine is made for smaller projects.

    Monoprice Voxel Pros

    This 3D model is enclosed, so it is ideal for a small space or even a classroom. It starts at just $400, so it’s an affordable choice that still provides you with impressive speeds and quality. Likewise, the heated print base supports more reliable prints which are perfect for new users!

    Monoprice Voxel Cons

    When compared to the rest of the printers on this list, the software on the Monoprice Voxel is a bit lackluster. There have also been some Wi-Fi connection issues that users have been frustrated with.

    Prusa i3 MK3S+
    Source: Prusa

    Prusa i3 MK3S+

    The Prusa i3 MK3S+ is also one of our best 3D printers for 2021. This choice provides exceptional print quality due to its advanced calibration techniques imprint monitoring software. The price point is also modest, putting it right in the middle of the price ranges.

    Prusa i3 MK3S+ Pros

    When it comes to value for your money, the Prusa 3D can’t be beaten. It’s just over $900, but the capability matches those of printers in the $3,000+ range.

    The error detection and mitigation systems allow it to be one of the most intelligent 3D printers on the market. this means that you will be creating high-quality prints right out of the box!

    There is also a very involved community with excellent support available to help you get this 3D printer up and running.

    Prusa i3 MK3S+ Cons

    The only drawback to choosing the Prusa 3D model is that the stock configuration struggles to print multiple materials and requires you to change the loaded spool of filament manually. It may not be able to perform as well with hardcore engineering materials either.

    Raise3D E2 3D Printer
    Source: Raise3D

    Raise3D E2

    If you need a workhorse 3D printer, then the Raise3D E2 is likely your best option! With this selection, your resolution will range from 20 to 250 microns. Its versatility in design and interface makes it the perfect 3D printer for almost anything!

    Raise3D E2 Pros

    This printer has a very high resolution, and its touch screen interface is one of the best on the market. It can meet the needs of your business with its impressive integration capabilities and had a straightforward interface.

    The Raise3D E2 is extremely reliable and allows you to bring high-end FFF printing right to your home or office!

    Raise3D E2 Cons

    Besides its steep cost of $3,500, the only real negative to this 3D printer is its large weight and size.

    BCN3D Sigma D25 - 3D Printer
    Source: BCN3D

    BCN3D Sigma D25

    When it comes to dual-color printing, the BCN3D Sigma D25 tops the charts. This is a smaller desktop version, but they also have an industrial size made for commercial printing. Another thing that makes this choice unique is that you can use two separate spools of material at one time. As a result, you can either make two copies of something at once or use two distinct material colors to create a multicolor 3D object!

    BCN3D Sigma D25 Pros

    One of the best things about this 3D printer is that it is fast. It uses automatic calibration tools that are extremely precise and help improve processing times. The wide variety of built-in settings also help!

    The BCN3D Sigma D25 is more of an industrial choice, but it maximizes the need for speed and volume. When you combine these capabilities with multiple materials and colors, it’s the perfect edition for your workshop or garage.

    BCN3D Sigma D25 Cons 

    This 3D printer is one of the largest on the list – even the desktop size – coming in at 420mm x 300mm x 200mm. The large build volume requires this much space, so you need to make sure that you have an appropriate place to put it.

    Another issue some users have faced with this model is that the setup can be complex, and the English instructions are a bit lacking. Similarly, adding this printer to your workshop will cost you at least $4,000!

    Dremel DigiLab 3D45
    Source: Dremel DigiLab

    Dremel DigiLab 3D45

    The Dremel DigiLab 3D45 is a dependable machine that is relatively affordable, with a price point of $1,700. It can produce a layer thickness ranging from 50 to 300 microns, and the print area covers 10 x 6 x 6.7 inches. Since this 3D printer is easy to use, it is a common choice for classrooms or workshops that conduct training. 

    Dremel DigiLab 3D45 Pros

    When it comes to safety, ease of use, and reliability, the Dremel DigiLab 3D45 is great. The Bosch sensor technology that it has ensures that the machine is safe for any learning environment. Similarly, the carbon filters reduce odors and prevent the release of harmful VOCs. Another benefit of this machine is the excellent print quality, so long as you use the proprietary materials. Setting it up is straightforward too – you can almost use it right out of the box!

    Dremel DigiLab 3D45 Cons 

    Although the closed system is a benefit for safety, it creates a drawback when it comes to creativity. The quality of the prints you produce decreases when you use third-party filaments and the machine has a hard time with materials like nylon. If you want to use tools and materials outside of the Dremel ecosystem, it may not be the right machine for the job. 

    MakerBot Replicator 3D Printer
    Source: MakerBot

    MakerBot Replicator

    Next on our list is the MakerBot Replicator. This sturdy 3D printer starts at $1,999, and it can accomplish a lot more than a standard budget printer. It is much faster than older MakerBot models, and much quieter too.  The layer resolution reaches up to 100 microns, and the build volume is substantial at 11.6 x 7.6 x 6.5 inches. 

    MakerBot Replicator Pros

    A benefit of the MakerBot Replicator is that it is very quiet. It is much quieter than other models because it uses sound-dampening materials. The software is free and gives you access to many applications and CAD systems. It leads the industry when it comes to downloads, as other printers can use the MakerWare too. 

    Another benefit of this 3D printer is that it is plug-and-play. All you need to do is take it out of the box, and you are just about ready to get started! The user community also helps, since there are always people willing to share ideas and help you solve any problems that you run into. 

    MakerBot Replicator Cons 

    A major disadvantage to choosing this model is that it does not work with ABS filament. The MakerBot Replicator Is ideal for their specialty PLA, but some users have complained that it does not work as well with other materials. An additional drawback to this 3D printer is that it has a weak acrylic build plate. Some have experienced problems where the plate is not flat enough to create certain models, it has even led some to purchase an aftermarket solution. 

    Creality Ender 3
    Source: Creality

    Creality Ender 3

    If you’re on a tight budget, look no further than the Creality Ender 3. This filament-based option is ideal for the price, considering it starts at only $240. The build area has a volume of 220 x 220 x 250 mm, and it uses a heated build plate to make printing easier.  Even though it is affordable, its attributes compete with even the most expensive printers! 

    Creality Ender 3 Pros

    By far the biggest advantage of this model is the price. It has a decent print volume and quality while staying affordable, and the open-source system is helpful. Likewise, it is compatible with flexible filament thanks to the tight filament path it has. The Creality Ender 3 is pretty compact and easy to assemble, so you shouldn’t expect to run into any difficulties there. 

    Creality Ender 3 Cons 

    This model isn’t perfect though, and the low price means that the print beds can be a bit flimsy. Other reviews also indicate that the base is known to wobble, so leveling it is difficult. The stepper motors and cooling fans are also very loud, so this is not the best choice for someone looking for a quiet solution. The interface on this 3D printer leaves a lot to be desired. You also have to manually calibrate it, which can be a hassle over time.

    Peopoly Phenom Best 3D Printer
    Source: Peopoly

    Peopoly Phenom

    The Peopoly Phenom is a big 3D printer, with one of the largest build areas available. It is 10.8 x 6.1 x 15.8 inches – so big is an understatement! This model has a 4K LCD screen with a resolution of up to 72 microns. It retails for just under $2,000, so it falls right in the middle of the price ranges on this list. 

    Peopoly Phenom Pros

    The cost of this machine is a huge pro, considering the print area and the wide variety of materials that it supports. It is more affordable than other leading resin printers, and you can print things almost 16 inches wide! 

    Peopoly Phenom Cons 

    The size of this machine can be a drawback, especially if you’re looking to store it in a small area. The Peopoly Phenom also struggles with noise control, so this 3D printer is much louder than some of its competitors. There are many complaints about the confusing interface, and there is no option for it to connect to Wi-Fi.

    Artillery Sidewinder X1 V4 Best 3D Printer
    Source: Artillery

    Artillery Sidewinder X1 V4

    The last 3D printer on our list is the Artillery Sidewinder X1 V4. This model only costs about $400 but still provides a broad set of features for beginners and those on a budget. It can handle many types of materials, including ABS, PLA, and TPU. the build volume is also decent, coming in at 11.8 x 11.8 x 15.75 inches. 

    Artillery Sidewinder X1 V4 Pros

    The Artillery Sidewinder X1 V4 is extremely quiet. It is also easy to put together since it almost comes assembled in the box. This 3D printer also heats up very fast, which can cut down on the time it takes to make your models. Overall, it is a very well-designed machine for the price. 

    Artillery Sidewinder X1 V4 Cons 

    A weak point on this particular model is the ribbon cables it uses. Even though this makes the printer looks sleek, they are prone to breaking, and the delicate wiring can cause uneven heat dissipation. There are also some known issues with the filament holder.

     

    Which 3D printer Will You Choose?

    As you can see, you have quite a few options when it comes to choosing the best 3D printer in 2021. Remember that you should base your choice on how you plan to use it, including which materials you expect to utilize the most.

    If you’re new to 3D printing, consider the options with an easy interface and automatic calibration so you can let it do the heavy lifting for you. If you need to use varied materials are multiple colors, then that will determine your selection since not every 3D printer can manage those requirements.

    All that’s left to do now is make a decision and enter the exciting world of 3D printing!

    If you’d like to discover more about great 3d printers for 2021, you can check out our other lists or media websites like 3dnatives.

  • In this edition of Sliced, the 3D Printing Industry news digest, we cover the latest business developments, partnerships, and acquisitions in the additive manufacturing sector.

    Today’s edition includes multiple new 3D printing partnerships, AM software updates, an overview of proper handling procedures for powder waste, and America Makes’ Executive Director John Wilczynski responds to the latest supply chain legislation from the US Senate.

    Read on for the most recent updates from Post Process, Raise3D, Primus Aerospace, 3DS Outscale, Immensa Additive Manufacturing, Trumpf, Lantek, and more.

    Henkel's new Loctite photopolymers range. Photo via Henkel
    Henkel’s new Loctite photopolymers range. Photo via Henkel

    New 3D printing partnerships for PostProcess, iMakr, Sandvik, and Trumpf

    Kicking off this week’s round-up is the news that automated post-processing system manufacturer PostProcess Technologies has partnered with global chemical firm Henkel to support companies in optimizing their resin 3D printing workflows through automated post-processing. 

    Henkel’s Loctite brand, which enables 3D printing applications in sectors spanning automotive, aerospace, engineering, and consumer goods, will now offer more validated cleaning solutions for its 3D printing resins, enabled by Loctite’s 3D Printing Workflow Tool which records print settings and post-printing cleaning and curing settings. The partnership will also see the two companies continue to develop further materials and technologies for photopolymer 3D printing.

    “It’s exciting for us to cooperate with a renowned brand in the additive manufacturing space,” said Jeff Mize, CEO at PostProcess. “Much like Henkel, PostProcess keeps its eyes on not just one aspect of the additive process, but rather the entire end-to-end workstream. We’re looking forward to enabling Henkel’s future resin material developments with corresponding post-printing solutions that level up productivity and sustainability.”

    Henkel has also joined forces with global 3D printer, scanner, and services reseller iMakr in a partnership that will see the latter supply Loctite 3D printing materials throughout the UK and Ireland, the US, Germany, Denmark, and France. As part of the agreement, iMakr will provide Loctite’s PRO410 professional-grade resin throughout its global network in addition to other ranges under the Loctite brand.

    “We are pleased to be working with iMakr as they focus on education of the customer and matching the right solution based on the customer needs and objectives,” said Sam Bail, Director of Partnerships at Henkel. “At Henkel, we want to ensure customers realize the full potential of our materials.

    “WITH THEIR FOCUS ON CUSTOMER SUPPORT AND PRODUCT TO APPLICATION MATCHING, IMAKR IS AN IDEAL PARTNER FOR US.”

    Henkel and iMakr collaborate to strengthen the visibility, network and customer focus of high-performance Loctite 3D printing materials. Image via iMakr.
    Henkel and iMakr collaborate to strengthen the visibility, network and customer focus of high-performance Loctite 3D printing materials. Image via iMakr.

    In other partnership-related news, United Arab Emirates (UAE)-based 3D printing bureau Immensa Technology Labs has teamed up with global engineering group Sandvik and Italian additive manufacturing service bureau BEAMIT in a bid to advance additive manufacturing across the Middle East and North Africa (MENA) region. The partnership will leverage Immensa’s technical capabilities and position in the MENA region, and Sandvik’s materials technology, 3D printing processes, and metal powders, to increase the adoption of 3D printing throughout the area.

    “We realize the big potential for additive technology in the MENA region,” said Kristian Egeberg, President of Sandvik Additive Manufacturing. “Through Sandvik’s 158 years of materials knowledge, and our strong expertise across the additive value chain – from metal powder to finished components – we look forward to help drive the implementation of additive manufacturing across a number of industries in the area.”

    Elsewhere, German machine tool manufacturer TRUMPF has acquired Spanish sheet metal software developer Lantek in order to expand its sheet metal treatment and process chain capabilities. In addition to the acquisition, TRUMPF has also launched a new series of its TruPrint 3000 3D printing system which uses powder bed laser melting to produce parts up to 300 (d) x 400 (h) mm in size. 

    The machine is capable of handling weldable materials including steel, nickel-based alloys, titanium, and aluminum, and can be equipped with a second laser that almost doubles its productivity. The way inert gas travels through the machine has also been altered to boost the quality of printed parts and enable the removal of powder from a part while it is still inside the machine. 

    “We’ve improved key aspects of the TruPrint 3000 to tailor it even more closely to the quality requirements, certifications, and production processes of various industries,” said Klaus Parey, Managing Director of Trumpf Additive Manufacturing.

    Trumpf's TruPrint 3000 3D printer. Photo via Trumpf.
    Trumpf’s TruPrint 3000 3D printer. Photo via Trumpf.

    3D printer manufacturer SPEE3D rounds off this week’s partnerships update, having announced plans to install one of its WarpSPEE3D printers at the facility of El Salvador-based additive manufacturing service bureau, 3D in Metal. This marks Latin America as the latest region SPEE3D has entered with its WarpSPEE3D 3D printing systems, which utilize the company’s patented Cold Spray Technology.

    Installing the WarpSPEE3D machine will enable 3D in Metal to meet demand for metal spare parts in the region, which often outstrips local capability.

    “In developing regions spare parts can sometimes be difficult to source,” said Byron Kennedy, CEO of SPEE3D. “Though, with the WarpSPEE3D metal printer now at 3D in Metal for example, this can help leapfrog these regions to maintain their future supply and demand of metal parts much more easily. 

    “THE INSTALLATION IN EL SALVADOR JUST HIGHLIGHTS THE UNIQUE CAPABILITIES OUR EASILY DEPLOYABLE TECHNOLOGY CAN BRING TO THE REGION.”

    The WARPSPEE3D 3D printer. Image via SPEE3D.
    The WARPSPEE3D 3D printer. Image via SPEE3D.

    3D printing software developments from Raise3D and 3DS Outscale

    Moving onto the latest software news, 3D printer manufacturer and software developer Raise3D has launched the latest version of its slicing software, ideaMaker 4.1.0. New improvements to the software include a texture generation feature, which adds texture to a model’s surface based on a greyscale 2D image. The feature allows users to easily create different iterations of the same STL model by applying different patterns on its surface.

    Further updates to the software include a new Texture Library offering users multiple textures from which to choose from, and a Belt Printer feature that gives the Y-axis an unlimited length to enable users to make longer objects or uninterrupted duplicates of a 3D model. Added support is also included for converting an imported image into a 3D model, alongside support for infills generated from the image, and nozzle modifiers.

    Meanwhile, 3DS OUTSCALE, a Cloud subsidiary of 3D CAD software provider Dassault Systèmes, has established operations in Japan with the opening of a cloud region made up of two availability zones spread across three data centers around Tokyo. 

    The move will see 3DS OUTSCALE provide its main Cloud computing services and its catalog of on-demand services to the Japanese market, including customized virtual machines, storage services, virtual private cloud, and DirectLink services. The firm has established a local company, OUTSCALE KK, to ensure sovereignty and security according to local regulations.

    “The adoption of Cloud computing and the strong growth potential of the Japanese market make it a very attractive hub for our customers in Asia,” said David Chassan, Chief Strategy Officer at 3DS OUTSCALE. 

    “3DS OUTSCALE IS BECOMING A REFERENCE FOR EUROPEAN COMPANIES WISHING TO ESTABLISH THEMSELVES IN JAPAN AND WE ARE PROUD TO ACT AS A REFERENCE OF THE TRUSTED CLOUD IN THE LAND OF INNOVATION.”

    Velo3D metal AM system purchased solely for aerospace and defense applications

    Aerospace and defense contract manufacturing partner Primus Aerospace has purchased a titanium-dedicated metal additive manufacturing system from 3D printer manufacturer VELO3D, which it will use in the production of cube satellites, hypersonics, and turbo engines.  

    The Ti6Al4V Sapphire 3D printing system will be fully dedicated to fulfilling applications in the aerospace and defense sectors in order to achieve design and manufacturing capabilities for novel aerospace applications. Primus’ customers include the likes of Lockheed MartinBoeingNorthrop GrummanGeneral Dynamics, and Raytheon, to name a few.

    “Primus Aerospace is an excellent partner for us with their customer focus, commitment to innovation, and adoption of leading-edge technology,” said Benny Buller, Founder and CEO of VELO3D. “Our capabilities will help them deliver to engineers and supply chain managers the part designs they want, not the limited part geometries that other commodity-AM suppliers say they can have.

    “THE SYNERGIES BETWEEN OUR TWO COMPANIES WILL SUPPORT DEVELOPERS OF NEW PRODUCTS TO OPTIMIZE THEIR DESIGNS WITHOUT COMPROMISE OR RESTRAINT.”

    Engineers examine a titanium fuel tank printed on a VELO3D additive manufacturing system with no internal supports. Such tanks/pressure vessels are designed for use in aerospace and defense applications. Photo via VELO3D.
    Engineers examine a titanium fuel tank printed on a VELO3D additive manufacturing system with no internal supports. Such tanks/pressure vessels are designed for use in aerospace and defense applications. Photo via VELO3D.

    Sintavia publishes disposable procedures for powder waste

    Florida-based metal 3D printing service Sintavia has published an overview of proper handling procedures for powder condensate waste generated as part of the powder bed fusion (PBF) 3D printing process. Powder condensate refers to solidified particles resulting from the evaporation of metal alloys during PBF which are typically deposited into a collection chamber within the 3D printer or wet-vacuumed out of the build chamber.

    As metal 3D printing enters maturity, powder condensate as a waste stream requires manufacturers to allocate proper resources for its safe disposal in line with environmental and safety regulations, according to Sintavia. 

    Ashley Wallace, Sintavia’s Quality and EHS Engineer, has written a paper in partnership with the Additive Manufacturer Green Trade Association(AMGTA) and Triumvirate Environmental titled, “Overview of Disposal Procedures for Powder Condensate Within Metal Powder Bed Fusion”which lays outs procedures used in the US for analyzing and disposing of condensate from the PBF process, and real-world examples of how this can be done. 

    Image shows two of Sintavia's M400 printers at its Hollywood additive manufacturing facility. Photo via Business Wire.
    Image shows two of Sintavia’s M400 printers at its Hollywood additive manufacturing facility. Photo via Business Wire. 

    America Makes Executive Director applauds major supply chain legislation

    Rounding off this week’s news is the introduction of new bipartisan supply chain legislation by US Senators to establish an office of Supply Chain Preparedness, offering a major shift in the approach to how the US manufacturing industry can respond to future crises. 

    Executive Director of the US 3D printing national accelerator America Makes, John Wilczynski, has applauded the legislation in a statement, underlining the need for a “comprehensive, national approach” to supply chain readiness, having praised US President Joe Biden’s executive order for mandating a review into the country’s supply chain dependency last month. 

    “With the White House’s renewed focus on manufacturing policy, this bipartisan supply chain legislation comes at the appropriate time to continue the conversation and establish an office of Supply Chain Prepareness to ensure our country is ready to respond appropriately to future scenarios and codify a lasting regulatory framework,” he said. 

    “Since the beginning of the Covid pandemic, America Makes and the additive manufacturing community have seen firsthand how critical regulatory clarification, capabilities mapping, and needs assessments are for a swift and effective response. Through this experience, our industry has been on the front lines, hard at work to develop a lasting road map for advanced manufacturing supply chains that can be used in times of crisis. 

    “THIS LEGISLATION IS A WELCOME STEP IN HELPING TO SET STANDARDS FOR SUPPLY CHAIN READINESS FOR THE FUTURE OF AMERICA.”

  • Last week we reported on the expected expiry of patent US6722872B1, which has given 3D printer OEM Stratasys exclusive rights to use its proprietary heated build chamber design for over 20 years.

    Having now confirmed the expiry of the patent with Stratasys, we reached out to a number of extrusion-based 3D printing companies – including Stratasys – to get their thoughts on the matter.

    A Stratasys spokesperson told 3D Printing Industry, “Some oven patents have expired, but we continue to create and develop new technology that is already resulting in new patents on heated oven technology. We also are continuing to innovate on other dimensions of FDM performance, as you would expect from a technology leader in the segment.”

    US6722872B1 details the design of a heated build chamber isolated from the printer's motors and electronic components. Image via US6722872B1.
    US6722872B1 details the design of a heated build chamber isolated from the printer’s motors and electronic components. Image via US6722872B1.

    Charles Han, CEO and Founder of INTAMSYS

    Q: What are your thoughts about the expiry of the Stratasys patent?

    Charles Han, CEO and Founder of INTAMSYS: “Now that the heated chamber patent has expired, I believe industrial users will benefit as more players will focus on bringing better FDM/FFF solutions to market. This will lead to more innovation, lower costs, more applications, and a better ROI for customers. Utilizing industrial grade FFF systems will become more popular, more competitive and will replace even more traditional manufacturing methods.”

    Q: Do you plan to bring new systems to the market that take advantage of the expired IP, either via new hardware, or unlocking software to allow increased temperatures in the build chamber?

    Han: “INTAMSYS has been engaged in industrial FFF technology research over 5 years. Moving forward our vision remains the same, and we are already prepared to take advantage of this opportunity.  We are happy to announce the commercial availability of our latest innovative product, the FUNMAT PRO 610 HT. This unit is our largest (610mm x 508mm x 508mm) and most capable high temperature (500°C nozzle, 300°C build chamber) solution, compatible with PEEK, ULTEM 9085, ULTEM 1010 and even EXTEM.”

    The upcoming FUNMAT PRO 610 HT 3D printer. Photo via INTAMSYS.
    The FUNMAT PRO 610 HT 3D printer. Photo via INTAMSYS.

    John Olhoft, President of LulzBot

    Q: What are your thoughts about the expiry of the Stratasys patent?

    John Olhoft, President of LulzBot: “Any time patents expire it presents an opportunity to the Open Source community for building upon groundwork that has been laid in years prior.”

    Q: Do you plan to bring new systems to the market that take advantage of the expired IP, either via new hardware, or unlocking software to allow increased temperatures in the build chamber?

    Olhoft: “At LulzBot we continue to offer Open Source solutions and provide a wide ranging variety of resources to our users patent-free. If we were to integrate this type of design into our next generation of machines, it would cater to the prosumer market with an emphasis on materials that print at above 300°C.”

    Davide Ardizzoia, 3ntr.net

    Q: What are your thoughts about the expiry of the Stratasys patent?

    Davide Ardizzoia, 3ntr.net: “The expiration of Stratasys’ patent is not going to change that much in our offering. We are currently offering machinery with active heated chambers up to 250°C that are perfectly legal and compliant with SSYS patents.”

    Q: Do you plan to bring new systems to the market that take advantage of the expired IP, either via new hardware, or unlocking software to allow increased temperatures in the build chamber?

    Ardizzoia: “We have been the ones that had Scott Crump at our Formnext booth drooling over our TPU prints long before his machines were able to do so. We plan to release a new machine that will move the bar higher, marginally affected by the 1% of SYSS patents that have expired. Even today, we can print TPU, ASA, and support structures into a heated chamber. I know of no one able to match this.”

    Edward Feng, Global CEO of Raise3D

    Q: What are your thoughts about the expiry of the Stratasys patent?

    Edward Feng, Global CEO of Raise3D: “Just the fact that a patent expiration is in the news shows the importance of Stratasys’ and Scott Crump’s work. That said, we should also note that, despite the existing patents, the last decade showed that whenever there is a strong value proposition, like the one Additive Manufacturing has, the market will find innovative ways of addressing it.”

    Q: Do you plan to bring new systems to the market that take advantage of the expired IP, either via new hardware, or unlocking software to allow increased temperatures in the build chamber?

    Feng: “We plan to make Flexible Manufacturing Solutions available to the market with 3D printing, and that includes: the delivery of entry-level, scalable, easy-to-operate, additive manufacturing systems, that are used for low-volume or agile production. For competitive reasons, we don’t include patent expiration as a factor on our innovation roadmap.”

    Mateusz Sidorowicz, Marketing Director of 3DGence

    Q: What are your thoughts about the expiry of the Stratasys patent?

    Mateusz Sidorowicz, Marketing Director of 3DGence: “It is an important step for companies like ours that are bringing robust industrial grade, high-quality, and cost-effective technology to market. There is a lot of validation that simply takes time like endurance testing to bring all of the technical requirements together to produce a viable solution, and the enclosed heated chamber is a key part of this technology. I hope that this will only speed up the progress and it won’t have a negative impact on the market through low quality solutions that may appear.”

    Q: Do you plan to bring new systems to the market that take advantage of the expired IP, either via new hardware, or unlocking software to allow increased temperatures in the build chamber?

    Sidorowicz: “Due to the patents, our focus since 2016 has been on all the variables required to print the highest performance materials successfully. There is much more to the technology in addition to the heated chamber. Now also being able to compete with our next generation of rigorously tested industrial grade hardware and software – across the portfolio of FFF high-temperature printers – makes our total solution even stronger. We will be expanding our portfolio, starting with the INDUSTRY F350, over the next 12 months.”

  •  

    Raise3D is proud to launch our new 3D printers, the E2CF, and the Pro3 Series at Rapid+TCT from September 13-15, 2021. We will be exhibiting these new printers at the Raise3D booth, #E8819. With new features and capabilities, the E2CF and the Pro3 Series improve the 3D printing experience and make it easier for businesses to incorporate 3D printing into their operations.

    The E2CF is a desktop-level 3D printer engineered for fiber-reinforced materials and optimized for carbon fiber. The E2CF includes some of the E2's most acclaimed features such as IDEX technology, a flexible build plate, and easily accessed nozzles. With new features such as a high durability nozzle and feeding system, a double-gear extrusion system, and standalone dry boxes, the E2CF makes carbon fiber 3D printing simple. Additional features on the E2CF include a new assisted auto-bed leveling process for fiber-reinforced filaments.

        

    With the launch of the E2CF, Raise3D is releasing a carbon fiber-enforced nylon filament, PA12 CF. Carbon fiber-enforced nylon filaments are well-suited for prototyping, manufacturing, and jigs&fixtures due to the material's mechanical strength. Raise3D's PA12 CF produces lightweight, accurate parts with long-lasting high performance and requires little to no post-processing. In addition, Raise3D is releasing a support material that works with PA12 CF and a handful of other carbon fiber-enforced nylon filaments.

    The Pro3 Series is the latest iteration of the Pro Series which includes two large format 3D printers, the Pro3 and Pro3 Plus. The Pro3 Series is an enhanced version of Raise3D's flagship Pro2 Series, with an overall improved system for higher reliability and easy use. New capabilities and features on the Pro3 Series include a large build volume, enhanced 3D printer structure, flexible build plate, and smart assistant for a smart and easy 3D printing experience leaving you with more time for designing and printing.

    Come to the Raise3D booth, #E8819, to learn more about the E2CF and the Pro3 Series. Our team will be available at Rapid+TCT to answer any questions about these 3D printers and how they can help your business.

    We look forward to seeing you there,

    Raise3D Technologies

    43 Tesla, Irvine, CA 92618
    Tel: +1 888-963-9028
    sales@raise3d.com

    www.raise3d.com

    About Raise3D:

    Raise3D designs and manufactures top-performing FDM 3D printers, filaments, and software for every application and business. We are headquartered in Irvine, California with locations in Shanghai, China, and Rotterdam, Netherlands. Discover the right 3D printing solution for you today.

  • August 5th, 2021. Rotterdam – Raise3D, the global provider of additive manufacturing solutions for SMEs and LSEs, now reveals all the details of the E2CF, its new 3D printer that had its first appearance in TCT Asia.

    Based on the award-winning E2 3D printer, the E2CF is engineered to print with fiber-reinforced materials and is optimized for carbon fiber. The E2CF meets the needs of numerous industries, including automotive, aerospace, and healthcare, who need to produce parts with a high strength-to-weight ratio and have consistent high performance during long-term operations.

    Raise3D E2CF 3D printer (with dry boxes)

    In addition to having the most comprehensive ecosystem in the industry, including ideaMaker slicing software and the RaiseCloud print management platform, as well as the most acclaimed features of the E2, such as IDEX technology, the flexible build plate, the resume print function, the door sensors and the power save mode, the E2CF comes with:

    • Double-gear extrusion system: with twice the feeding grip force when compared to the E2, and built with hardened components that are specifically optimized for the increased wear that occurs when printing with fiber-reinforced filaments.
    • High durability nozzle and feeding system: the extruders and nozzles are functionally and mechanically enhanced for long term usage, allowing for over 1000 hours of printing with Raise3D Industrial PA12 CF filament.

    High durability nozzle and feeding system

    • Standalone dry boxes: to ensure a stable printing process, the E2CF is equipped with two standalone sealed dry boxes developed by Raise3D to deal with the high water-absorption of nylon and fiber-reinforced filaments. These dry boxes are attached to the printer, allowing the materials to be kept in conditions of minimum humidity while printing.

    Dry box

    • New assisted auto-bed levelling process for fiber-reinforced filaments: equipped with a high-precision optical sensor with improved accuracy in the nozzle height calibration, for better first layer adhesion and printing performance.

    New assisted auto-bed levelling process developed for fiber-reinforced material

    Along with the E2CF will come the launch of the new filament Raise3D Industrial PA12 CF and its breakaway support material. The PA12 CF (Density = 1.04 g/cm3, Young’s modulus = 3.3 GPa, Tensile strength = 72 MPa, Impact strength= 12.5 kJ/m2) will allow users to produce parts that meet requirements for light weight, accurate and long-lasting high performance, with an outstanding finish that requires little or no post-processing. All these features make PA12 CF ideal for jigs and fixtures, engineering tooling and various industrial end-use parts. In addition to these materials, other high-performance filaments are in the pipeline for approval to be used with the E2CF.

    Carbon-fiber part printed with breakaway support

    According to Timmy Schramm, CEO of OKM3D, the distributor of 3D Printing Solutions to whom was given access to an early unit, “the E2CF makes the easy production of strong and light parts a reality, which will certainly contribute to the ongoing transformation in many industries and applications.”

    Carbon-fiber parts printed on the E2CF, with an outstanding finish that requires little or no post-production

    Edward Feng, Raise3D’s Global CEO said that “the global effort to manufacture more energy-efficient equipment has fuelled a high demand for high strength-to-weight ratio parts. Carbon-fiber is a great material choice for such parts, but its use in 3D printing was, until now, considered expensive. With the release of the E2CF, Raise3D fills the market gap for a desktop-level 3D printer optimized for fiber-reinforced filaments and will make carbon-fiber 3D printing affordable and simple at last. We are confident this is a relevant step in our mission to lead the promotion and implementation of Flexible Manufacturing Solutions used for low-volume or agile production, by removing another obstacle to the adoption of additive manufacturing as an alternative to traditional production.”

    Pricing and availability

    The E2CF launch is planned for late Q4, with the final date still to be set. Raise3D will be hosting an online public event later this year to present the new printer, while pre-sales will be opened a few weeks before the start of sales. The E2CF 3D printer will also be showcased at Rapid+TCT in Chicago (Sep 13-15), TCT Birmingham (Sep 28-30), and Formnext in Frankfurt (Nov 16-19).

    Prices are still subject to change but are planned at 3,999 EUR in Europe and 4,499 USD in the rest of the world.

  • September 1st, 2021. Rotterdam – Raise3D, the global provider of additive manufacturing solutions for SMEs and LSEs, announces the launch in late 2021 of the Pro3 Series, the most highly developed 3D printer of its segment, with improvements that address the needs of agile or small-batch production of end parts, tools, spare parts or other similar products.

    The Pro3 Series includes two dual-extruder 3D printers: the Pro3, with a build volume of 300x300x300mm, and the Pro3 Plus, with a build volume of 300x300x605mm. Forged from the award-winner Pro2 Series, the Pro3 Series comes with improved usability, higher overall equipment effectiveness, and industrial-grade repeatability, making it the best choice in the segment for any customer using 3D printing in agile or small-batch production.

    Raise3D Pro3 Series

    In relation to material compatibility, the Pro3 Series is the printer with the broadest potential of its segment, capable of printing any filament that extrudes up to 300℃, including PLA, ABS, HIPS, PC, TPU, TPE, NYLON, PETG, ASA, PP, PVA, Glass Fiber Infused, Carbon Fiber Infused, Metal Fill and Wood Fill, among others. Customers can expect top-quality results when using Raise3D filaments as well as 3rd party filaments that have been approved under the Open Filament Program.

    The Pro3 Series printers are easily integrated into a production environment, since they connect with Raise3D’s 3D printing software ecosystem that includes the slicing software ideaMaker, the open-software template ideaMaker Library, and the print management software RaiseCloud.

    Among the several new features, we highlight the following improvements:

    Interchangeable Hotends

    The Pro3 Series is equipped with an independent modular extruder with a dual-extrusion structure. This allows the Pro3 Series to print using a variety of filaments while reducing clogging, and enabling convenient disassembly and replacement of components, reducing machine downtime. The new interchangeable hotend system is ideal for users who may need to often switch from non-abrasive to abrasive materials that require different nozzle types, or users who want to print at higher speeds and require different nozzle sizes. They are designed with a click and lock mechanism that requires no tools, and each is uniquely identified in order track and record the nozzle usage time.

    Interchangeable Hotends

    Auto Bed Leveling

    While Pro2 Series comes with a factory calibration that requires minimal or no calibration effort, Pro3 Series takes a step further in usability and comes with Auto Bed Leveling. The new Auto Bed Leveling feature is a relevant tool for those using printers for production purposes and who wish to implement a preventive maintenance program to ensure consistent quality of the final printed parts. Auto Bed Leveling minimizes the time allocated to calibration and increases productivity.

    Auto Bed Leveling

    Air Flow Manager

    The Air Flow Manager of the Pro3 Series is located on the back of the printer, improving heat dissipation and air circulation, creating a stable environment inside the print chamber. Equipped with a HEPA air filter, Air Flow Manager can also filter and clean the air inside the chamber. As long as it operates within the recommended temperature range, the Air Flow Manager will ensure the stability of the temperature inside the chamber, which translates into better repeatability of top-quality results independently from the external conditions.

    Air Flow Manager

    EVE Smart Assistant

    The Pro3 Series has a built-in smart assistant system known as EVE. Similar to what is common practice in 2D printing, the EVE assistant can guide users to accurately locate and resolve issues that might affect the final print job. It also has a function that analyses printer usage and sends users reminders of scheduled interventions to ensure that printer maintenance is performed on time.

    Raise3D is the first company in its segment to introduce such a feature, bringing the usability of professional 3D printers to the next level.

    EVE Smart Assistant

    Other improvements 

    Among the other improvements, we highlight the following:

    • Flexible build plate which allows an effortless removal of 3D printed parts.
    • Z-axis rod stiffness increased by 75% to deliver more stable performance.
    • Automatic Detection so that when a door is opened, that will immediately pause the print and resume it after the door is closed.
    • Second-generation power-loss recovery, to save the printing status in the case of a power outage and continue printing from the same point after power is restored.
    • Lightweight Cable with Digital Temperature Measurement.
    • HD camera with enhanced image quality and exposure sensitivity.

    Edward Feng, Raise3D global CEO, said “In 2018, when the Pro2 Series was first launched, we were committed to “Raise the Standards”, something that was acknowledged by the market with the attribution of relevant awards to our printers. As a result of the recognition of Pro2 Series, we started working on our mission: “To lead the promotion and implementation of Flexible Manufacturing Solutions with 3D Printing”. With the launch of the Pro3 Series, and the launch of the E2CF this year, we will confidently be “Implementing Flexible Manufacturing.

    Pricing and availability

    The Pro3 Series launch is planned for late Q4, with the final date still to be set. Raise3D will be hosting an online public event later this year to present the new printer, while pre-sales will be opened a few weeks before the start of sales. The Pro3 Series 3D printer will also be showcased at Rapid+TCT in Chicago (Sep 13-15) and Formnext in Frankfurt (Nov 16-19).

    Prices are still subject to change but are planned to be as follows:

    USA and 

    Rest of the World

    Europe

    Pro3

    5,249$

    4,749€

    Pro3 Plus 7,249$

    6,249€

    The Pro2 Series printers will be kept in the portfolio and recommended to all users who tend to print less often and may not fully value Pro3 Series’ new features.


 Products

  • E2 - Desktop 3D Printer with Dual Extruders
    Precise, Reliable, Affordable

    Advanced 3D printing capabilities for desktop engineering, schools, and small batch manufacturing.

    Starting at $3,499.00...

  • IDEX (Independent Dual Extruders)
    Mirror Mode / Duplication Mode
    Auto Bed Leveling
    Industry First Video-Assisted Offset Calibration System
    Safety Features
    Power Saving Button
    Flexible Build Plate
    Variety of Material Compatibility

    Raise3D E2 is recognized as a benchmark and gold standard for industrial 3D printing applications and 24/7 reliability, and has been named among the best 3D printers for 2021 by Jiga.

    Education discount is available. Please contact Raise3D direct sales at sales@raise3d.com or call 1-888-963-9028 for more details.

    Free Ground Freight Shipping within Continental United States.

    For delivery outside of the Continental United States, expedited delivery availability (additional cost may apply), or additional questions, please contact sales@raise3d.com or 1-888-963-9028.

    The shown price excludes tax, which will be calculated during check out.

    Raise3D Limited Warranty

    Click here to find various certificates of E2.

  • E2CF - Professional Desktop 3D Printer
    Raise3D Introduces New E2CF Professional Desktop 3D Printer to Enable Production of Carbon Fiber Parts...

  • Raise3D Introduces New E2CF Professional Desktop 3D Printer to Enable Production of Carbon Fiber Parts

    Aug 5, 2021

    August 5th, 2021. Rotterdam – Raise3D, the global provider of additive manufacturing solutions for SMEs and LSEs, now reveals all the details of the E2CF, its new 3D printer that had its first appearance in TCT Asia.

    Based on the award-winning E2 3D printer, the E2CF is engineered to print with fiber-reinforced materials and is optimized for carbon fiber. The E2CF meets the needs of numerous industries, including automotive, aerospace, and healthcare, who need to produce parts with a high strength-to-weight ratio and have consistent high performance during long-term operations.

    Raise3D E2CF 3D printer (with dry boxes)

    In addition to having the most comprehensive ecosystem in the industry, including ideaMaker slicing software and the RaiseCloud print management platform, as well as the most acclaimed features of the E2, such as IDEX technology, the flexible build plate, the resume print function, the door sensors and the power save mode, the E2CF comes with:

    • Double-gear extrusion system: with twice the feeding grip force when compared to the E2, and built with hardened components that are specifically optimized for the increased wear that occurs when printing with fiber-reinforced filaments.
    • High durability nozzle and feeding system: the extruders and nozzles are functionally and mechanically enhanced for long term usage, allowing for over 1000 hours of printing with Raise3D Industrial PA12 CF filament.

    High durability nozzle and feeding system

    • Standalone dry boxes: to ensure a stable printing process, the E2CF is equipped with two standalone sealed dry boxes developed by Raise3D to deal with the high water-absorption of nylon and fiber-reinforced filaments. These dry boxes are attached to the printer, allowing the materials to be kept in conditions of minimum humidity while printing.

    Dry box

    • New assisted auto-bed levelling process for fiber-reinforced filaments: equipped with a high-precision optical sensor with improved accuracy in the nozzle height calibration, for better first layer adhesion and printing performance.

    New assisted auto-bed levelling process developed for fiber-reinforced material

    Along with the E2CF will come the launch of the new filament Raise3D Industrial PA12 CF and its breakaway support material. The PA12 CF (Density = 1.04 g/cm3, Young’s modulus = 3.3 GPa, Tensile strength = 72 MPa, Impact strength= 12.5 kJ/m2) will allow users to produce parts that meet requirements for light weight, accurate and long-lasting high performance, with an outstanding finish that requires little or no post-processing. All these features make PA12 CF ideal for jigs and fixtures, engineering tooling and various industrial end-use parts. In addition to these materials, other high-performance filaments are in the pipeline for approval to be used with the E2CF.

    Carbon-fiber part printed with breakaway support

    According to Timmy Schramm, CEO of OKM3D, the distributor of 3D Printing Solutions to whom was given access to an early unit, “the E2CF makes the easy production of strong and light parts a reality, which will certainly contribute to the ongoing transformation in many industries and applications.”

    Carbon-fiber parts printed on the E2CF, with an outstanding finish that requires little or no post-production

  • Pro2 Plus - Large Format 3D Printer
    Fully Enclosed, Dual Extrusion, and More

    When big jobs call for big parts, professionals choose the award-winning Pro2 Plus. With high-resolution printing capabilities, the Pro2 Plus was manufactured to produce final-product printing quality....

  • Electronic Driven, Dual Extrusion with Retracting Hot Ends; 4× Increased torque performance
    Massive Build Volume (12×12×23.8 inch / 305×305×605 mm)
    0.01 mm Layer Height
    Camera / HEPA Air Filtration

    Diverse Filament Compatibility (Up to 300℃)
    32 Bit Motion Control Board
    7-inch Touch Screen
    Resume Print after Power Loss or Filament Outage
    Wireless Compatibility

    Free ground freight shipping within continental United States.
    For delivery outside of the Continental United States, expedited delivery availability (additional cost may apply), or additional questions, please contact sales@raise3d.com or 1-888-963-9028.
    The shown price excludes tax, which will be calculated during check out.

    Raise3D Limited Warranty

    Click here to find various certificates of Pro2 Series.

  • Pro2 - Dual Extruder 3D Printer
    Fully Enclosed, Industrial Grade Workhorse

    Print complex parts, support a variety of filaments and improve print speed. Recognized as the benchmark and gold standard for serious 3D printing applications and 24/7 reliability.

    Starting at $3,999.00...

  • Electronic Driven, Dual Extrusion with Retracting Hot Ends; 4× Increased torque performance
    Massive Build Volume (12×12×11.8 inch / 305×305×300 mm)
    0.01 mm Layer Height
    Camera / HEPA Air Filtration

    Diverse Filament Compatibility (Up to 300℃)
    32 Bit Motion Control Board
    7-inch Touch Screen
    Resume Print after Power Loss or Filament Outage
    Wireless Compatibility

    Free ground freight shipping within continental United States.
    For delivery outside of the Continental United States, expedited delivery availability (additional cost may apply), or additional questions, please contact sales@raise3d.com or 1-888-963-9028.
    The shown price excludes tax, which will be calculated during check out.

    Raise3D Limited Warranty

    Click here to find various certificates of Pro2 Series.

  • Pro3 Series - the most highly developed 3D printer
    Raise3D announces the launch in late 2021 of the Pro3 Series, the most highly developed 3D printer of its segment, with improvements that address the needs of agile or small-batch production of end parts, tools, spare parts or other similar products....

  • The Pro3 Series includes two dual-extruder 3D printers: the Pro3, with a build volume of 300x300x300mm, and the Pro3 Plus, with a build volume of 300x300x605mm. Forged from the award-winner Pro2 Series, the Pro3 Series comes with improved usability, higher overall equipment effectiveness, and industrial-grade repeatability, making it the best choice in the segment for any customer using 3D printing in agile or small-batch production.

    Raise3D Pro3 Series

    In relation to material compatibility, the Pro3 Series is the printer with the broadest potential of its segment, capable of printing any filament that extrudes up to 300℃, including PLA, ABS, HIPS, PC, TPU, TPE, NYLON, PETG, ASA, PP, PVA, Glass Fiber Infused, Carbon Fiber Infused, Metal Fill and Wood Fill, among others. Customers can expect top-quality results when using Raise3D filaments as well as 3rd party filaments that have been approved under the Open Filament Program.

    The Pro3 Series printers are easily integrated into a production environment, since they connect with Raise3D’s 3D printing software ecosystem that includes the slicing software ideaMaker, the open-software template ideaMaker Library, and the print management software RaiseCloud.

    Among the several new features, we highlight the following improvements:

    Interchangeable Hotends

    The Pro3 Series is equipped with an independent modular extruder with a dual-extrusion structure. This allows the Pro3 Series to print using a variety of filaments while reducing clogging, and enabling convenient disassembly and replacement of components, reducing machine downtime. The new interchangeable hotend system is ideal for users who may need to often switch from non-abrasive to abrasive materials that require different nozzle types, or users who want to print at higher speeds and require different nozzle sizes. They are designed with a click and lock mechanism that requires no tools, and each is uniquely identified in order track and record the nozzle usage time.

    Interchangeable Hotends

    Auto Bed Leveling

    While Pro2 Series comes with a factory calibration that requires minimal or no calibration effort, Pro3 Series takes a step further in usability and comes with Auto Bed Leveling. The new Auto Bed Leveling feature is a relevant tool for those using printers for production purposes and who wish to implement a preventive maintenance program to ensure consistent quality of the final printed parts. Auto Bed Leveling minimizes the time allocated to calibration and increases productivity.

    Auto Bed Leveling

    Air Flow Manager

    The Air Flow Manager of the Pro3 Series is located on the back of the printer, improving heat dissipation and air circulation, creating a stable environment inside the print chamber. Equipped with a HEPA air filter, Air Flow Manager can also filter and clean the air inside the chamber. As long as it operates within the recommended temperature range, the Air Flow Manager will ensure the stability of the temperature inside the chamber, which translates into better repeatability of top-quality results independently from the external conditions.

    Air Flow Manager

    EVE Smart Assistant

    The Pro3 Series has a built-in smart assistant system known as EVE. Similar to what is common practice in 2D printing, the EVE assistant can guide users to accurately locate and resolve issues that might affect the final print job. It also has a function that analyses printer usage and sends users reminders of scheduled interventions to ensure that printer maintenance is performed on time.

    Raise3D is the first company in its segment to introduce such a feature, bringing the usability of professional 3D printers to the next level.

    EVE Smart Assistant

    Other improvements 

    Among the other improvements, we highlight the following:

    • Flexible build plate which allows an effortless removal of 3D printed parts.
    • Z-axis rod stiffness increased by 75% to deliver more stable performance.
    • Automatic Detection so that when a door is opened, that will immediately pause the print and resume it after the door is closed.
    • Second-generation power-loss recovery, to save the printing status in the case of a power outage and continue printing from the same point after power is restored.
    • Lightweight Cable with Digital Temperature Measurement.
    • HD camera with enhanced image quality and exposure sensitivity.
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