Only 3 days left for the Longer Orange 30 Crowdfunding On Kickstarter https://ift.tt/2RB3gSR
The Longer Orange 30 has received more than $135,000 in crowdfunding on Kickstarter, representing funding of 451% of its original goal. Only three days remain to pledge for the Orange 30 ultra-high precision SLA 3D printer. Shipping will begin from August 2019. Longer3d is a manufacturer dedicated to providing desktop 3D printers and industrial 3D printers, based in Shenzhen, China. With the popularity of desktop 3D printers in recent years, Longer3d is entering the field with its industrial-grade 3D printer technology. The price for an Orange 30 printer is $249 which compares favorably to many other desktop 3D printers which can run $1,000 or more. Below are the jewelry models printed by Longer’s Orange 30 under a microscope: One distinguishing feature of Longer3d’s technology is that it uses a linear guide and slider to ensure the accuracy of Z-axis. This approach can match the LED exposure time, intensity, algorithm, and other factors well. Moreover, Longer3D plans to update functions of the Orange 30 including:
The U.S. Department of Energy estimates that 3D printing can enable great savings on raw materials and manufacturing costs. 3D printing technology eliminates the limitation of traditional product design and can stimulate people’s innovation potential. 3D printers are widely used in aerospace and national defense, medical equipment, animation industry, crafts industry, ceramics industry, education, manufacturing industry, protection of cultural relics industry, construction industry, automobile manufacturing, jewelry and so on. Stay tuned for more updates and news about Longer3d’s Orange 30 machine, and its other products such as its FDM printer Longer LK4 and industrial 3D printers. The Longer3d Kickstarter is here. Please enable JavaScript to view the comments powered by Disqus.Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 26, 2019 at 03:27AM
0 Comments
Inside3DPrinting Brazil: 3DC Med is Trying to Change Dentistry in Brazil https://ift.tt/2IK0GqW Today, Brazil is one of the countries with the most dentists in the world. With over 190,000 dentists (that’s 111 dentists every 100,000 people), it’s no wonder the dental industry has been heavily influenced by 3D printing. It’s right up there with the United States, Israel, Finland, and Estonia. Just like everywhere else in the world, it allows the creation of a variety of dental pieces, such as night guards and aligners, dentures, surgical guides and molds, the production of drill guides for dental implants, physical models for prosthodontics, orthodontics, the manufacture of dental, craniomaxillofacial and orthopedic implants, as well as the fabrication of copings and frameworks. Along with new 3D software, scanners, and 3D printers. Brazilian company 3DC Med provides state-of-the-art equipment, including 3D scanning and printing technologies for digital dentistry and medicine, as well as specific consultancies and training to guarantee that the professionals who purchase the machines will use them correctly. For Chief Technology Officer of 3DC Med, Daniel Huamani, “the notion of digital dentistry involves much more than the purchase of machines and software, it’s about educating professionals on the potential uses of the technology.”
Huamani explains that the company “doesn’t like to push technology into the market without first teaching them how to use it”. When they began working with the dentistry industry some years back, they found an incipient market that had tried to succeed by pushing the technology everywhere, without training or consultation, leading to lots of mistakes in the printing process, which “was bad for the market in general.” Huamani claims that “he tends to disappoint dentists” when they first approach 3DC Med. He recommends that they start small and then build on. “They usually want to begin by creating every type of dental piece possible, which means that they would need to buy between three or four different 3D software packages, and learn how to use each of them,” he said. According to the engineer, the 3D dentistry market in Brazil has become more mature in the last two years, ahead of the rest of the Latin American community, but, as usual, lagging behind the more developed countries. Many more dentists understand today what they can do with 3D printing and how to do it, thanks to an overflow of information and published material on the technology, along with more education. Yet Huamani suggests that there are a few gaps, not with the printer but with the CAD software which he says “is a great barrier to dentists, a profession that has not been originally used to anything digital and needs to figure out that if something bad comes out of the printer it’s not the machines’ fault, but usually the scan or the CAD preparations were wrong.” 3DC Med is a sister company of the 3D Criar group, that recently participated in the fifth edition of the Inside 3D Printing Conference & Expo, in Sao Paolo, Brazil, one of the world’s leading 3D printing events in South America. It was originally developed to provide the dental and medical sector with high technology equipment and consultants with unique expertise in the market, so it’s not just about dentistry. Their team of experts helps with the end-to-end implementation, from choosing the right equipment and software to proper solution training. In the case of dentistry, 3DC Med sells Mask Image Projection Stereolithography (SLA) Digital Light Processing (DLP) machines, which they consider the definitive 3D technologies for digital dentistry due to their precision. 3DC Med is the official reseller for Sprint Ray’s MoonRay printers (both MoonRay D75 and MoonRay S100). Also, they provide resins (both national and international), intraoral scanners (French-made Carestream Dental), and can recommend software based on the customer’s needs. 3D printing is a fast-growing technology in various fields, including dental laboratories. Dental 3D printers feature lights or lasers that polymerize a liquid or fuse a powder with the computer-guided precision needed to produce small objects with complex details.
3DC Med will help dentists go from A to Z of the process, teaching them everything they need to know to avoid any costly mistakes. So, how do dentists combine the technology to come up with customized pieces in shorter time periods and at a lower cost? According to a recent study, when manufacturing a complete denture using digital workflow, the process begins with digital scanning of the edentulous arch, including challenging areas for the intraoral scanner device to scan, which are movable areas such as non-keratinized tissue and smooth surfaces covered with saliva. Once they get everything right, they use dental modeling software to modify and adapt the denture, then they need to choose a resin. Depending on the application, different resins are used, and many specialized resins have been created solely for dental 3D printers. The Sao Paolo-based company offers 10 different types of resins on their online site, including resins for making surgical guides, others to manufacture plates, denture bases, and temporary teeth. Some of their customers include the University of São Paolo, Orto3D, the University of Rio de Janeiro, Clélio Laboratory, Unicamp, Mediphacos, Unicad, Hospital de Clinicas in Porto Alegre, Aprimora Clinic and Fenelon Radiology.
3DC Med was also created to provide solutions and tools for 3D printing in the medical community. However, there is a big barrier to what they can do with a printer. The country has regulations that won’t allow for 3D printed implants just yet, which means you take away a lot of the fun of additive manufacturing in hospitals. So what’s left for the company and the industry is to move to presurgery models in Brazil. Still, like in the rest of the region, nobody wants to pay for them, not the patients, or the hospitals, health insurance companies or even the State. It is still not clear for them how beneficial they can be to both doctors and patients. But as with dentistry, Huamani believes that the use of CAD is a big problem here as well. “Hospitals don’t have someone specialized who could use the software and 3D printers every day, which means they would require a biomechanical engineer.”
3D printing is revolutionizing healthcare whether some people like it or not. Hospitals around the globe are setting up 3D printing labs so that healthcare professionals can incorporate the process into their regular workflow, focusing on printing patient-specific models prior to surgery to look at a patient’s anatomy. Brazil has quite a large market, with over 209 million people, an economy ranked as the world’s ninth largest, in terms of nominal GDP, and a demonstrated potential for even further growth in many industry sectors, paving the way for additive manufacturing to become part of healthcare, dental, and many other industries that would heftily benefit from it. Please enable JavaScript to view the comments powered by Disqus.Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 26, 2019 at 02:15AM
https://ift.tt/2ZQt80a
Inside3DPrinting Seoul 2019 Day One https://ift.tt/2FySgkl Inside3DPrinting Seoul is one of the world’s largest 3D printing shows. Set in the giant maelstrom that is Seoul the show brings together people from all over the region and world to meet, discuss and learn. The show will see over 10,000 people join exhibitors and speakers from all over. Alan Meckler kicked it off with a short presentation on the 3D printing industry’s growth. He looked at the growth of 3D printer unit sales, revenue growth, regional growth, and industry sector growth. He talked about the shift towards manufacturing and the maturation of our industry. On next was Hugo da Silva of DSM. Hugo talked about working together to create an ecosystem for 3D printing. He said that manufacturing firms will never settle for having just one supplier with a limited choice of materials. He felt that new business models and new models of working together were needed. Revenue sharing would be the way to go forward. He was also aiming for DSM to create a wholly sustainable product portfolio. This would mean that you can recycle or reuse all of their materials. They would be looking at recycling powders. Recycling PET filament and pellets would also be on the menu. The company would also invest more in bio-based materials. Kibong Lee of 3DSystems was next. He went through 3D Systems’ offering of SLA, SLS and metal 3D printing machines. He also discussed some cases of customers including aerospace, rocket engines, and aircraft parts. Invisalign is one of the most exciting examples of a company using 3D printing to manufacture using 3D printing anywhere. The firm helps millions straighten their teeth by taking CT scans and turning these into 3D prints. These are then used as a mold for a silicone dental aligner. This easier to use process has been used by millions. Kibong said that now Align 3D prints 320,000 parts per day which would make it a huge application for 3D printing. Sang Joon Park of Medicalip is both a radiologist and computer science graduate. He’s a professor of Radiology in Seoul National University as well as CEO of his own firm. Specializing in medical models and converting MRI and CT data into models used for testing, education and training his firm has also innovated on software. They now use machine learning to clean up images and segment files which will make their high-quality medical models more accessible and more accurate. Lauralyn McDaniel of ASME told us over a million patients have been helped by 3D printing and the total value of all 3D printing is nearly ten billion and 11% of that is in medical. She took us through the history of 3D printing in medicine talking about Materialise, Medical Modeling, Surgical guides, and mold patterns. She mentioned that in In The Ear hearing aids 3D Printing became the standard. She looked at early applications such as CMF and “highly complex and rare procedures such as conjoined twins.” She explained that often people are using terms such as “biocompatible materials” incorrectly and that we could do “design to be clean” and make medical devices that are designed for optimal powder removal for example. She also mentioned that US IPT codes are opening up for models and surgical guides. Raymond Zhang of Shining3D. Raymond talked about Shining’s portfolio of 3D scanners but also their printers. He mentioned that the firm has an SLS printer specialized for orthoses. They also have an SLA machine and metal printers. He then went deeper into Shining’s medical cases including an osteotomy guide where a CT scan became the basis for the case. A complex fracture was another case whereby Shining was able to help. In a scoliosis brace the firm was also able to help young patients regain quality of life. The braces are optimized to be breathable and comfortable. A spine implant in PEEK and an interbody cage made out of titanium by Korean company Mantiz complete their showcase. Tony Kim is one of the people who was instrumental in defining the Korean government’s 3D printing strategy. He specializes in looking at SLA and DLP. He’s very knowledgeable on photopolymers, especially for dental applications. He talked about dentures, temporary structures, implants and more. He talked about the core design characteristics of 3D printing resins. If you wanted it for a certain application how do you design a resin for relaibility for example. Please enable JavaScript to view the comments powered by Disqus. Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 26, 2019 at 01:36AM Samsung Electronics Using Optomec’s Aerosol Jet 3D Printing to Make Next-Generation Consumer Electronics http://bit.ly/2Ryvj5r New Mexico-based Optomec, which supplies production-grade 3D printing systems for electronics applications and LENS Directed Energy Deposition 3D printers for the manufacturing of metal parts and components, just announced that Samsung Electronics will be using its patented Aerosol Jet technology. This week, it was revealed that Samsung has commissioned one of Optomec’s Aerosol Jet (AJ) 5X 3D printers, which will be put to work in its Printed Electronics Lab for the fabrication of next-generation consumer electronics. First unveiled back in 2014, the AJ 5X was developed for those customers working to develop electronics like molded interconnect devices (MIDs), sensors, smart phones, and tablets. Many customers use the system to work on more advanced fabrication projects, as it has the ability to print high conductivity inks and dielectric materials in complex shapes on a variety of substrates and 3D surfaces, which makes it possible to shrink electronic devices down. [Image: Optomec] Optomec’s Aerosol Jet technology accurately and precisely deposits electronic inks through the use of aerodynamic focusing. First, the material is place into an atomizer, which creates a mist of ink-laden droplets that is delivered to the deposition head. There, a sheath gas (usually compressed air or clean, dry Nitrogen) surrounds the aerosol as an annular ring to focus it. Once this gas and the aerosol pass through the profiled nozzle, acceleration occurs and the aerosol is focused into a tight stream of droplets that flow inside the gas, which also insulates the nozzle to prevent any material clogs.
The Optomec AJ 5X system can print features that range from millimeters down to 10 microns, and the 3D printer also supports 5 axes of coordinated motion with its 200 x 300 x 200 mm print envelope. The company has 20 years worth of materials and process research to its name, can help industry customers improve performance and lower product costs, and it also offers the necessary software to go with its Aerosol Jet systems for printed electronics. The patented Aerosol Jet process is used by many to make things like sensors, RF interconnects, flexible hybrid electronics, wire replacement bonds for IC packaging, and multi-layer, miniature circuits; the technology can even be used to 3D print antennas directly onto electronics enclosures. Discuss this story and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the Facebook comments below. [Source: Optomec] Please enable JavaScript to view the comments powered by Disqus.Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 25, 2019 at 01:46PM Recognizing Four-Legged Heroes http://bit.ly/2IL21h8 The U.S. Postal Service honors the nation’s brave and loyal canines with the Military Working Dogs Forever stamps. In this booklet of 20, each block of four stamps features one stamp of each of the following breeds—German Shepherd, Labrador Retriever, Dutch Shepherd and Belgian Malinois —that commonly serve in America’s armed forces. News of the stamps are being shared with the hashtag #MilitaryDogsStamps. Printing via USPS News http://bit.ly/2hH9aDC June 25, 2019 at 01:42PM Carbon Taps $260 Million in Additional Funding for Advanced Development Facility & International Expansion http://bit.ly/2XxYuLp Silicon Valley-based Carbon is forging ahead with new financial resources—to the tune of $260 million— after a round of growth funding which will allow them to expand operations considerably, along with strengthening their role as a player in the Asian and European 3D printing markets. Funding was co-led by Madrone Capital Partners and Baillie Gifford, with new investors Temasek and Arkema also joining the following existing investors:
That brings cumulative recent funding for Carbon to $680 million, offering plentiful financial resources for the diverse company to increase research and development. This activity will occur at their new Advanced Development Facility (ADF), and they will also continue further marketing internationally. The new site will strengthen Carbon’s platform and workflow, benefiting their customers and partners around the globe engaged in applications like health, automotive, and consumer goods. Overall, the goal of their engineering teams is to innovate and accelerate product development.
The Carbon team will also invest further R&D efforts in recyclable and biocompatible materials, along with software expansion for the Digital Manufacturing Cloud, including emphasis on:
There are also plans to improve the software currently enabling comprehensive production for the Carbon platform.
The company currently employs over 400 team members, which they proudly refer to as ‘world-class talent,’ managed by a group of new C-level executives and an experienced board of directors—all aiming toward further expansion in sales and marketing.
Carbon also reports the following progress:
We have also followed as Carbon introduced polymer parts for Ford vehicles, announced a partnership with Riddell for a digitally printed football helmet liner, unveiled the new L1 printer, and also recently released a digital manufacturing platform for dental and orthodontic labs.
Will Carbon live up to the expectations that they are creating? The firm has little in installed base and sold systems when compared to existing players. The number of things actually being manufactured with their technology is also limited compared to existing vendors. Their technology also is interesting in many respects but what niches will it be able to exploit? How will Carbon’s parts hold up to the real world? What do you think of this news? Let us know your thoughts! Join the discussion of this and other 3D printing topics at 3DPrintBoard.com. [Source / Images: Carbon] Please enable JavaScript to view the comments powered by Disqus.Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 25, 2019 at 01:30PM Diversity and Collaboration Fuel Additive Manufacturing at Henkel http://bit.ly/2JatYhd Diversity and Collaboration Fuel Additive Manufacturing at Henkel – women play key roles in helping unleash the power of 3D printing. As a Henkel employee, I am part of a large, multinational company that operates worldwide with leading innovations, brands, and technologies in three businesses: Adhesive Technologies, Beauty Care and Laundry & Home Care. Headquartered in Düsseldorf, Germany, we have over 50,000 employees, representing 120 nationalities in nearly 80 countries. Diversity and inclusion are firmly anchored in our corporate culture and are key drivers to our business success. Women make up a significant portion of our workforce, playing important roles in nearly every business function, from product development and operations, to sales and marketing. From a gender perspective, the chemical industry is definitely not what one would generally consider diverse. But this is beginning to change. In a Chemical & Engineering News survey taken a decade or so ago, only 8.7% of 413 different management positions were held by women. By 2017, when the same study was conducted again, the numbers had shifted dramatically with women holding 32% of positions that have “business responsibility.” Women have also made gains in nearly every other area, including human resources, finance, legal and administration. Over the past ten years, Henkel has become increasingly interested in the additive manufacturing industry. Three years ago, we made a commitment to enter the space and began exploring various go-to-market strategies. At Formnext 2018, we announced the first formal step in our journey. Since then, we’ve made several more announcements including the acquisition of Molecule Corp. From a strategic perspective, Molecule was a great fit for Henkel. Molecule provide advanced solutions for 3D printing, impacting many different markets, including medical device, aerospace, automotive and a wide variety of consumer goods. They also supply industrial inkjet solutions. While that’s important, there has to be a certain amount of chemistry (pardon the pun) between the teams. It’s here that Henkel’s culture proved to be a significant asset. Molecule has two founders, one of whom is female, Karla Witte, and she has an impressive resume. Her career spans nearly 20 years in the industrial inkjet business, where she worked in executive roles in both product and business development. Karla is the very definition of an intrapreneur and exactly the type of person we wanted to help grow Henkel’s 3D Printing business. With Henkel’s strong commitment to diversity, evidenced by the number of women in key positions, the team at Molecule felt secure, knowing that everyone on their team would benefit from the acquisition.
We share that excitement at Henkel. Since the acquisition, we revealed our new open materials platform at RAPID 2019 and previously announced collaborations with several manufacturers of 3D printers, including EnvisionTEC, Origin and NewPro3D. For 3D printing industry to fully scale, it must expand beyond prototyping and into production. To do that, it has to make the leap from model shops and into large organizations across many different vertical markets. Some like automotive and aerospace were also historically male, but others like medical and consumer products are much more diverse. From my perspective, it’s the perfect time to be a female working in the additive manufacturing industry. From the C-Suite on down, more women are entering the business and making an impact. We’re learning from one another and helping each other grow. At Henkel in general, and in the 3D Printing business unit specifically, many women are in leadership positions. I manage global marketing and strategy, for instance, and I’m certainly not alone.
Having worked in many different functions, including sales, operations and supply chain I can say with some authority that best-of-breed companies seek diversity both from themselves and their business partners. Over my career, the contributions of women have been valued and appreciated by my suppliers and customers alike. As additive manufacturing continues its evolution from cottage industry to manufacturing game-changer, women need to be on the front lines. As one of those women at Henkel, I’m excited to be part of the diverse team committed to delivering on 3D printing’s promise of sparking the next industrial revolution. _____________________________________ This article was written by Cindy Deekitwong, Global Head of Marketing, Material – 3D Printing, Henkel Corporation Cindy is an inclusive leader with a successful track record of developing business strategies and processes, with an emphasis on operational excellence. With a strong engineering background which includes a Master Black Belt in Six Sigma, Cindy is especially effective in linking corporate technology and business strategies to supplier/partner capabilities and driving programs to successful completion. Cindy has strong experience in Additive Manufacturing and 3D printing as well as the electronics market, supply chain, operations, key account management and program management of strategic initiatives. Please enable JavaScript to view the comments powered by Disqus.Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 25, 2019 at 12:39PM
http://bit.ly/2FwdCyL
China: Researchers Improve Rib Fracture Surgeries with 3D Printing http://bit.ly/2xcjdW6 In ‘Analysis of the advantages of 3D printing in the surgical treatment of multiple rib fractures: 5 cases report,’ Chinese researchers from Shijiazhuang Third Hospital explore better ways to treat rib fractures, one of the most common types of breaks; in fact, as the authors point out, they make up nearly 80 percent of chest injuries. For this study, they examined cases of five patients with multiple rib fractures and created 3D models of the ribs, plus pre-shaped titanium alloy rib locking plates. Research in past years has shown that ‘surgical intervention’ often results in better outcomes for patients with multiple rib fractures. There are, however, complex considerations in working with fracture sites that are more unique—presenting challenges for surgeons in deciding where to perform incisions. This is where the benefits of 3D printed models enter the picture, allowing for better planning for surgeries. The study was ongoing from January 2017 to August 2018, examining all five patients, each of which had CT scans to confirm fractures. In each case, 3D printed models were made, and the rib locking plates were 3D printed—specifically to each patient: Patient one – a 61-year-old male. The 3D printed model assisted in the creation of a two-rib titanium alloy frame locking plate ‘placed on the 3rd rib’s surface, and well fitted with the non-fractured end of the 3rd rib front and rear.’ Patient two – a 57-year-old male with multiple fractures of the left ribs. Surgeons decided to attach the inner end of the locking plate to the sternum the outer end to the rib bone. Patient three – a 64-year-old female. Surgeons were striving for minimally invasive surgery but were also required to protect breast tissue sufficiently. Ultimately, they affixed the locking plate’s medial side to her sternum body, with the sternum and armpit treated via ‘tunneling open reduction and internal fixation.’ Patients four/five – two male patients both had multiple fractures due to a car accident, with similar surgeries, performed ‘tunneling open reduction and internal fixation.’ A CT scan was used to create 3D models so that the broken ends of their ribs could be ‘adjusted and restored’ accordingly. Overall, the study was a success, with no fatalities. Time in the operating room was around three hours at the most for each patient, with only one individual experiencing complications, resulting in an ICU stay for one day, due to respiratory issues.
3D printing has offered huge advantages to surgeons, especially with models that can be used before and during surgery, allowing for better patient education, medical training for students and surgeons who may be attempting new procedures, and overall improved patient care. [Source / Images: ‘ Analysis of the advantages of 3D printing in the surgical treatment of multiple rib fractures: 5 cases report’] Please enable JavaScript to view the comments powered by Disqus.Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 25, 2019 at 08:33AM
http://bit.ly/2IIe1zW
3D Printing Interview with John Hauer of Get3DSmart http://bit.ly/2xeE2As
John Hauer has founded and launched several tech-related businesses. In 2013, he co-founded and served as CEO of 3DLT. The company provided a platform for 3D printing as-a-service, helping Amazon, Walmart and other global retailers sell digitally manufactured products, online and in-store. In 2015, he founded Get3DSmart, a consulting practice which helps companies innovate with 3D printing and other related technologies. Give us some background on how you’ve gotten to this point.
What initially got you interested in tech journalism in particular?
In general, why are you interested in 3D printing?
How has journalism helped you in your entrepreneurial career?
What are some big trends in 3D printing media that you are kind of looking out for in the media or with 3D printing in general in the media?
Customization is pretty cool it when it comes to 3D printing – what are you thoughts on specific industries that can really benefit from customization? Please enable JavaScript to view the comments powered by Disqus. Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 25, 2019 at 08:24AM Maskless Microfabrication: Nanoscribe Releases Quantum X http://bit.ly/2Rw5tz4 Germany-headquartered Nanoscribe has just announced the formal release of their Quantum X device, presenting the new technology at the LASER World of Photonics in Munich (running from June 24-27). Continuing in their mission to target industrial users engaged in microfabrication endeavors, this launch expands on their additive manufacturing systems for nano- and microscale projects. The Nanoscribe development team created Quantum X specifically for highly-precise micro-optics, offering a powerful combination with grayscale lithography and two-photon polymerization technology.
Nanoscribe created this new technology in response to the high demand for manufacturing in applications like:
Microfabrication work can be completed quickly and accurately, relying on three cameras for live monitoring and process control. Users can look forward to benefits like faster development, shorter design iteration cycles, greater affordability, rapid production, and a more expedient printing process overall. Nearly any 2.5D shape can be created on the microscale, a feat Nanoscribe states was previously impossible, now ‘paving the way to new or strongly enhanced optical elements from imaging, illumination, to sensing.’ Multilevel diffractive optical elements (DOE) are produced in one scanning plane, as laser power is modulated—resulting in excellent contouring capabilities for more efficient fabrication of:
A touchscreen is built-in for monitoring jobs, adjusting parameters, and seeing the print in real time—along with a software wizard that guides users through the entire cycle of a print job. The software will accept images of optical designs up to 32-bit resolution like BMP, PNG, or TIFF. A wide range of feature heights are possible in each scan field, and quasi-continuous topographies can be manufactured in one step. The AM approach allows users to expand beyond traditional limitations in height, throughput, and resolution.
Nanoscribe has been a dynamic presence in the world of printing and microfabrication for years, growing with one innovation after another—from extensive collaborations to a variety of different technologies and processes. What do you think of this news? Let us know your thoughts! Join the discussion of this and other 3D printing topics at 3DPrintBoard.com. [Source / Images: Nanoscribe] Please enable JavaScript to view the comments powered by Disqus. Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com June 25, 2019 at 04:24AM |
Categories
All
Archives
April 2023
|