Tomorrow is our DeviceTalks Tuesday webinar with nitinol expert Dr. Scott Robertson: Demystifying Nitinol Shape Setting, at 4:00 pm EDT. In this webinar, He will discuss: - How shape setting times and temperatures impact the transformation temperatures and plateaus stresses of nitinol. - How to adapt processing recipes to accommodate lot-to-lot variability. - What variables in shape setting may need to be considered when qualifying second supply sources of raw materials. - Where TTT and TTS diagrams can be utilized to shorten the design optimization window. Register for the webinar here: https://hubs.ly/Q02D32VB0
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Join us for a webinar, Demystifying Nitinol Shape Setting with Resonetics expert, Dr. Scott Robertson on Tuesday, June 25th at 4:00 pm. This talk will be debuting modern TTT and TTS diagrams, and teach you more about how these valuable tools can be leveraged to accelerate your nitinol design and development process. In this webinar, you will learn: - How shape setting times and temperatures impact the transformation temperatures and plateaus stresses of nitinol. - How to adapt processing recipes to accommodate lot-to-lot variability. - What variables in shape setting may need to be considered when qualifying second supply sources of raw materials. - Where TTT and TTS diagrams can be utilized to shorten the design optimization window. Register for the webinar here: https://hubs.ly/Q02CrHNR0
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LAST CHANCE TO SIGN UP...🔬 Excited to dive into the world of Microelectronic Device Material Preparation! Join us for our webinar. Microelectronic components present a unique challenge for materialographic preparation. In microelectronic components, various materials with widely differing properties are packaged together (glass, ceramics, metals, and polymers), so preparing all materials well can be difficult. Additional complications arise from the small size, complex geometry, and need for controlled material removal to reach a plane of interest. In this webinar, you will learn about: 👉Challenging clamping of complex and small samples 👉Vacuum impregnation to fill vias with epoxy resin 👉Controlled material removal to reach a plane of interest 👉Excellent scratch-free preparation of materials with varying properties Don't miss out on this opportunity to expand your expertise in microelectronics material preparation – sign up by scanning the QR code.
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Wondering what type of surface finish is right for your parts? In this episode of our new surface finish series we dive into the ‘as machined’ finish. You’ll learn where the 'as-machined' finish excels, including: ● Prototyping ● Structural parts ● Adhesive bonding ● Powder coatings We also shed light on instances where this finish might not be the optimal choice, such as with: ● Aesthetically critical parts ● Low friction applications ● Food or pharma equipment ● Optical and electronic devices ● Bearings and rotating parts ● Fluid dynamics So, go ahead and hit the play button to find out if an 'as-machined' finish is the perfect match for your upcoming project! https://hubs.ly/Q023xf2f0
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Update: Xometry recently introduced the Tool Library & Tool Details Pages, offering unprecedented visibility into tooled processes, from die casting to metal extrusion. Learn how to navigate this new feature today: https://loom.ly/5QuGQ-U
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Dielectric layers such as silicon nitride (SiNₓ) and silicon dioxide (SiO₂) on silicon carbide (SiC) wafers are considered essential for next-generation semiconductor technologies. Read the below article to request our latest application note which explores the successful characterisation of dielectric layers on SiC for next-gen semiconductor applications using the SENTECH SENDURO®MEMS. #semiconductorindustry #research #siliconcarbide #applicationnote
Learn more about our successful characterisation of dielectric layers on silicon carbide (SiC) wafers using the SENTECH SENDURO®MEMS. We have added an article to our website where you can read the latest research from our application team into using ellipsometry for quality control and process optimisation during the fabrication of dielectric layers and stacks in SiC-based devices and request a copy of our brand new application note. https://shorturl.at/SE1tN #semiconductorindustry #research #siliconcarbide #applicationnote
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Experienced Global Leader | Engineering Projects | Polymer Consultant-Expert in Type 4 Composite LPG/CNG/H2 Cylinder Technology | Personal Branding Strategist
Today's KNOWLEDGE Share Why do thick parts need more packing than thin ones ? Packing changes the parts size/volume/mass, but not the final density. Whatever is already solid at the end of fill (frozen skin) does not need any packing (shrinkage has already occurred !). So, as the picture shows (in a slightly exaggerated way) in a thin part/section one only has to pack a tiny fraction of the total volume, whereas in a thick part/section, most of the volume will need to be packed, to compensate for the shrinkage. Since thick parts are easy to fill and need more packing, it is not unusual to use a packing pressure much higher than the filling pressure. Something that might not fit the default values proposed by simulation... Always think twice before accepting a default value. Source:Vito leo Follow: https://lnkd.in/fcSeK9e
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Asset administration shells and their submodels pave the way for interoperable production, containing standardized descriptions of production asset characteristics and serving as the basis for a common language. This article presents submodels that include the technical data of an injection molding machine, an injection mold, a hot runner device, and a temperature control unit and are published as IDTA specifications. You can read the full articel at (P+): https://brnw.ch/21wJBwZ Text: Patrick Sapel and Christian Hopmann (both Institut für Kunststoffverarbeitung (IKV) in Industrie und Handwerk an der RWTH Aachen
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I am delighted to share the first publication from the Layer-by-Layer project I have been working on with James Kratz. This work presents a novel additive manufacturing process for thermosetting CFRP, and favourably compares the quality of laminates produced with it to laminates produced by hot-pressing. If you are interested in additive manufacturing of CFRP and porosity analysis, give it a read (10 mins), and keep your eyes peeled for further publications. These will focus on the benefits of this manufacturing process in terms of exotherm management when manufacturing ultra-thick laminates, and the cure path dependency of material properties such as Tg and GIC. https://lnkd.in/edDPt6wW
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🚀 Introducing Our New Video - "XRF for Metal Plating: How Does it Work?" 🚀 We are thrilled to share our latest video with you all. At SciMed, we're committed to providing invaluable insights to professionals in the metal plating industry. Our new video, "XRF for Metal Plating: How Does it Work?", is a must-watch for anyone looking to enhance product quality and optimize their plating processes. 🎬 📽️ Video Highlights: 🔍 Introduction to X-Ray Fluorescence (XRF) analysis 🛠️ The role of metal finishing in the manufacturing process 📏 Why XRF is indispensable for plating thickness 🔬 Practical demonstration using the BOWMAN P-Series XRF system 📊 Results review and conclusion In this video, you'll gain a comprehensive understanding of XRF analysis and witness firsthand how it seamlessly integrates into your operations. Watch as we demonstrate the user-friendly BOWMAN P-Series XRF system, designed for assessing plating thickness and composition. 👁️🗨️ Key Takeaways: 🔍 Learn the principles behind XRF analysis – it's simpler than you think! 🔬 📏 Discover how XRF provides accurate measurements of plating thickness. 🏭 See how the BOWMAN P-Series simplifies the analysis process in a busy production environment. 🧪 Explore the versatility of XRF systems in various applications, including elemental analysis of liquids. If you're as excited as we are about this video, please like and subscribe to our channel to stay updated on future how-to videos. Stay tuned for more informative content! 🤩 For more information about our XRF for Metal Plating, our specialists are just a call, live chat, or email away: 📲 Call Us >> 0161 442 9963 💬 Live Chat >> https://bit.ly/3xJKizO 📨 Email Us >> enquiries@scimed.co.uk Visit our Linktr.ee/scimeduk for additional resources and details. 🌐 Let's elevate the quality and precision of your metal plating processes together! 🛠️ #XRFAnalysis #MetalPlating #QualityControl #SciMed #BOWMAN #Manufacturing #XRFTechnology #NonDestructiveTesting #MaterialCharacterization #PlatingThickness #CorrosionResistance #ElementalAnalysis #ProductQuality #PlatingBathSolutions #ManufacturingIndustry Bowman XRF
XRF for Metal Plating: How Does it Work?
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While Metal Injection Molding excels at producing highly complex metal parts, the technology is often limited to its uncertainty of isotropic shrinkage and part size capacity. Utilizing Tundra's Dynamik® high particle concentration materials, DSB is enabling the production of larger, complex MIM parts - up to 450g - and the assembly of components that are traditionally too large for traditional MIM. Learn more about our 3DM™ technology here: https://hubs.li/Q02d4qG50
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