Proceedings of the IEEE’s Post

🏰 Is it possible to 3D print an entire castle on the tip of a pencil? For the team at NanoVoxel, it’s not just possible—it’s reality. Specializing in two-photon polymerization (2PP) 3D printing, NanoVoxel achieves prints as small as a few microns. 🤯 In a recent episode of Masters of Engineering, NanoVoxel CEO Domenico Foglia joins Jon Hirschtick to explore the groundbreaking technology behind microprinting, the current state of the industry, and the exciting future of 2PP. Listen to their full conversation 👉 http://onshp.co/kk

Join our webinar with experts from Stratasys and Materialise to learn about the advantages of stereolithography 3D printing for large scale master pattern production and how to expedite the investment casting process. What You’ll Learn: - Traditional investment casting process overview - SLA 3D printing benefits for master pattern production - How Stratasys and Materialise's solutions enhance the Investment Casting Process Register today: https://okt.to/KSzJPC Eric Yeung , MBA John Paul Velasco #addstratasys #MakeAdditiveWorkForYou

3D Metal Printing is the future

Join us at our webinar where experts from Stratasys and Materialise will provide a deep dive on the benefits of stereolithography 3D printing for large scale master pattern production, and the tools that can help speed up the investment casting process. What You’ll Learn: - Overview of the traditional investment casting process - Benefits of SLA 3D printing for master pattern production - Insight on how Stratasys and Materialise's combined solutions streamline and speed up the Investment Casting Process Register today: https://okt.to/OmIC3t Eric Yeung , MBA John Paul Velasco #addstratasys #MakeAdditiveWorkForYou

Are you designing parts that require intricate details, micro-scale accuracy, or ultra-thin walls? Projection Micro Stereolithography (PµSL) offers groundbreaking capabilities for micro 3D printing. With features as small as 10 microns, it’s ideal for applications where fine detail and high resolution are essential. From medical devices and electronics to micro-mechanical parts, PµSL enables innovations that were previously impossible. Find out more: https://buff.ly/41bJ9Rf #3DPrinting #Micro3DPrinting #PrototypeProjects #Innovation #PµSL #MicroSLA #ProjectionMicroStereolithography

Our low loss volumetric optical interconnect paper was published in Optica https://lnkd.in/gzVc-QyS There is also a news article that summarizes the work: https://lnkd.in/gBJZNbhJ We address the important challenge of fiber-to-chip packaging by 3D printing free form micro-optic elements and waveguide-based photonic devices within the volume of a porous silica film. By analyzing the dominant sources of loss, we developed mitigation strategies and realized efficient fiber-coupled optical interconnects. Potential applications include signal routing and multiplexing for computers and data centers.

🚀 Check out our latest publication in Advanced Intelligent Systems! We've developed a straightforward method, the #InfoamMethod, for fabricating sensorized foam-like soft actuators. 🔧 Our approach utilizes a homemade screw extruder FDM printer for 3D printing super soft thermoplastic elastomers. However, any FDM 3D printer can be used with the liquid rope coiling technique described in our paper. 📈 Similar to other piezoresistive sensors, these sensor-integrated actuators exhibit nonlinearities and hysteresis in their resistance change. My PhD student, Nick Willemstein, has demonstrated a novel solution using system identification. By employing identified Wiener–Hammerstein (WH) models, we can effectively estimate strain from resistance changes. https://lnkd.in/eCi3hSHq #SoftRobotics #3DPrinting #SoftActuators #AdvancedIntelligentSystems

We are delighted to share our latest publication highlighting the importance of transfer learning in 3D printing defect detection. Detecting in-situ micro-defects in Laser Powder Bed Fusion is a difficult task. Often, state-of-the-art models are simply too large to be used where computational resources are scarce. This paper shows that simpler, lighter models, can be developed and transferred to solve a range of problems in similar domains with a performance that is comparable with the most sophisticated models available. If you are interested in reading our paper please use the following link: https://rdcu.be/dZh7S Muhammad.Ayub Ansari, Samer Mubarak

Light-based 3D printing of functional materials has become an important challenge in modern-day chemistry. The contradiction of printing speed and use of late-Tg chemistries for tough materials in the printing process has been tackled in recent work by Katharina Ehrmann and team using an auxillary wide-meshed methacrylic network. Check out the full publication in Materials Horizons now! https://lnkd.in/ekdSh4MS

Join us at our webinar where experts from Stratasys and Materialise will provide a deep dive on the benefits of stereolithography 3D printing for large scale master pattern production, and the tools that can help speed up the investment casting process. What You’ll Learn: - Overview of the traditional investment casting process - Benefits of SLA 3D printing for master pattern production - Insight on how Stratasys and Materialise's combined solutions streamline and speed up the Investment Casting Process Register today: https://okt.to/MtsHlN Eric Yeung , MBA John Paul Velasco #addstratasys #MakeAdditiveWorkForYou