BigRep Industrial 3D Printers

3D Printed Dragon Brings in the Chinese New Year

October 16, 2024

3d printed dragon produced by the BigRep ONE

In the heart of the art district in Tampa, Florida, Artistic Spaces is a design studio known for its avant-garde sculptures and large-scale installations. While the studio specializes in creative custom fabrications, some of its major projects faced significant challenges with scalability, materials and labor costs, complex geometries, and time constraints.

The owner of the studio, James Murray, recognized that to maintain their competitive edge and meet growing demands, he needed to upgrade their fabrication to more technologically advanced methods. His journey towards overcoming these obstacles began in December 2023 when he purchased the BigRep ONE 3D printer from a local reseller, ELK3D, a veteran-run partner specializing in advanced 3D printing solutions.

The Challenges Artistic Spaces Faced

James and his team had challenges with:

Scalability: Traditional methods couldn't easily scale to larger projects.
Cost: The expenses involved in traditional sculpting materials and labor were skyrocketing.
Time: The time required to produce large art pieces hindered their ability to take on more projects and meet client deadlines.
Geometric Complexity: Traditional manufacturing methods were too labor-intensive and produced lower-quality results for intricate geometries.

BigRep's Solution

Artistic Spaces was introduced to BigRep’s catalog of large-scale industrial 3D printers, specifically the BigRep ONE, by ELK3D. James Murray from Artistic Spaces said,

“This was our first experience working with a large-scale 3D printer, and the entire process exceeded our expectations. Once we had the model in the slicer, it was easy to write the code and watch it print.”

Artistic Spaces ordered the BigRep ONE with ELK3D in mid-December, and it was delivered on the 28th, a couple of weeks later. BigRep printers are manufactured in Germany and have a facility in Boston, Massachusetts. Thanks to meticulous planning, efficient logistics, and the ability to maintain stocked inventory in the USA, ensuring (JIT) just-in-time delivery, ELK3D, and BigRep delivered the machine to Artistic Spaces in Tampa within a few weeks.

The BigRep ONE offered:

Massive Build Volume: Can produce pieces up to one cubic meter or 31 cubic feet, perfect for large installations.
Cost Efficiency: The open material system, flexible scale and design capabilities, and automated production reduced costs significantly.
Speed: Drastically cut down delivery time through automated production and fewer failed prints allowing Artistic Spaces to take on more projects and deliver them quicker.
Geometric Precision: Enabled the creation of complex geometries with high precision and quality.
Reliability: Ensured consistent performance and high-quality output, minimizing downtime and enhancing productivity

ELK3D's technical leader, Taylor Hardy, was on-site to oversee the delivery and installation of the printer. The team efficiently unboxed, assembled, and calibrated the BigRep ONE in less than two days. As part of the ELK3D’s Assurance program, Taylor ensured the Artistic Spaces team received thorough training, and was well equipped to operate the printer confidently.

James Murray from Artistic Spaces said,

“The BigRep ONE ran nonstop for three days without any issues. Thanks to ELK3D's onsite training, our team confidently use the machine, we simply hit the start button and get on with our tasks while the machine takes care of the part.”

This Assurance Program and rapid setup included:

Detailed Guidance: Taylor provided step-by-step instructions for every function of the BigRep ONE, covering everything from basic operations to advanced settings. This included practical demos of how to use the machine efficiently, along with best practices to ensure longevity and consistent performance.
Test Prints: Taylor facilitated initial test prints to verify the machine's calibration and optimize printing These test prints were essential in fine-tuning the printer's settings, ensuring that the output was of the highest quality and that the machine was running at peak efficiency.
Comprehensive Training: Taylor and the ELK3D technical team conducted in-depth training sessions with James, the lead artist at Artistic Spaces which included flow rate calibrations tailored to different materials, enabling him to adjust the printer settings for different filaments. Taylor also covered troubleshooting techniques and routine maintenance procedures to ensure long-term performance and minimize downtime.

Over the next few days, the team printed several sample pieces to understand the machine's capabilities. One of the first large-scale projects was a dragon sculpture for the Chinese New Year celebration at the Hard Rock Hotel in Tampa.

Chinese New Year and the Dragon Project

Chinese New Year, or the Spring Festival, is China’s most important traditional celebration, marking the start of the lunar new year. For the occasion, Artistic Spaces was commissioned to create a dragon sculpture for the Hard Rock Hotel in Tampa. Despite initial challenges with print settings, the team, with support from BigRep's engineers, successfully printed the dragon's head in 3 ½ days.

The large-scale 3D printed dragon head was executed with the BigRep ONE.

The large-scale 3D printed dragon head was executed by the BigRep ONE.

The combination of 3D printed precision and hand-carved craftsmanship resulted in stunning dragon sculptures in a large and smaller scale that seamlessly blended tradition with technology.

The smaller scale dragon 3D printed by the BigRep ONE.

Technical Training for the Dragon Sculpture’s Execution

ELK3D Assurance Program included:

Project Consultation: In-depth discussions on project requirements and strategic advice on dividing the dragon project into manageable parts.
Technique Exploration: Methods for merging printed parts seamlessly post-production and applying specialized coatings to enhance durability and aesthetics.
Printing Setup and Support: Collaboration on slicing the dragon model file, ensuring precise settings for dual-material printing, and providing real-time assistance through screen-sharing sessions.
Material Selection and Configuration: Recommendations for PLX as the model material and PRO HT for breakaway supports, optimizing print quality, ease of post-processing, and structural integrity.

Taylor Hardy from ELK3D said,

“We partnered with BigRep because of their reliability, quality, advanced technology, and the dedicated team behind it. This collaborative environment enabled us to achieve success with Artistic Spaces, James, and his team.”

The Transformation

Within 20 days of installation, Artistic Spaces had monetized their investment by successfully completing the dragon sculpture project. They were now able to:

Expand Creativity: The freedom to experiment with new designs and scales without worrying about the constraints of traditional methods.
Increase Productivity: With reduced production times, they could take on more projects and increase their revenue.
Enhance Quality: The precision of the BigRep ONE ensured that every piece of art printed met the highest standards of quality.

The Results

Revenue Growth: In 2024, Artistic Spaces experienced an increase in revenue within the first year of using the BigRep ONE with customers asking for new concepts. New projects were rolling in, allowing them to capitalize on their new capabilities.
Project Capacity: They are able to take on more projects, thanks to the reduced production time.
Cost Savings: Material and labor costs were cut by 30%, significantly improving their profit margins.

Limitless Creativity

Given the tight timeframes and budgets, the BigRep ONE was able to accommodate large-scale projects quickly and deliver results faster than traditional methods. The digitized fabrication process opened doors to a much wider spectrum of possibilities, unlocking new dimensions of creativity and business success.

Large-Scale Innovation. Limitless Creativity.

The BigRep ONE is an award-winning, large-format 3D printer at an accessible price point. It's the trusted tool of designers, innovators, and manufacturers alike.

Key Features

Open 1000 Liters Build Chamber: Large 1 cubic meter build volume for creating big, complex objects in a single print.
Dual Extrusion (Up to 250°C, 72 g/h): Multi-material printing capability with a dual-extrusion system, supporting a wide range of materials and a print rate of up to 72 grams per hour.
Heated Print Bed (Up to 80 °C): A heated bed with a polyimide surface that enhances print adhesion for a range of materials and minimizes warping.
Fine Detail or Fastest Printing: Layer heights from 0.3 to 1.0 mm let you achieve fine detail on large prints or extra fast prints when surface texture is less important.

Explore the ONE

Large-Scale Innovation. Limitless Creativity.

The BigRep ONE is an award-winning, large-format 3D printer at an accessible price point. It's the trusted tool of designers, innovators, and manufacturers alike.

Open 1000 Liters Build Chamber: Large 1 cubic meter build volume for creating big, complex objects in a single print.
Dual Extrusion (Up to 250°C, 72 g/h): Multi-material printing capability with a dual-extrusion system, supporting a wide range of materials and a print rate of up to 72 grams per hour.
Heated Print Bed (Up to 80 °C): A heated bed with a polyimide surface that enhances print adhesion for a range of materials and minimizes warping.
Fine Detail or Fastest Printing: Layer heights from 0.3 to 1.0 mm let you achieve fine detail on large prints or extra fast prints when surface texture is less important.

Explore the ONE

About the author:

Michelle Green

Guest Author

Michelle Green is an accomplished Director of Business Development with extensive experience driving growth through strategic partnerships, innovative solutions, and collaborative ecosystems in the technology space. With a background in 3D printing and additive manufacturing, she has earned recognition as an industry expert and speaker. Her vision is to build ecosystems where technology, talent, and partnerships thrive. She is passionate about aligning cutting-edge technology with business success and shaping the future of manufacturing through meaningful collaborations.

About the author:

Jason Tzintzun

Marketing Manager

Jason is a seasoned marketing professional with over five years of experience in additive manufacturing. With a degree in English (Creative Writing) from San Francisco State University, he never anticipated his career would lead him to 3D printing, but he has discovered a true passion for educating others on its profound impact. Currently serving as the Head of Marketing for North America at BigRep, Jason brings a deep understanding of 3D printing technology and its role in modern manufacturing. When not crafting marketing campaigns, he enjoys long-distance running along the Southern California coast he calls home, and, of course, 3D printing.

Open Material 3D Printers: Unlimited Applications with Low to High Temperature Plastics

August 29, 2024August 27, 2024

BigRep PRO 3D Printer Open Material System

Open 3D print material systems offer manufacturers freedom to choose any compatible filament that hits the market but closed material systems deliver predictable results. This raises the BIG question: Are open material systems truly open for innovation?

3D printing promises unparalleled freedom of production. Open material systems multiply that freedom tenfold.

The FFF continues to swell with an ever-growing range of 3D print filaments, and manufacturing sectors are wasting no time in discovering new applications with their 3D printers. For example, medical technology and the defense industry are increasingly seeing the use of Conductive Polymers such as PEDOT (Poly(3,4-ethylenedioxythiophene) in applications like organic electronics, sensors, and energy storage devices.

However, not all 3D printers support any compatible materials. There are two types of materials systems: open and closed. 3D printers with closed material systems allow you to print with specified proprietary materials whereas with open material systems, you can use any compatible filament.

If open material systems sound more open to innovation, what keeps industries within the walls of closed 3D material systems?

Open vs Closed 3D Print Material Systems

With an open material system, you can experiment with different materials, create and edit print profiles (the print temperature, print speed, layer height, etc., in the 3D printer’s slicer software) to bring out desired properties and source them from different suppliers, which opens a world of possibilities.

On the other hand, closed material systems keep printing simple and consistent by limiting you to proprietary materials specified by your 3D printer manufacturer and locked print profiles. This can ensure reliability and consistency but might come with a hefty price tag (expensive proprietary materials, cost to unlock new print profiles etc.,) and limit innovation with other materials. While closed systems offer ease of use and predictability, open systems are all about flexibility.

Advantages of an Open Materials System

Flexibility and Freedom

Choice: You have access to a broad range of materials which allows you to select the perfect material based on the functionality and aesthetics you are looking for.

Customization: You can tailor material profiles of any compatible filament ensuring your 3D printer delivers successful prints and brings out desired properties.

Lower Material Costs: You can choose from different suppliers without being locked into expensive proprietary filament.

Budget Flexibility: With affordable access to a wide range of materials, you can go big or small on the budget.

Cost Efficiency

Innovation and Experimentation

Encourages Exploration: The freedom to experiment with new and advanced materials drives innovation in applications.

Facilitates R&D: Open systems support continuous product development with materials that fit specifications.

Diverse Sourcing: You can source materials from different suppliers, which reduces supply chain bottlenecks.

Enhanced Reliability: An open system makes it easier to maintain a steady flow of materials, reducing the risk of production downtime.

Supply Chain Benefits

Enhanced Performance

Optimized Material Profiles: Profiles can be tailored to bring out the best properties of any compatible material, whether it’s strength, flexibility, or heat resistance.

Adaptability: There is no restriction on a single set of materials which allows for the smooth and efficient scaling of your business as it grows and evolves.

Scalability

Choosing the Right 3D Print Material

With the plethora of materials available, which one would be the best fit for your part? The right filament depends on your project requirements. Are you looking for ease of use and biodegradability? PLA might be your best bet. Need something tougher with higher temperature resistance? Consider ABS or Polycarbonate. For extreme performance, PEEK could be the answer.

By understanding the properties and printing requirements of these materials, you can make informed decisions and achieve the best results for your 3D printing projects. Whether you're prototyping, producing functional parts, or exploring new applications, there's a 3D printing plastic that fits your needs.

Exploring Low to High-Temperature 3D Print Plastics

One of the key considerations while choosing a plastic is the temperature range of the material and your 3D printer’s technical capabilities. From low to high-temperature filaments, each type has its own strengths and applications.

Standard & Bio-Based Plastic Filaments

PLA (Polylactic Acid): One of the most user-friendly and commonly used filaments, PLA is biodegradable and perfect for beginners. It prints at relatively low temperatures (around 190-230°C) and is great for prototypes, educational models, art installations, and interior decor.

PETG (Polyethylene Terephthalate Glycol): A step up from PLA, PETG offers better durability while still being easy to print with. It typically prints at around 220-250°C and is well-suited for functional parts that need impact resistance to a certain degree.

Engineering-Grade Plastic Filaments

ABS (Acrylonitrile Butadiene Styrene): Known for its excellent strength, ABS is a popular choice for more demanding applications. It requires a heated print bed and prints at around 220-250°C. It is ideal for parts that need to withstand higher temperatures and mechanical stress.

ASA (Acrylonitrile Styrene Acrylate): ASA is the weatherproof version of ABS. It prints at similar temperatures to ABS (230-270°C) but offers better UV resistance, making it perfect for automotive and parts exposed to outdoor elements.

High-Performance Plastic Filaments

CNHTC 3D printed parts with the BigRep PRO

Polyamide (PA): Highly durable and wear-resistant, Polyamide, also known as Nylon, is a bit trickier to print because of its tendency to absorb moisture. It prints between 240-300°C and is excellent for gears, bearings, and other high-stress components.

Polycarbonate (PC): Tough and transparent, Polycarbonate is one of the strongest 3D printing materials available. It prints at around 260-310°C and is great for applications that need high-impact resistance and clarity.

PEEK (Polyether Ether Ketone): At the top end of the temperature spectrum, PEEK is a high-performance plastic used in aerospace, medical, and industrial applications. It requires very high printing temperatures (around 350-450°C) and offers exceptional mechanical and chemical resistance.

Fiber-Reinforced Plastic Filaments

PA12 CF (Polyamide 12 Carbon Fiber): Durable and with great surface quality, PA12 CF is suitable for many industrial parts with daily usage under long-term stress. Its high strength-to-weight ratio makes PA12 CF a perfect solution for lightweight end-use parts.

PC CF (Polycarbonate Carbon Fiber): Its impact and heat resistance make PC CF an ideal choice for industries such as electronics, automotive, and aerospace. The addition of carbon fibers provides additional strength and toughness.

Validated BigRep Filaments Compatible with All BigRep Machines

The heart of all BigRep machines is the material system that’s open for innovation. You can print with any compatible filament of your choice – BigRep’s or a 3^rd party’s – and unlock new applications with our low to high-temperature machines.

We also have a portfolio of industrial-grade 3D printer filaments ranging from affordable, general-use materials to technical materials for demanding industrial applications. Each filament is rigorously tested to ensure reliable and even extrusion so have successful prints every time.

Our filaments are specifically designed for large-format 3D printing, helping you bring your big ideas to life.

Our Catalogue of Verified Filaments

PA12 CF: Stiff and strong for industrial parts
HI-TEMP CF: High-temperature carbon fiber
ASA: UV-resistant and high-strength
ABS: Versatile and impact-resistant
PLX: Cost-effective and reliable
BVOH: Water-soluble support for dual extrusion
HI-TEMP: Stiff and eco-friendly
PA6/66: Lightweight and resistant
PRO HT: Easy printing and support removal
PETG: Durable and impact-resistant
PLA: Affordable and versatile
TPU 98A: Flexible and chemically resistant

BigRep BLADE: Custom Material Print Profiles Made Easy

As part of BigRep’s commitment to a lifetime partnership with our customers, we develop material profiles to ensure best printing quality so your prints come out right the first time, no matter your level of 3D printing experience.

Our slicing software, BLADE, offers a variety of pre-configured profiles for all BigRep materials. These profiles optimize the printing process, saving you valuable time and money by achieving faster print times, reducing material usage, creating lighter parts, and improving the aesthetics of your prints.

Have third-party materials you want to print on your BigRep machine? No problem. With BLADE, you can fully customize the printing parameters to perfect your parts. The intuitive interface makes it easy to create custom profiles and fine-tune print settings such as layer thickness, extrusion and build chamber temperature, and print speed to meet your material and application requirements.

The Best of Both Worlds

When you opt for an open material system, you may not get custom printing profiles or materials that are developed for and tested on that specific 3D printer. With BigRep, you can reap the benefits of both worlds. We combine closed systems' reliability and consistency of our propriety materials and profiles with open systems' flexibility, competitive pricing, and broad material choice. This dual approach ensures businesses achieve maximum performance and best price-to-performance ratio, while maintaining the freedom to experiment and innovate.

Want to learn more about open material choice for 3D printing solutions?

Learn why all BigRep 3D printers are open material systems, meaning you are free to use any compatible material, whether its BigRep or otherwise. Gain insights about 3D printing materials across the temperature spectrum, from standard low-temperature polymers to high-temperature and high-performance materials.

FROM LOW TO HIGH TEMP FILAMENTS: HOW TO CHOOSE THE PERFECT MATERIAL FOR ANY APPLICATION

About the author:

Natasha Mathew

Copywriter

Natasha Mathew enjoys trying new things and one of them she’s currently obsessed with is 3D printing. Her passion for explaining complex concepts in simple terms and her knack for storytelling led her to be a writer. In her 7 years of experience, she has covered just about any topic under the sun. When she’s not carefully weighing her words, she’s reading, crafting, spinning, and adventuring. And when asked about herself, she writes in the third person.

BigRep Celebrates Successful Listing on the Frankfurt Stock Exchange

August 19, 2024July 31, 2024

BigRep public listing photo op with the bull and the bear at Frankfurt Stock Exchange

BigRep SE marked its entry into the public stock market with the IPO ceremony at the Frankfurt Stock Exchange.

Frankfurt, 31. Juli 2024 – In the bustling financial district of Frankfurt, we, BigRep SE, opened the trading day with a bell-ringing ceremony at the Frankfurt Stock Exchange. This marks our official entry into the public stock market with shares now trading under the ticker B1GR.

Getting to this point of the journey was paved by our strategic business combination with SMG Technology Acceleration SE, facilitated by our IPO sponsor, SMG Holding. Known for its focus on European SMEs, SMG Holding played a key role in listing BigRep on the public market. SMG Technology Acceleration SE has been renamed BigRep SE, with Dr. Sven Thate and Dr. Reinhard Festag stepping in as CEO and CFO, respectively.

BigRep Deutsche Borse on the Frankfurt Stock Exchange trading floor

The Iconic Bell Ringing Ceremony

BigRep's bell ringing ceremony on the Frankkfurt Stock Exchange trading floor

The bell-ringing ceremony, a time-honored tradition in the financial world, took place in the main trading hall of the Frankfurt Stock Exchange. The event was attended by board members, investors, BigRep team members, and a host of financial analysts and media representatives as we debuted on one of the world’s leading stock exchanges.

The day began with a photo session at the stock exchange square by the legendary Bull and Bear statues followed by Dr.-Ing. Sven Thate’s speech on the stock exchange floor. This was followed by the bell-ringing ceremony that signaled the start of trading with media and journalists in attendance documenting the event.

Dr.‐Ing. Sven Thate, CEO of BigRep said in his speech,

“Going public allows us to think bigger and pursue our buy-and-build strategy. We see great growth and synergy opportunities by expanding inorganically. The current market conditions will only increase consolidation pressure, giving us a chance to use our public listing to benefit our shareholders.”

BigRep at the Bull and the Bear Frankfurt Stock Exchange

BigRep's CEO Sven Thate's speech BigRep's bell ringing ceremony at the Frankfurt Stock Exchange trading floor

As a nod to our accomplishments, NERA, the world’s first 3D-printed E-Motorcycle was on display along with other 3D prints designed to commemorate the occasion. The event also featured our newly launched 3D printer - VIIO 250 - our most automated 3D printer yet.

The BigRep NERA, the world’s first 3D-printed E-Motorcycle.

BigRep VIIO 250 on the Frankfurt Stock Exchange trading floor.

3D printed Bull and Bear by BigRep at the Frankfurt Stock Exchange trading floor

The Significance of the Ceremony

Listing on the Frankfurt Stock Exchange provides us with more visibility and access to a broad base of international shareholders, fueling our ambitious expansion plans of innovating with new technologies and advancing our Additive Manufacturing product offerings.

BigRep's bell ringing ceremony on the Frankfurt Stock Exchange trading floor

BigRep's bell ringing ceremony at the Frankfurt Stock Exchange trading floor.

The Frankfurt Stock Exchange, known for its stringent listing requirements and robust regulatory framework, provides a platform that ensures transparency, investor protection, and efficient trading, aligning us with the highest standards of corporate governance.

From Inception to the BIG Public Listing

Founded in 2014, BigRep is an industry leader in large-format FFF 3D printers which includes the whole spectrum of low to high-temperature machines engineered in Germany and Austria. Our offerings include verified 3D print materials, intuitive software, an e-learning platform, application engineering, superior customer service, and comprehensive training to set our customers up for success with every 3D print.

We launched 3 large-scale machines this year - 2 high-temperature 3D printers from the HAGE3D acquisition – the ALTRA 280 and IPSO 105, and our most automated 3D printer yet, the VIIO 250. Today our clientele spans from industry giants like Ford, Deutsche Bahn, Canyon, and Airbus, to educational institutions, research institutes, and start-ups

A BIGger and Brighter Future Ahead

The BigRep Team on the on Frankfurt Stock Exchange trading floor

The bell-ringing ceremony at the Frankfurt Stock Exchange is the beginning of a new chapter for us at BigRep. As we embrace the new opportunities of being a publicly traded company, we continue to dream BIG, innovate BIGger, and look forward to achieving the BIGgest milestones for our team members, customers, investors, and shareholders.

For more information, visit https://bigrep.com/investor-relations-auth/

About the author:

Natasha Mathew

Copywriter

The BigRep IPSO 105 Futureproofs Outdoor Fiber Cabinets

October 15, 2024July 25, 2024

Sichert use case - telecommunication FCC outdoor Smart bench prototype printed by the high-temperature industrial plastic 3D printer BigRep IPSO 105

Sichert, a 100-year-old Berlin-based company, integrates smart multi-tasking features into their fiber connection cabinets with the high-temp, large-volume 3D printer, the IPSO 105.

FTTH (Fiber To The Home), the future of high-speed internet in every household and company, is basically the connection where the fiber cable goes all the way to the user instead of ending at an anonymous cabinet down the street. 

These outdoor cabinets (FCC), although unassuming, are a critical component in present-day telecommunication. They are designed to take on the rigors of the harshest weather conditions while ensuring seamless IT infrastructure by housing servers, networking equipment, and other essential hardware. They are equal parts of form, fit, and function while blending in with the spaces in which they are installed. 

Sichert, a 100-year-old Berlin-based company, is an industry leader in producing outdoor cabinets, access chambers for fiber optic, and copper cable distribution. With innovation at the core of their offerings, 3D printing has been an integral part of their workflow for decades. While the company relied on desktop 3D printers and outsourced print projects, as their needs got bigger, they sought to invest in an in-house solution to innovate with sizable high-performance parts.

Sichert added a new player to its FFF 3D printing capabilities - the BigRep IPSO 105 - a high-temperature 3D printer, for rapid prototyping and future-proofing their products. With the 3D printer, they design cabinets that visually match their surroundings, upgrade the aesthetics, and integrate thoughtful multi-tasking features that offer smart city solutions. 

What are Fiber Connection Cabinets (FCC)?

Fiber Connection Cabinets (FCC) are specialized industrial cabinets used in telecommunications to manage and distribute fiber optic cables that extend directly to households, providing high-speed internet and data services. Their core function is to also protect cables from environmental and physical damage, facilitate splicing and termination, and ensure easy access for maintenance.

Traditionally made using expensive injection molding, parts of FCCs are now increasingly produced with 3D printing technology, allowing for rapid prototyping, cost efficiency, and greater design flexibility. This supports the growing demand for reliable and scalable fiber optic connections, essential for connecting households and businesses to the gigabit age. 

Sichert use case - FCC outdoor fiber cabinet

Challenges with Traditional Manufacturing

1. High Cost of Prototyping
Injection molding needs expensive molds which results in high-cost prototyping

2. Design Limitations
Metal and mold designs restrict the freedom to experiment with cutting-edge designs and structures.

3. Material Constraints
Limited range of materials that can be used, especially when it comes to high-temperature and environmentally resistant applications.

Thorsten Drochner, Director of R&D said,

“One of the biggest challenges in developing new street cabinets is that prototypes are really expensive because of injection molding. This is where the IPSO 105 brings in the advantages - prototyping, rapid prototyping, or even small iterations. It's very fast, simple and cost-effective.”

Benefits of a Large-Scale High-Temp 3D Printer

Sichert initially used desktop 3D printers to explore the potential of additive manufacturing by printing parts of outdoor cabinets. Encouraged by flexibility and cost savings, they upgraded to the IPSO 105, BigRep’s large-format high-performance 3D printer.

SCALING UP WITH THE HIGH-PERFORMANCE BIGREP IPSO 105

Large-Scale Innovation

The generous build volume of 400 mm x 600 mm x 440 ensures Sichert’s design freedom to experiment with complex structures in full-scale.

Sichert Blog IPSO 105 high temperature industrial plastic 3d printer

High-Temperature Applications

With the build chamber heating to 100°C, the print bed reaching 180°C, & the extruder capability of 450°C,Sichert can print high-performance parts.

Open Material Platform

Capable of printing with virtually any compatible material, especially environmentally resistant filaments, is a game-changer for Sichert's R&D team.

High Cost and Time Savings

The 3D printer, IPSO 105, reduced prototyping costs and accelerated the product development cycle with quick turnaround print time. 

Sichert’s Applications with the IPSO 105

1. Product Development

a. Smart Bench
Sichert designed an aesthetically pleasing outdoor fiber-cabinet bench with future cities in mind. It is fitted with a solar panel at the back, a phone charger to the side, and a fiber distribution cabinet within the bench. The 3D-printed parts were post-processed to give it a natural wood finish so it blends into environments where grey cabinets might stand out.

Sichert use case - outdoor telecommunication cabinet Smart Bench prototype printed by the high-temperature industrial plastic 3D printer BigRep IPSO 105

Sichert's Smart Bench outdoor fiber cabinet printed by the high-temperature industrial 3D printer - BigRep IPSO 105

b. Smart Tower
Sichert’s Smart Tower was built to house 5G small cell (a small wireless device that boosts mobile network coverage and speed in busy areas), with the side panels 3D printed for flexibility in shape and design. Built to be installed in public places, it can also double as an information point in spaces such as bus or tram stops.

Sichert use case - outdoor telecommunication cabinet Smart Tower prototype printed by the high-temperature industrial plastic 3D printer BigRep IPSO 105

The Smart Tower's side panels were 3D printed by the IPSO 105.

2. Rapid Prototyping and Design Testing

Rapid prototyping is one of the areas in which Sichert uses the 3D printer extensively, especially for all their new products, FCC cabinet series, and predominantly for their out-of-the-box designs. Prototypes of PCBs (printed circuit board) and cabinet parts are often printed and tested for tolerance, design fit checks, and stability. The printer’s capability to handle large parts without the need to cut and reassemble them ensures structural integrity and saves time.

Sichert use case - rapid prototyping and design testing FCC outdoor cabinet parts printed by the high-temperature industrial plastic 3D printer BigRep IPSO 105

3. Material Testing and Validation

The IPSO 105’s open material system which allows for printing with any compatible 3D print filament enabled Sichert to test a range of 3D print materials like BigRep’s environmentally resistant ASA, high-strength Polyamide with carbon fibers, and the durable Polycarbonate filament. This ensured the final part met all environmental and operational requirements.

“The IPSO 105 gives us the freedom to choose any material range from low to advanced materials like PEEK which we use in high-temperature use cases. We used to face challenges in picking the right materials which meet specific needs and with this 3D printer, we can explore our options.”

Sichert use case - PCB for FCC outdoor cabinet parts printed by the high-temperature industrial plastic 3D printer BigRep IPSO 105

4. Trade Fair Samples

Sichert often takes part in trade shows and showcasing high-quality, visually appealing prototypes are an integral part of keeping the industry updated with their latest offerings. These 3D-printed parts are post-processed with varnish or undergo structural reinforcing treatments to give potential customers a realistic idea of what the final product would look and feel like.

Sichert use case - FCC outdoor cabinet trade fair samples printed by the high-temperature industrial plastic 3D printer BigRep IPSO 105

Future-Proofing Outdoor Cabinets

Sichert use case - FCC outdoor cabinet parts 3D printed by the high-temperature industrial plastic 3D printer BigRep IPSO 105

The freedom to print in true scale, unlimited choice of material, high to low-temperature capabilities, and cost and time efficiency delivered by the 3D printer have enabled Sichert to expand the functionality and experiment with the design of their fiber cabinets.

With the IPSO 105, Sichert not only weatherproofs but also future proofs their outdoor cabinets by making them smarter and ahead of their time.

Want to learn how Industries are expediting Product Development with 3D Printing?

Reduce Cost and Lead Time with Industrial 3D Printing in Product Development.

Design Prototypes for Industrial Production

Prototyping design iterations is faster and easier as part of a seamless digital workflow
Get better-informed feedback regarding part fit, function, aesthetics, and more with full-scale prototypes
Accelerate time to market with 3D printed prototypes produced in a fraction of the time

Learn more

Maximum Performance. Unbeatable Price.

The IPSO 105 boasts an unbeatable price-to-performance ratio. It's an industry all-rounder and high-temperature machine to reliably produce high-performance parts.

Key Features

Enclosed 105 Liters Build Chamber (Heated Up to 100 °C): Enclosed build chamber is heated up to 100 °C with highly uniform heat distribution delivering large, accurate 3D prints.
Dual Extrusion (Up to 450°C, 150 g/h): Multi-material printing capability with a dual-extrusion system, supporting high-performance materials and a print rate of up to 150 grams per hour.
Multi-Surface Print Bed (Heated up to 180 °C): An evenly-heated bed with two surfaces: a specialized tempered glass or flexible steel plate with a magnetic foil and PEI coating for easy print removal.
Numerous Automation Features: Automated print bed and extruder calibration for quick, easy set up and optimal print quality, plus Relay Mode for continuous printing on 2 extruders.

Explore the IPSO 105

Maximum Performance. Unbeatable Price.

The IPSO 105 boasts an unbeatable price-to-performance ratio. It's an industry all-rounder and high-temperature machine to reliably produce high-performance parts.

Enclosed 105 Liters Build Chamber (Heated Up to 100 °C): Enclosed build chamber is heated up to 100 °C with highly uniform heat distribution delivering large, accurate 3D prints.
Dual Extrusion (Up to 450°C, 150 g/h): Multi-material printing capability with a dual-extrusion system, supporting high-performance materials and a print rate of up to 150 grams per hour.
Multi-Surface Print Bed (Heated up to 180 °C): An evenly-heated bed with two surfaces: a specialized tempered glass or flexible steel plate with a magnetic foil and PEI coating for easy print removal.
Numerous Automation Features: Automated print bed and extruder calibration for quick, easy set up and optimal print quality, plus Relay Mode for continuous printing on 2 extruders.

Explore the IPSO 105

About the author:

Natasha Mathew

Copywriter

BLADE 3.12.3 Released!

July 29, 2024July 23, 2024

New material profiles

ONE.3 with PEX CU 0.6 mm
- HI-TEMP
- PETG
- PLA
- PLX
- PRO HT
- HI-TEMP CF
- TPU
ONE.3 with PEX CU 1.0 mm
- HI-TEMP
- PETG
- PLA
- PLX
- PRO HT
- HI-TEMP CF
- TPU
ONE.4 with PEX CU 0.6 mm
- HI-TEMP
- PETG
- PLA
- PLX
- PRO HT
- HI-TEMP CF
- TPU
ONE.4 with PEX CU 1.0 mm
- HI-TEMP
- PETG
- PLA
- PLX
- PRO HT
- HI-TEMP CF
- TPU
ONE.4 with PEX CU 2.0 mm
- PLA

Improved material profiles

PRO.1 with ACE 1.0 mm
- ASA
PRO.2 with ACE 0.6 mm
- PLA
PRO.2 with ACE 1.0 mm
- ASA

Software Changes

Only materials compatible with the current extruder are shown
Differentiation between SWITCHPLATE Prime and SWITCHPLATE Select

Download Installer Download Source Code

BLADE 5.5.2 (Beta)

July 29, 2024July 15, 2024

Dedicated BLADE version for BigRep VIIO 250.

Download Installer Download Source Code

Meet the New ALTRA 280: The Ultimate High-Temp Industrial 3D Printer

August 20, 2024July 2, 2024

The ALTRA 280, our latest offering, is a fast, reliable, massive, and highly automated high-temperature machine that prints large-scale complex production-quality parts.

Built to be the ultimate machine on the production floor, the ALTRA 280 is the answer for the most demanding applications for industries ranging from aerospace, military, and defense to automotive. It features top-of-the-line specs such as a fully enclosed high-temperature printing environment, up to four state-of-the-art DSX extruders, an open material system compatible with BigRep and third-party filaments, and a massive build volume making it a mighty production beast.

An Industrial Powerhouse from HAGE3D

HAGE3D, a company specializing in large-format high-temperature machines that are part of BigRep through a planned acquisition, originally built the ALTRA 280. The machine is well-known in the European region formerly as PRECISE. The planned acquisition extends our portfolio by offering a full spectrum of low-to-high-temperature 3D printers on a large-scale platform.

Get to know the BIGREP ALTRA 280

An Expansive Build Chamber

With dimensions of 500 mm x 700 mm x 800 mm and a build volume of 280 liters, the ALTRA 280 can produce intricate, full-fledged prototypes and end-use parts. Its welded frame, ball screws, and servo motors ensure industrial-grade accuracy and repeatability.

High-Temperature Capabilities

The build chamber and print bed reach up to 180°C, allowing for the use of high-performance materials like ULTEM 9085 and PEEK. This capability enhances the mechanical properties, functionality, and dimensional stability of printed parts.

Reliable DSX Extruders

Equipped with up to four DSX (Direct Synchronized Extruders) extruders capable of printing at 450°C, the ALTRA 280 ensures uninterrupted productivity and complex prints with dual extruders and their respective backup options.

Fully Automated Quick Start

The ALTRA 280 features automatic functions like print bed calibration and real-time remote monitoring, enabling users to start printing at the push of a button and ensuring continuous 24/7 operation.

Heated Vacuum Print Bed

The vacuum print bed with material-specific surfaces improves print success by ensuring secure adhesion and easy removal of prints, maintaining homogeneous temperature distribution for accurate and intricate parts.

Even Temperature Distribution

Consistent temperature control delivers excellent prints and high-performance parts, delamination, and inconsistencies which are common in other 3D printers.

Reinventing Industrial Workflows

Whether you're looking to build aerospace-grade parts, iterate functional prototypes, or produce robust tooling in-house, the ALTRA 280 offers unmatched precision, automation, speed, and versatility to take your factory floor to the next level.

1. Aerospace-Grade Parts
Print safe and robust parts that qualify in the aerospace industry with the ALTRA 280. This advanced 3D printer uses high-performance materials to produce strong, lightweight, and functional parts. Its exceptional precision, repeatability, and resolution enable innovation at every stage of the design and production process.

Advancing-Additive-Manufacturing-in-Aerospace_Hero

2. Functional Prototypes
Test and validate designs before final production. The machine's open-material system allows you to choose from a wide variety of filaments, ensuring accurate replication of the final product. This flexibility accelerates iteration, reduces fabrication costs, and speeds up time-to-market.

3. Durable Tooling
Create cost-effective, rapid tooling for your factory, including jigs and fixtures. The high-temperature capabilities enable the in-house production of strong and geometrically complex tools. Bypass traditional manufacturing constraints and print-on-demand tools efficiently.

Automotive-Quality-Assurance-Production-Tools-WAT

An Open Material System to Print All Filaments

The ALTRA 280’s material system, like all BigRep machines, is open for innovation. This unlocks the flexibility to print with any compatible 3D print filament, whether BigRep’s or a third party’s, opening up new applications and possibilities.

The ALTRA 280 is fully compatible with BigRep’s filament portfolio including industrial-grade materials that cater to a range of needs, from cost-effective, general-use materials to specialized technical materials. These filaments are produced under carefully controlled conditions to ensure uniform diameter and consistent composition, guaranteeing reliable and even extrusion.

Compatible 3D Print Materials

PC (Polycarbonate)
Known for its high strength, impact resistance, & transparency, PC is ideal for robust, durable parts.

PC-ABS (Polycarbonate/acrylonitrile butadiene styrene)
Combines the strength & heat resistance of PC with the flexibility of ABS, predominantly used in automotive and electronic applications.

PC-FR (Flame Retardant Polycarbonate)
A flame-retardant variant of PC, perfect for applications that need to meet stringent fire safety standards.

PC-CF (Polycarbonate reinforced with Carbon Fiber)
Polycarbonate reinforced with carbon fibers offer superior stiffness and strength.

PA6, PA12 (Nylon)
Both materials are known for their toughness, chemical resistance, and durability, they are excellent for mechanical parts and functional prototypes.

PA6-CF, PA12-CF (Polyamide Reinforced by Carbon Fiber)
Nylon with carbon fiber reinforcement, providing superior strength and light-weight parts.

PA12-GF (Polyamide Reinforced by Glass Fiber)
Nylon reinforced with glass fibers delivers superior stiffness and dimensional stability.

CoPA
A copolymer of nylon that combines the best properties of different nylons are perfect for a wide range of applications.

ABS (Acrylonitrile Butadiene Styrene)
A flame-retardant variant of PC, perfect for applications requiring stringent fire safety standards.

ASA (Acrylic Styrene Acrylonitrile)
Similar to ABS but with better UV resistance, ASA is great for outdoor applications.

ABS-FR
Flame-retardant ABS for applications that demand fire safety.

ABS-ESD
Electrostatic discharge-safe ABS is used in electronics and sensitive equipment housings.

TPU (Thermoplastic Polyurethane)
A flexible and durable filament for parts requiring elasticity.

TPC (Thermoplastic Copolyester)
Known for its flexibility and chemical resistance, TPC is best used for textiles, packaging, electronics, and automotive applications.

PETG (Polyethylene Terephthalate Glycol)
A durable, easy-to-print material with good chemical resistance.

PLA (Polylactic Acid)
A biodegradable, eco-friendly filament used for general-purpose printing.

HT-PETG (High-Temperature Polyethylene Glycol Terephthalate)
High-temperature PETG with enhanced heat resistance and durability.

PCTG (Poly Cyclohexylenedimethylene Terephthalate glycol-modified)
A modified version of PETG, offering improved impact and chemical resistance.

PP (Polypropylene)
Lightweight, flexible, and resistant to fatigue and chemicals, ideal for hinges and containers.

PP-GF
Polypropylene reinforced with glass fibers is known for superior strength and stiffness.

PEKK, PEEK (Polyether Ether Ketone)
High-performance materials guarantee exceptional mechanical properties and resistance to extreme temperatures and chemicals.

PPSU, PSU (Polysulfone)
High-performance thermoplastics with excellent chemical resistance and thermal stability.

PAEK (Polyaryletherketone)
Known for its mechanical strength and chemical resistance, it is suitable for high-stress applications.

PEI (ULTEM)
A high-performance polymer with excellent thermal, chemical, and flame resistance.

The Ultimate High-Temperature 3D Printer

ALTRA280_Master Sequence.00_04_17_18.Still003

The ALTRA 280 is a high-performance industrial beast with a large build volume, high-temperature capabilities, unlimited material options, and features that deliver reliable results with every print.

The machine is everything at once – a blazing hot, large, fast, reliable 3D printer manufacturing complex production-quality parts without compromise.

BigRep_ALTRA280_LeftDiagonal_wLogo_white

The Ultimate High-Performance Machine.

The ALTRA 280 delivers unrivaled reliability with up to 4 state-of-the-art extruders. The high-temperature capabilities enable peak-level 3D printing for demanding applications.

Key Features

Enclosed 280 Liters Build Chamber (Heated Up to 180 °C): Enclosed build chamber is heated up to 180 °C with highly uniform heat distribution delivering large, highly accurate 3D prints.
Up to 4 Extruders (Up to 450°C, 250 g/h): Multi-material printing capability with up to 4 extruders for maximum reliability and print speed using high-performance materials.
Vacuum Print Bed (Heated up to 180 °C): A vacuum print bed with material-specific surfaces enables ultimate bed adhesion and easy print removal. Extremely homogeneous temperature distribution ensures accurate prints and superior layer adhesion.
Numerous Automation Features: Automated print bed and extruder calibration for quick, easy set up and optimal print quality, plus many built-in sensors will secure your 24/7 operation.

Explore the ALTRA 280

The Ultimate High-Performance Machine.

The ALTRA 280 delivers unrivaled reliability with up to 4 state-of-the-art extruders. The high-temperature capabilities enable peak-level 3D printing for demanding applications.

Enclosed 280 Liters Build Chamber (Heated Up to 180 °C): Enclosed build chamber is heated up to 180 °C with highly uniform heat distribution delivering large, highly accurate 3D prints.
Up to 4 Extruders (Up to 450°C, 250 g/h): Multi-material printing capability with up to 4 extruders for maximum reliability and print speed using high-performance materials.
Vacuum Print Bed (Heated up to 180 °C): A vacuum print bed with material-specific surfaces enables ultimate bed adhesion and easy print removal. Extremely homogeneous temperature distribution ensures accurate prints and superior layer adhesion.
Numerous Automation Features: Automated print bed and extruder calibration for quick, easy set up and optimal print quality, plus many built-in sensors will secure your 24/7 operation.

Explore the ALTRA 280

About the author:

Natasha Mathew

Copywriter

3D Printed Chandelier, The Hedron, Outshines Conventional Ceiling Lights

July 1, 2024June 20, 2024

3d-printed-ceiling-light-by-bigrep-and-Ben-Mickus

Ben Mickus, an award-winning designer and practicing architect, designed and 3D printed “Hedron,” a pendant that’s light years ahead of modern chandeliers.

Design inspired by geometry in nature. Dreamy ethereal glow. Timeless gradient aesthetic. These are some images that Ben Mickus’ 3D printed Hedron pendant light conjures to the mind. The chandelier balances intricacy with playfulness, inviting you to step into an elegant space that celebrates futuristic design powered by a conscious fabrication choice.

Ben Mickus founded Mickus Projects, a 15-year-old multi-disciplinary design studio specializing in furniture, lighting, architecture, and design strategy. He honed his design skills working on large-scale cultural projects at the prestigious architecture firm, Diller Scofidio + Renfro in New York.

Over the years, Mickus Projects has engaged in a variety of research-driven prototype projects, spanning furniture, architecture, and lighting. The design studio's latest endeavor in the interior lighting space with the Hedron delved into 3D printing with bioplastics.

$C:\Users\n.mathew\OneDrive - BigRep GmbH\Desktop\Ben Mickus' Hedron printed with a BigRep$

Photographed by Ryan Gobuty.

The Genesis of Hedron

Inspired by the geometric design of polyhedrons, Ben created the Hedron with a twist that fools the eye. One can look into and through it without actually seeing the light source inside. This geometrical trick makes the Hedron look like it’s glowing from within. Produced with translucent BigRep PLX, the printed walls are thinner at the edges and are angled precisely so the light bounces twice, creating a light-to-dark ambient glow. Almost magically, the light displays no glare and is shadow-free.

"The idea for this fixture started with the shape of a polyhedron, a multi-faceted, three-dimensional object, which has a really interesting form that naturally takes on a curve. Like a turtle shell, or an insect eye, or a soccer ball, all these things are based on polyhedrons where the curve changes between hexagons and pentagons," Ben explained.

close up of the hedron 3d printed chandelier with a bigrep printer designed by ben mickus

Photographed by Ryan Gobuty.

Through parametric modeling, he was able to meticulously iterate and adjust the angles of each surface to achieve the perfect result.

“I modeled the Hedron parametrically so that the angle of all surfaces could be very carefully and precisely controlled so that you can't see the light bulb, no matter which way you look at the fixture.”

3D Printing Illuminates the Path

Ben's prototype was successfully brought to life using BigRep's large-scale 3D printer – the STUDIO. The choice of PLX, a bioplastic known for its bioplastic nature and surface quality, was a deliberate one.

“The superior surface quality achieved by BigRep's PLX was the best part. And it's the only filament that doesn't use petroleum products, which was a really big plus for me.”

Close up of the hedron 3d printed chandelier on a bridge with a bigrep printer designed by Ben Mickus

Photographed by Ryan Gobuty.

The printing process presented its own set of challenges, particularly in achieving a single-part print with striated texture and complex form. The large build volume of the BigRep STUDIO was crucial to produce the 18"W X 12"H intricate design in full-scale, while also allowing experimentation with different materials before the final choice of PLX. Inspired by various post-processing methods, Ben experimented by coating the fixture in a ceramic-based sealant to achieve a matte appearance.

Design Elevated by Functionality

Hedron's design is not only aesthetically pleasing but is also highly utilitarian. It is designed to hang from a concealed inner bracket inside the stem. The fixture can be easily attached and detached without the need for fasteners, glue, or additional hardware. Ben explained, "The entire shade is just lifted up, rotated 60 degrees, and then it slips out from kind of a three-point slot in the top of the fixture." This custom component is an excellent example of how Design for Additive Manufacturing (DfAM) can consolidate components for better products requiring less assembly.

Ben Mickus' Hedron chandelier 3d printed with a BigRep

Photographed by Ryan Gobuty.

A Bright Future Ahead

The Hedron will be showcased at the Light Design Expo in San Francisco on June 20^th, which is sponsored by the Illuminating Engineering Society (IES). The event will be a platform for Ben to get a pulse of the industry, which he hopes will help in moving the Hedron towards mass production.

He is optimistic about the fixture's potential and looks forward to its reception. Keep an eye out for his futuristic Hedron at the Light Design Expo and beyond.

Ben Mickus' Hedron chandelier printed with a BigRep outdoors.

Photographed by Ryan Gobuty.

RH-Engineering_Ebook-download-image-template

Want to Learn More about 3D Printing Bespoke Furniture?

Download the eBook, RH-Engineering & manoFigura 3D Print Luxury Furniture.

Find out how RH-Engineering and manoFigura design and create custom furnishings. Deep dive into their breakthrough product, the Magna Patero Ortus – a 3D-printed end-use sink.

Read this additive manufacturing case study to learn:

How businesses are manufacturing custom products with 3D printing
Why additive manufacturing is the perfect solution for custom and low-volume production
How large-format 3D printers unlock creativity and opportunity
Unique post-processing systems for end-use products

HOW RH-ENGINEERING & MANOFIGURA 3D PRINT LUXURY FURNITURE

About the author:

Natasha Mathew

Copywriter

3D Printing in Education: The BigRep STUDIO Takes Learning Out of the Box

May 28, 2024May 2, 2024

Integrate 3D printing in education with the BigRep STUDIO, a large-scale machine that sets students and researchers up for success with its state-of-the-art technology trusted by industry leaders.

3D printing is rooted in hands-on learning, a pedagogical tool for ambitious students and researchers to take them from concepts to physical models, preparing them for real-world success. The technology is widely used to ensure promising research outcomes through high-accuracy parts in a wide range of materials for studies ranging from engineering to art and design. While most entry-level 3D printers in the market comfortably fit on a desk, the unrestricted freedom to explore new ideas manyfold as the build volume gets BIGger.

Built with a generous build volume of 1000 x 500 x 500 mm, the BigRep STUDIO is 10 times that of a standard desktop 3D printer. It is a massive, reliable, and education-ready 3D printer built to graduate students from desktop learning to a professional industrial-grade machine. Many leading universities around the world house the STUDIO and discover applications across almost all academic and research disciplines.

Join the Ranks of Top Universities by Integrating Large-Scale 3D Printing into Your Curriculum

WHY THE STUDIO IS THE BEST-IN-CLASS
EDUCATIONAL TOOL

A Generous Build Volume

A 1000 x 500 x 500 mm build chamber for students and researchers to explore and test their ideas in full-scale.

A Safe, Fully Enclosed Build Chamber

The temperature-controlled build envelope for consistent prints and safe access to the print bed.

Open Material Platform

Freedom to print with compatible 3rd party materials including carbon-fiber-reinforced plastics enabling the widest variety of applications in any academic field.

Uninterrupted Productivity

The STUDIO allows for around-the-clock non-stop printing so students can schedule print projects back-to-back and experiment efficiently even during the busiest periods.

Training and eLearning Platform

Students have complete access to online courses on the BigRep ACADEMY and in-person training from fundamentals to expert-level in 3D printing.

Space Conscious Machine Design

Built with a sleek body, the STUDIO is at home in any workspace. The machine runs on a convenient standard electrical outlet and has relatively low power consumption.

Intuitive 3D Print Software

Easy-to-use cutting-edge software suite gives students complete control over the print process, from design to print monitoring: BLADE, FLOW, and CONNECT.

Large-Format 3D Printing Applications Across Different Academic Fields

The natural intersection between the STUDIO and education lies in the shared focus on large-scale experimentation, critical thinking, and creativity. The 3D printer imparts practical learning by being a testbed for experimentation, prototypes, physical models, and real-world applications.

The most common educational fields that benefit from the STUDIO’s large-scale capabilities are:

1. Engineering

The significant advantage of the STUDIO for engineering and advanced manufacturing students is its ability to effortlessly print large parts with complex geometries. Designs that would be challenging or even impossible to build with traditional manufacturing methods are second nature for the 3D printer.

Engineering students can quickly test, iterate, and refine their ideas and experiment with different filaments thanks to the open material system. They can gain insight into how material properties influence design and how manufacturing processes impact the final product. This experiential learning helps students develop an intuitive understanding of materials science and manufacturing principles, equipping them with valuable skills for their future careers.

Here are some of the use cases of Universities employing BigRep 3D printing systems in their research labs.

Helmut Schmidt University's Eleven-O-Six Racing Team 3D printed the steering wheel, entire bodywork, and a nose cone prototype.

High-performance car production process
Eleven-O-Six Racing Team, a motorsport team at Helmut Schmidt University in Hamburg, Germany uses a BigRep 3D printer to see what it could bring to their high-performance car production process.

Prof. Dr.-Ing Jens Wulfsberg, the Chair of Production Engineering (LaFT) and leader of the project underlines a key advantage of their BigRep 3D printer:

"Using a BigRep 3D printer is a fast solution to produce a fast car because we have short cycles for optimizing the parts. In every iteration cycle, the car is better, and faster. This is one of the direct consequences of using the machine."

Rapid prototypes
Dr. Mario Oertel and his team at the advanced hydraulics engineering lab at Helmut Schmidt University are transforming weir designs with BigRep 3D printing systems.

End-use parts
Aalborg University Engineers 3D printed a functional bicycle frame in one go.

At Aalborg university, a fully functional bicycle frame was 3D printed, thanks to the BigRep 3D printer's large build volume.

Aerospace engineering
Aix-Marseille Université, one of the largest universities in France, developed a unique accredited degree program in aerospace engineering with BigRep 3D printing systems.

Using their BigRep 3D printer, Aix-Marseille’s technical aeronautical training school, POLYAERO introduced 3D printed mockup parts for an ideal training solution.

2. Sciences

Thanks to the large-build volume, the STUDIO can create anatomically accurate representations for biology and medicine students ensuring a realistic and immersive learning experience. The 3D printer can play a crucial role in medical device development, allowing researchers to prototype and test cutting-edge healthcare solutions.

The other area that additive manufacturing contributes significantly is in the visualization of concepts. Beyond healthcare and biology, they support environmental studies and geoscience research by creating models for studying ecosystems, geological formations, and natural phenomena.

The STUDIO can easily create complex components and prototypes for advanced physics research projects tailored to specific objectives. Students can experience experimental design, data collection, and analysis. Be it fabricating models that are tested by being subjected to natural forces, or designing innovative sensors, students can leverage the capabilities of FFF 3D printing to push the boundaries of scientific exploration and discovery.

The 3D-printed rotor blades at TU Berlin designed by Jörg Alber, and Laurin Assfalg with a BigRep machine.

TU Berlin’s Ph.D. student, Jörg Alber, and Master’s student, Laurin Assfalg, 3D printed a wind turbine rotor blade to experiment, evaluate, and improve its performance. By creating and optimizing rotor blades on a smaller scale with BigRep’s 3D printer, they could explore different infills, shapes, and materials and test them against simulated real-world conditions.

Laurin Assfalg:

"3d printing was a compelling option to produce the rotor blades as it can create complex forms and enhance performance. The idea was to come up with the science that can somehow be used for big rotor blades too."

3. Art

In art and design education, the STUDIO empowers aspiring artists with the freedom and practical skills needed to breathe life into their creative visions. Students can explore new techniques and experiment with materials, overcoming the limitations of traditional art mediums. Some of the areas where the 3D printers give the students a leg-up are with props and special effects, fine art creation, sculptures, installations, and art preservation.

The machine’s high level of precision helps students create intricate artwork, allowing them to delve into digital fabrication techniques and integrate technology into mixed-media art projects. Welly Fletcher, an Assistant Professor of Sculpture in the Department of Art at the University of New Mexico, built a bridge to prehistoric cave art with a massive 3D printed mixed-media lion-like figure with a BigRep printer.

Welly Fletcher’s sculpture ‘Trans Time’, an abstract depiction of a lion-like animal printed using a large-format BigRep 3D printer.

4. Architecture and Construction

Studying architecture and construction at a university with access to a large-scale FFF 3D printer offers students the opportunity to prototype their designs at scale. This helps with a detailed analysis of spatial relationships, structural integrity, and design aesthetics of the building. The physical model can be quickly iterated to find the perfect solution to architectural challenges.

From complex architectural features to intricate building elements, integrating a STUDIO in the process fosters interdisciplinary collaboration and innovation. Architecture and construction students can collaborate on projects that combine architectural principles with engineering expertise.

The elaborate, contemporary “Ancora Villa” printed on a BigRep printer, is a complex architectural design with a fragile overall structure and many highly intricate details.

BigRep 3D Printed an elaborate architectural model, Villa Ancora, in 1:50 scale in just 5 days.

5. Archaeology and Paleontology

FFF 3D printing can turn back time by recreating lifeforms that have gone extinct and artifacts that have been damaged or lost forever. The physical models are profoundly engaging, offering an unparalleled experience by allowing students to learn about the past by holding it in their hands. Creating singular pieces of small to large scale parts comes easy for the STUDIO and students have a wide variety of materials to choose from. Post-processing techniques like painting and wrapping the part ensure a more realistic representation.

CDM STUDIOS in Australia 3D was commissioned to create sculptures and models of dinosaurs and extinct sharks on short notice. With a BigRep 3D printer, they were able to accurately recreate 110 models in just 9 months.

A shark model 3D printed on a BigRep 3D printer by CDM:Studio.

6. Product Design

The iterative nature of 3D printing allows students to test and refine their ideas, gaining valuable insights into form, function, and manufacturability. By experiencing the entire design cycle—from concept development to prototyping—students develop critical problem-solving skills and design thinking methodologies.

The STUDIO enables the intersection of design, engineering, and materials science by collaborating with peers from diverse backgrounds to tackle complex design challenges. Through this collaborative approach, students gain a deeper understanding of the multifaceted nature of product design and develop the ability to integrate technical, aesthetic, and user-centered considerations into their designs.

Next-Gen AM Technology for Next-Gen Graduates

The STUDIO provides a solution for educational institutions that’s equal parts reliable and open for experimentation, engineered with state-of-the-art technology trusted by industry leaders. The 3D printer ensures successful research outcomes by printing high-accuracy parts with an open material platform rooted in a user-friendly, professional-grade full-solution AM eco-system.

In today's competitive job market, hands-on experience with professional 3D printers provides students with a valuable edge, offering a tangible representation of their ideas and enhancing the learning process. Prepare students for the real world and set them up for successful careers in any field, all within an accessible price range and unlimited experimental opportunities.

on-demand-webinar-integrating_large-format_3d_printing_in_universities_2_

Want to learn more about how Universities are upgrading education with 3D printing?

In this webinar, we discuss with some of the top universities, the projects and research they’ve conducted using large-scale 3D printing.

REGISTER FOR THIS WEBINAR TO LEARN HOW

3D printers support scientists and students conducting research in universities
AM is crucial in fast-paced experimentation and rapid iteration
To unleash creativity through AM technologies
3D printers are an ideal tool in educational institutions to test new ideas.

INSPIRE STUDENTS & INNOVATE FASTER: INTEGRATING LARGE-FORMAT 3D PRINTING IN UNIVERSITIES.

Graduate from Desktop. Get Industrial.

With 10 times the build volume compared to desktop 3D printers, the STUDIO is your gateway to large-scale industrial manufacturing.

Key Features

Enclosed 250 Liters Build Chamber: 1000 x 500 x 500 mm build volume for large 3D prints from a machine that easily fits in most work spaces.
Dual Extrusion (Up to 280°C, 130 g/h): Multi-material printing capability with a dual-extrusion system, supporting high-temperature materials and a print rate of up to 130 per hour.
Heated Print Bed (Up to 100 °C): A heated bed with a polyimide surface that enhances print adhesion for a range of materials and minimizes warping.
Large Parts with Fine Detail: Layer heights from 0.1 to 0.6 mm let you achieve small details on large prints, without compromising on printing speed.

Explore the STUDIO

Graduate from Desktop. Get Industrial.

With 10 times the build volume compared to desktop 3D printers, the STUDIO is your gateway to large-scale industrial manufacturing.

Enclosed 250 Liters Build Chamber: 1000 x 500 x 500 mm build volume for large 3D prints from a machine that easily fits in most work spaces.
Dual Extrusion (Up to 280°C, 130 g/h): Multi-material printing capability with a dual-extrusion system, supporting high-temperature materials and a print rate of up to 130 per hour.
Heated Print Bed (Up to 100 °C): A heated bed with a polyimide surface that enhances print adhesion for a range of materials and minimizes warping.
Large Parts with Fine Detail: Layer heights from 0.1 to 0.6 mm let you achieve small details on large prints, without compromising on printing speed.

Explore the STUDIO

About the author:

Natasha Mathew

Copywriter

Xuberance Breaks the Mold with 3D Printed Furniture and Lifestyle Products

April 20, 2024April 18, 2024

Xuberance 3D printed furniture - hero image

Hailing from Beijing, China, Xuberance is a product design firm that leverages 3D printing technology to create unique furniture pieces and accessories. By embracing BigRep’s large-scale 3D printers, Xuberance is writing a new design narrative that combines sustainability and unparalleled design freedom.

From steam-bending woodworking techniques in the 19th Century to injection molded plastics in the 20th Century, advances in production technologies have continually reframed the creative possibilities. Product designers are looking to innovate and push the boundaries of their craft with cutting-edge technologies that allow them to support their vision.

In the 21st Century, design firms such as Xuberance are proving that there is scope for an entirely new conversation - one that empowers the unbound imagination of the product designer thanks to 3D printing technology.

Xuberance is making complex, intricate, and lightweight structures made possible by 3D printing objects from digital designs. The design ranges from furniture pieces to wearable fashion accessories and has become a symbol of a new age of digital expression.

The Form is More Than Function

With products such as the 3D printed Cloud Lamp, a luminaire that garnered the team the prestigious SaloneSatellite Award at the Milan Design Week in 2015, Xuberance has developed a distinctive design language; a language inextricably bound to the digital process of 3D printing.

The resulting intricate, organic forms of its 3D printed products are so unique, that they are virtually impossible to reproduce with conventional production methods such as molds.

Xuberance 3D printed furniture - BigRep 3d printed chair

“3D printing forms the backbone of our entire design and production process,” comments Leira Wang, Managing Director of Xuberance.

“Our designers can fully translate their digital designs into physical products using 3D printers such as BigRep’s. It offers unparalleled design freedom while pushing the boundaries of what’s technically possible.”

Large Scale Printing Creates Unique Design Possibilities

Although 3D printing was traditionally utilized by manufacturers to produce specific parts, Xuberance was one of the pioneers to embrace the medium as its primary tool to produce entire products from the ground up.

Having the ability to print larger single products such as chairs and stools with 3D printers such as BigRep’s ONE and STUDIO has enabled Xuberance to focus on building its product design niche.

The resulting products are not only strong, durable, and lightweight, but also unique in their form.

“Large-scale printing has had a transformative effect upon our overall ability to create distinctive designs,” continues Wang. “The BigRep large scale printers are instrumental in this, and unlock new possibilities by reducing time and costs.”

As evident with Xuberance products such as the Madame Butterfly chair - a single-piece 3D printed chair consisting of ethereal, organic, and intricately printed patterns, BigRep’s 3D printers allow the production of larger objects while retaining the intricate design.

“BigRep's dual extrusion printing offers a crushing advantage with its super accurate printing quality. We’re now able to faithfully translate our designer’s compositions into finished Xuberance products without losing any of the intricacies of the original design.”

says Wang.

Responding to Customer Demand

Unlike traditional manufacturing, where modifications require mold changes or adjustments to tooling, Xuberance has built its business around the flexibility of 3D printing, which allows for quick iterations to final product designs.

Not only has this allowed the team to eliminate the time and cost associated with physical adjustments in texture, structure, or color gradients can also be quickly executed depending on the customer’s requirements.

3D Printing in a Circular Economy

Product design and furniture industries have been plagued by non-sustainable practices, especially with nonbiodegradable plastics and other materials. But Xuberance is proving that 3D printed products have earned their place within the circular economy with their choice of materials.

With BigRep’s open material system, Xuberance can select the appropriate materials according to the requirements of each design, and set up printing parameters for each geometric model.

In addition to citing BigRep’s PRO HT and ASA filaments as exceptional with regards to their material composition and heat resistance qualities, Wang also highlighted the importance of their biodegradability in underlining the ethos of the company.

A Future Filled with 3D-Printed Possibilities

By embracing 3D printing technology, Xuberance has proven that it’s possible to create stunning, customized products whilst paving the way for a more sustainable future in design. Key to achieving this are the BigRep large format printers, which Wang believes are fundamental to achieving the company’s vision.

"There is an ancient Chinese saying," concludes Wang, "' When brothers are united in purpose, their strength can cut through metal.' We believe in the future of large-scale printing, and we will work together with BigRep to achieve this greater development."

As Xuberance continues to explore the unprecedented creative possibilities of 3D printing, its designers are forging a radical new language formed around the desire to celebrate form and organic beauty.

This approach echoes a historical truth: form isn't dictated by function, but rather, by the tools and technology available to the designer at any given time. With the tools of 3D printing at its disposal, Xuberance is at the very cusp of redefining the possibilities of product design.

Want to Learn More about 3D Printing Bespoke Furniture?

Download the eBook, RH-Engineering & manoFigura 3D Print Luxury Furniture.

Find out how RH-Engineering and manoFigura design and create custom furnishings. Deep dive into their breakthrough product, the Magna Patero Ortus – a 3D-printed end-use sink.

Read this additive manufacturing case study to learn:

How businesses are manufacturing custom products with 3D printing
Why additive manufacturing is the perfect solution for custom and low-volume production
How large-format 3D printers unlock creativity and opportunity
Unique post-processing systems for end-use products

HOW RH-ENGINEERING & MANOFIGURA 3D PRINT LUXURY FURNITURE

About the author:

Patrick McCumiskey

Author

Patrick has over a decade’s worth of experience writing about design and technology. After first encountering 3D printing on a project while studying a Masters Degree in design, he’s taken a keen interest in the development of 3D printing and its impact on the world of design and tech.