The Raise3D E2CF is a professional 3D printer with IDEX dual extruder designed to reliably process fiber reinforced filaments. 3D print industrial filaments on the E2CF, such as PA12 CF, PPA CF, PET CF, PPS CF and other Raise3D filaments. This 3D printer is excellent for prototyping, rapid tooling and additive manufacturing. In the future, third-party filaments will also be able to be processed on the Raise3D E2CF. To ensure process reliability, the E2CF works best with Raise3D certified filaments.
Highlights:
Professional 3D printer with IDEX dual extruder – Optimized for processing carbon fiber reinforced filament
Carbon fibre reinforced filament has low density, high strength and is resistant to corrosion, static electricity and high temperatures
Use Carbon fibre reinforced filament in wide range of potential applications, such as mechanical engineering or the automotive, aerospace & defence industries
Like every Raise3D printer, the E2CF is perfectly crafted, user-friendly and reliable to use, ensuring optimal precision 3D printing
The E2CF is an IDEX 3D printer optimized for 3D printing carbon fiber reinforced filaments. This desktop 3D printer is excellent for manufacturing, prototyping, and more.
Carbon fiber reinforced filament has low density, high strength, and it is resistant to corrosion, static electricity, and high temperature. It has potential for a wide range of applications within industries that need considerable strength-to-weight ratio in their solutions, such as the aviation industry and the automotive world. The E2CF is durable, user-friendly, and stable while in operation, delivering accurate prints.
Features
Nozzles with High Durability
The new silicon carbide nozzles have excellent wear resistance and thermal conductivity, which will effectively lessen the abrasion the carbon fiber composite filament subjects the nozzle to when printing, making the nozzle more durable.
*Nozzles made of other materials suitable for printing carbon fiber filaments will be launched in the future.
Dual Direct Drive Extrusion System
The gears are made of high-hardness steel and have been heat-treated for better wear resistance.
With a custom gear tooth profile, filament is firmly held in place to ensure that it does not slip when extruding. The force of the system is enhanced to ensure the stability of printing.
Engineered for Printing Carbon Fiber Reinforced Filament
The E2CF pairs perfectly with Raise3D’s Industrial PA12 CF Filament and its support material. In the future, more carbon fiber reinforced filaments will be available for the E2CF, such as Raise3D’s PPA CF, PET CF, PPS CF (with a printing temperature of between 280-300ºC). Also, third-party filaments certified by the Raise3D Open Filament Program, such as BASF and LEHVOSS, will be available to the E2CF later.
*E2CF only supports authorized filaments and printing profiles. For the full list, please check the tech data sheet or contact Raise3D.
The Raise3D Industrial PA12 CF Filament is reinforced with short carbon fibers, and exhibits excellent rigidity and strength, heat resistance, low warpage, and low water absorption. Meanwhile, this material has an outstanding strength-to-weight ratio, and will obtain enhanced mechanical property and dimensional stability after annealing, which makes it suitable to replace metal in the manufacturing of certain lightweight components.
Raise3D Industrial PA12 CF SupportFilament
Raise3D Industrial PA12 CF Support Filament is a break-away support material specially developed for carbon fiber-reinforced composite filaments. During the 3D printing process, it creates a stable support structure, providing proper adhesion to printed surfaces and counteracting any tendency to warp. As such, it significantly improves the surface quality of the overhangs and hollows of the printed items. After a print is finished, the support structure can be easily removed or broken away from the printed parts. This support material exhibits a broad compatibility with many high-performance carbon fiber-reinforced composite filaments, and is more cost-effective when compared with water-soluble support material.
Raise3D Filament Dry Box
The built-in suspension trays are used to place the filament and allow material to be pulled more smoothly. When closed, they can effectively prevent dust and moisture from affecting the material, for a period of up to 30 days*.
*From Raise3D test data.
ideaMaker Slicing Profiles
The E2CF has slicing profiles that have been repeatedly tested and verified by our engineers in ideaMaker. There is no need to adjust the parameters before printing. Enjoy easy and high-quality printing.
Like other Raise3D products, the E2CF can carry out mass production and intelligent management using ideaMaker as the core software solution.
Applications
Carbon fiber composite materials have many applications, including functional prototypes, aerospace, automotive, medical, sports equipment, civil engineering, electronics, and other fields.It also has the furtherpotential for a variety of uses, such as fixtures in a mechanical workshop, prosthetics, and customized bicycle frames.
What features make the E2CF a good desktop 3D printer?
What is IDEX? Why is IDEX important?
The E2CF is an IDEX 3D printer. IDEX stands for independent dual extruders meaning the extruders can operate independently of one another along the same axis during printing to perform more advanced functions.
With IDEX, one extruder can remain motionless and off to the side while the second extruder prints the model, minimizing the risk of the nozzle on the motionless extruder interfering with the print job during dual or single extrusion printing.
What are Mirror Mode and Duplication Mode? Why are these functions important?
IDEX can perform two specialized functions, Mirror Mode and Duplication Mode.
Mirror Mode prints a model and an inverse of that same model at the same time. It is convenient because it saves the effort of creating an additional design file for the inverse model, and it saves the extra time usually spent printing the inverse model separately.
Duplication Mode is synchronized printing, meaning it uses both extruders to print a model and an exact copy of that model at the same time. It can double production capability within the same timeframe.
What are other convenient features of the E2CF? And why are they important?
Easy Swap Print Heads are a convenient feature of the E2CF. These print heads are easy to remove, making it easy to swap out a print head for another print head. There are a variety of reasons why swapping print heads is necessary, such as using a different print head with a different nozzle.
Any spare Easy Swap Print Heads can easily be prepared with hardened nozzles, and nozzles at different sizes, such as 0.4, 0.6, and 0.8 nozzles to swap in a few steps and get back to printing.
Professional 3D Printer – E2CF
Professional 3D printers, like the E2CF, are quality, user-friendly printers, designed with features to ensure the best possible printing results. For example, the E2CF has a flexible build plate, which allows 3D printed parts to be easily removed, while minimizing potential damage to the part during removal. It is features like the flexible build plate that help make the E2CF a user-friendly and industrial beginner 3D printer for those who wish to gain experience in the area of professional 3D printing.
Safety Features
Power Loss Recovery
Either a power outage or a filament outage (when the filament runs out) can cause a print job to be lost if they occur in the middle of the 3D printing process. However, the E2CF has a filament run-out sensor on its extruders to alert when the filament is about to run out and saves the print job. It also has a power loss function to save the printing status in the event of a power outage and can continue printing from the same point when power is restored.
Automatic Detection
Another safety feature of the E2CF is that it can automatically detect when a door is opened and will immediately pause the print.
A new auxiliary process was developed specifically for fiber-reinforced materials, to improve nozzle height calibration accuracy, support adhesion, and first layer print performance.