To achieve nanometer level precision in motion control, it is important to appreciate the effects of phenomena like constant velocity dither. Find out what constant velocity dither is, how it affects motion control systems, and what ALIO does to overcome issues associated with it. https://lnkd.in/e6iPr4mD #constantvelocitydither #motioncontrol #precisionengineering #truenano
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This measuring machine is capable of seeing nanometer size features. That is a billion times smaller than the size of the object shown in the image below. #MindBlown
Some of our customers make VERY large products. We help to inspect them at nanometer levels. Learn more here: https://lnkd.in/gDFu4ris #microscopy #motioncontrol
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RheoSense VROC (Viscometer Rheometer on a Chip) vs traditional viscometers: https://lnkd.in/eGKFEZJx
Different Ways to Measure Viscosity
blog.rheosense.com
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Content and Marketing Strategies || Cross-border sales of advanced equipment and raw materials_Mappes.io- World's first product network exclusively for Manufacturers.
With Mappes.io, it's always a pleasure discovering, exploring and marketing amazing technologies like #pltools that are driving India's #solar self sufficiency. Most manufacturers are aware of the #EL and #PL imaging tool as an metrology equipment used for #QA of a finished #solarcell or #solarmodule. But, these technologies, especially photoluminescence (PL) tool can identify defects throughout the solar module manufacturing process, right from bare wafers, to processed wafers to a finished product. This early identification ensures high quality output that translate into highly efficient solar panels. Jason Miller, from BT Imaging Pty Ltd talks about their offline tool that can identify at various stages, including raw wafers, textured wafers, diffusion-processed wafers, LDSE wafers, pre-annealing processed wafers, PSG and polished wafers, post-annealing processed wafers, rear and front passivated wafers, & printed solar cells. https://lnkd.in/gRAVjd2T
BT imaging's PL tool for solar cell and module manufacturing
https://www.youtube.com/
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Start your semiconductor content hub tour now >>
Our new content hub is ready! 🚀 We have prepared a bunch of applicative pieces of content around our SEMIFLOW clamp-on flow meter for the semiconductor industry. This exclusive content section takes you into the world of our non-invasive ultrasonic sensors and shows you the exciting applications in which SEMIFLOW is used: ➡ Flow Measurement in CMP ➡ Slurry Blending for Chemical Mechanical Planarization ➡ Ensuring Highest Quality in Chemical Distribution Systems ➡ Wafer Cleaning in Semiconductor Manufacturing ➡ Liquid Flow Measurement in Photolithography Start your content hub tour now! https://lnkd.in/dhNcGmEg #semi #semiconductor #flowmeasurement #flowmeter #sensors #SEMIFLOW #contenthub --- SONOTEC is specialized in non-contact and non-invasive ultrasonic flow meters and bubble detectors in flexible tubes and hard plastic pipes for the semiconductor, biotech and medtech industry. SONOTEC GmbH - #Ultrasound is our Strength
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Have you ever wondered what lies beneath a battery’s sleek exterior? 🕵♂️ Non-destructive testing (#NDT) with X-ray technology is the only method that makes the inner structures visible without damaging the object itself, and even batteries already installed in devices can be examined safely and accurately without being removed. We are excited to share this white paper on battery insights, which will showcase the latest capabilities of CT hardware and software for industrial applications. You will both learn about the use of CT for battery inspection as well as how CT can help your industry save costs ✅ , reduce risks ✅ , and save time ✅ in manufacturing. Don't miss out on the chance to download this white paper now! ⬇ https://lnkd.in/eEQWmj7m #CometYxlon #Batteries #Automotive #Inspection #Manufacturing
What is inside a battery cell? | Nils Achilles
yxlon.comet.tech
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The Spherical Target for Extrinsic Calibration (STEC) is for the extrinsic calibration of the 3D sensors from AT – Automation Technology GmbH. Calibrations can be carried out with the target using the SolutionPackage, which users can download free of charge. The process increases measurement accuracy by correcting transport errors and transforming all scans into a common coordinate system. For even greater precision, it is recommended to request the version with measurement report, as calibration works best when the exact positions of the ball centers are known. https://lnkd.in/eupNjE5a #3dscanning #metrology #qualityassurnace
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1. Discover the Origin: The PERMASCOPE® has a rich history dating back to the 1950s, serving as a pioneer in the measuring industry. 2. Innovative Technology: It introduced a non-destructive magnetic inductive measuring method for analyzing paint on steel and iron, setting new industry standards. 3. Fascinating Manufacturing: Imagine a time when materials were sourced from military stocks, and scales were drawn by hand to create precise sensors for coating thickness measurements below 5 µm. 4. Versatile Applications: Originally designed for automotive and electroplating industries, it has found applications in corrosion protection and various industrial fields. 5. Evolution Over Time: The PERMASCOPE® has evolved from a tabletop device to a modern, handheld instrument, making it more versatile and user-friendly. 6. Continuous Improvement: The probe has undergone continuous development, adapting to the digital age with new software functionalities and optimizations. 7. Proven Reliability: Today, the PERMASCOPE® is a trusted Fischer measuring instrument, used worldwide to deliver precise and reliable measurement results. 8. Ensuring Safety: Its role in coating thickness measurement is vital, ensuring safety and quality in various industries. 9. Global Impact: The PERMASCOPE® is making a difference worldwide, serving customers with top-notch measurement solutions. 10. Join the Legacy: Learn about the legacy of the PERMASCOPE® and how it has paved the way for advanced measurement technology.
Do you already know the history behind the PERMASCOPE®? No? Then be sure to read on! 💡 The PERMASKOP was the very first measuring instrument made by Fischer and a real pioneer in the measuring industry of the 1950s due to the non-destructive magnetic inductive measuring method for the analysis of paint on steel and iron. 🕵🏽♂️ The manufacturing process of the devices of that time is hardly imaginable nowadays: The material used came from military stocks, scales were drawn by hand and simple nails were turned into precise sensors for coating thickness measurements below 5 µm! 😲 The device was used then as it is today in the automotive industry, the electroplating industry, in corrosion protection and in many industrial applications. Over time, it has become increasingly handy, robust and modern. PERMASKOP became PERMASCOPE®, the tabletop device became a hand-held device, and single-item production became series production. The probe has also been continuously developed over the years and, in the course of digitalization, software has now also breathed new life into the device. 👨🏽💻 With new, clever functionalities and optimizations, it finally became the proven and handy Fischer measuring instrument we know today. In use all over the world, it delivers precise and reliable measurement results and ensures the necessary safety in coating thickness measurement for all our customers. 💯 Learn more about the beginnings of Fischer measurement technology: https://lnkd.in/eH6Fv_zE #fischer #throwback #technology
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PhD in neuroscience and molecular biology | Scientific Writing & Digital Marketing | Microfluidics Innovation Center
I am thrilled to share the first review that I published on the Elveflow website! 🚀 Writing this review was both challenging and rewarding. I got to discover the microfluidics field, analyze the unique features of various flow sensors on the market, compare them, and bring it all into a coherent review. 🌊🔍 If you're curious about how integrating these flow sensors into a microfluidic system can enable precise measurement of low flow rates, this review is a must-read. #Elveflow #Microfluidics #FlowSensors #FlowController
In today’s rapidly evolving world, precision and efficiency are paramount in manufacturing and healthcare industries. Flow sensors are crucial elements of microfluidic systems to measure low flow rates. Combining a flow controller system with a flow sensor will allow you to accurately control the liquid flow in your experiment. This review provides insights into the different flow sensor devices available on the market, the pros and cons of each one, and helps you choose the adequate one for your experiment. #Elveflow #Microfluidics #FlowSensors #FlowController #LiquidFlow #Comparison
Pros and cons of different microfluidic flow sensor types: a review 2023
https://www.elveflow.com
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Watch eVoS™ bias technology in action: this video goes inside the plasma chamber to illustrate how eVoS’s ability to tailor ion energy enables precision application of voltage and current for nanometer #semiconductor device geometries. Control of wafer-surface voltage with a narrow ion energy distribution (IED) empowers process engineers to optimize bias voltage for superior process results, ensuring precision feature formation. See how these capabilities change what’s possible in plasma processing. #AngstromEra bit.ly/3O4UpXW
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In view of increasing quality and efficiency requirements, higher stacking speeds and ever thinner separator films, the wbk Institute of Production Science at the Karlsruhe Institute of Technology (KIT), in cooperation with Siemens Digital Industries, has simulated and validated a Z-folding machine using the #Simcenter #Amesim simulation software. The researchers’ aim is to optimize not only the alternating stacking process itself, but also its integration into the battery cell production process – for greater efficiency and fewer rejects. And the initial results of the project are impressive: among other things, it was possible to significantly reduce waste during commissioning and machine set-up as well as during material changes.
Battery cell production: Optimized stacking through intelligent simulation | Siemens Blog | Siemens
blog.siemens.com
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