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Analytical Ferrography is a testing method that separates wear debris and solid particles, making them ready for microscopic examination. It currently holds a prominent position as one of the most powerful diagnostic tools in the field of #fluidanalysis. When performed with precision, it becomes an indispensable resource for detecting and addressing ongoing wear problems in your #industrial machinery. Download our free eBook, "The Forensic Science of Oil Analysis" to learn more: https://bit.ly/3wzIbeZ #advancedoilanalysis #testandmeasurement #predictivemaintenance #machinehealth #lubricant #laboratory

pdf Testing Tribocorrosion of Passivating Materials Supporting Research and Industrial Innovation: A Handbook J-P Celis, P. Ponthiaux digsell This first edition of Testing Tribocorrosion of Passivating Materials Supporting Research and Industrial Innovation: A Handbook treats in a clear, concise, and practical manner an important material degradation and protection matter. It is designed as a handbook and provides a well structured approach of the basics needed to investigate the tribocorrosion behavior of passivating materials, … Read More » https://lnkd.in/dR6jMnMq

Battelle published a paper this month showcasing a new flexible dry electrode for biopotential recordings. This achievement by Matthew Colachis and team includes a contribution by our Tuball single wall carbon nanotubes. It is a perfect example of how the flexible and conductive properties of Tuball surpass the limitations of traditional additives. Historically, dry electrodes were stiff, made with metal, and required a liquid hydrogel to create a connection with sufficient signal quality to be useful. Hydrogels can be expensive, they have a limited window of usefulness, and they can irritate the skin during cleaning and removal. A few of my favorite quotes - Tuball has a ratio of length to diameter "unparalleled among other carbon based conductors" Tuball enables the elastomeric electrode to "maintain flexibility while boasting exceptional bulk conductivity." Want to know more about Battelle? I am happy to make an introduction. https://lnkd.in/gS2TfsWh

Structure, surface, shape: make these features of your product crystal clear with particle shape analysis. 💡Find out how and why in this post! In a previous post, we shared information about the importance of particle size analysis. In addition to particle size, analyzing particle shape is essential for understanding material behavior and optimizing product performance. Particle shape has the power to impact many product features: ✅ Surface ✅ Flowability ✅ Abrasiveness ✅ Chemical activity. Particle shape is indispensable in research, formulation and quality control of powders, emulsions, and more! With Bettersize Instruments analyzers, you are guaranteed of reliable, reproducible measuring results - thus ensuring a more efficient process and consistently high product quality. Whichever particle product industry you work in. The Bettersize S3 Plus uses dynamic imaging analysis to map particle shape and provide visual data. The perks of this innovative device? - Dual-camera imaging technology with a measurement range of 2 – 3500 µm - Measurement results via laser diffraction within 1 minute, covering a measurement range of 0.01 – 3500 µm - Combines laser and imaging, providing both size and shape results simultaneously and superb detection of oversized particles - ISO 13320-, USP <429>- and CE-certified. Interested in learning more about particle shape analysis and the Bettersize S3 Plus? Explore our free downloadable knowledge documents here: https://lnkd.in/eh8hgyRg #BettersizeInstruments #qualitycontrol #analysis #particleshape #analis

☀🔬To improve the efficiency of printed #perovskite #SolarCells, our researchers used #microscopy to more easily identify and target infiltration defects. Infiltration, the extent to which the perovskite fills the porous structure of the cell, is critical for optimum performance and stability. Using a microscope is a simple, nondestructive technique that could enable targeted performance enhancement and quality control in future scale-up initiatives. Read the paper here: https://lnkd.in/ekanYrmX 👏Congrats to the authors: Carys Worsley, Tom Dunlop, Sarah-Jane Potts, Rodrigo García Rodríguez, Dr Becky Bolton, Matthew Davies, eifion jewell, Trystan Watson

I am always exited to explore the application of my favorite #laboratory_equipment in #cosmetic_formulation , today I using #IKA_multiDrive_control in mono-phase preparation. To #mix and #homogenize different ingredients together in cold preparation. You have noticed that by the end the mixing step some foam has been created in order to get rid of that I use the IKA_eurox or the magnetic stirrer to achieve this task. But guess what my colleague just told me we have special device you can connect to the system to prevent foam formulation. I can’t wait to try that out. #sciense #technology #cosmetic #laboratory #chemistry #Research_and_development #innovation #formulation #cosmetic_industry #cosmetic_chemistry #business #application_sciense

🔬 Discover the Ultimate Precision with Microlit EasyFill! 🚗💨 Are you tired of struggling with pipette fillers that lack control? Look no further! Microlit EasyFill is here to revolutionize your pipetting experience, giving you unparalleled control just like driving a car in different speed modes - fast, medium, and slow! 🚀🔬 🌟 Why Microlit EasyFill? 🌟 ✅ Speed Modes: With Microlit EasyFill, you can effortlessly adjust the liquid flow rate to match your needs. It's like shifting gears in a high-performance car! ✅ Precise Pipetting: Achieve accuracy like never before, thanks to the fine-tuned control this pipette filler provides. ✅ Ergonomic Design: Its comfortable grip ensures fatigue-free pipetting, even during long hours in the lab. ✅ Easy to Use: Designed with user-friendliness in mind, you'll master it in no time. Experience the joy of pipetting with Microlit EasyFill! Say goodbye to unpredictable liquid handling and hello to smooth, controlled pipetting. 🙌 Don't miss out on this game-changing innovation! Get ready to drive your experiments to success with Microlit EasyFill. 🏁🔬 Abhishek Awasthi Surabhi Awasthi Anand #ScienceInnovation #TechBreakthrough #ScienceArticle #InnovationSpotlight #Research #ScienceNews #TechAdvancement #ScientificInvention #ScienceReads #LabLife #ScienceJournalism #ScienceResearch #FutureTech

Formula in plain English: **Vacuum Pressure (V) = Reference Pressure (Pref) - Measured Pressure (Pmeas)** This means you calculate the vacuum pressure by subtracting the pressure you measure in the vacuum environment from a known reference pressure, typically atmospheric pressure. Our discussion has led to a practical and theoretically sound framework for understanding and measuring vacuum as a unit of pressure. This approach not only aligns with existing physical principles but also enhances our ability to quantify and control vacuum levels in various contexts. By treating vacuum as a pressure difference and using a consistent formula, we can provide clear and accurate solutions across a range of scientific, medical, and industrial applications.

New technical paper, in MDPI's Coating Journal, by co-authors from the Materials Innovation Centre (#MatIC: a University of Leicester-TWI partnership) and TWI's Materials Performance and Integrity Technology Group available now! Porosity poses a challenge to the #mechanical properties of cold sprayed #coatings, especially when it is open or surface-connected, limiting the coatings’ capacity to act as a barrier. Meanwhile porosity formation is dependent on feedstock powder characteristics and cold spray process parameters. In this paper, authors Deepak Sharma, Ali Alperen Bakır, Ahamed Ameen, Dibakor Boruah, PhD and Shiladitya Paul present a #machinelearning-based approach to predicting porosity based on the above-mentioned factors. Follow the link below to read the paper in full. #collaboratetoinnovate #TWIIN

Intek Corp. Explores the Vital Applications of Lab Ovens, From Annealing to Die-Bond Curing In the enlightening source article titled "The Uses of Lab Ovens," the focus is on unraveling the diverse and crucial applications of lab ovens in scientific and industrial processes. Lab ovens play a pivotal role in various fields, contributing to advancements in materials science, metallurgy, medical device manufacturing, and more. One prominent application explored is annealing, a process essential for reducing hardness and increasing ductility in materials such as glass and steel. High-temperature lab ovens find their application in metallurgy, medical device manufacturing, and material science industries, enabling the production of easily cut and shaped materials used in medical equipment like syringes and catheters. Read more: https://lnkd.in/eRRzgm-P