At Edge, we have a team of material experts ready to provide recommendations for your specific applications. With a wide range of available materials, we can guide you to the right solution. We regularly assist customers in choosing the correct materials to resolve challenging technical issues, such as: - the need for excellent optical transparency while still being thermoformable - the requirement for low non-specific binding of proteins or cells while still offering good adhesion to pressure-sensitive adhesives (PSA) Visit our Material Recommendations page for more information on how we can help you: https://lnkd.in/e9a5T8Qk #MaterialScience #Thermoplastics #Engineering #Innovation #MaterialSelection #ProcessEngineering
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Did you know? Hauschild Engineering's dual asymmetric centrifuge (#DAC) technology is a significant advancement in #mixing equipment. Unlike traditional mixers that use #symmetrical rotation and moreover blades, this technology utilizes rotation/counter-rotation, creating a unique stirring motion that ensures thorough mixing and deaeration. One of the main advantages of this technology is its ability to handle a wide range of #materials - from low-viscosity liquids to high-viscosity pastes or powders. This versatility makes it an ideal choice for various industries ranging from pharmaceuticals and cosmetics to ceramics and adhesives.
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Liquid Crystal Polymers (LCPs) are a distinctive class of materials that can maintain molecular order in both liquid and solid states. LCPs exhibit two distinct phase changes: the transition from solid to liquid crystal and, subsequently, the transition from liquid crystal to full liquid. In this chapter of the Engineering Thermoplastics guide, we discuss the research in the field of thermoplastics focused on the exploration of new formulations, like thermoplastic elastomers and liquid crystal polymers. Learn more: https://wevlv.co/3TyllCP #thermoplastics #materials #crystalpolymers #liquidcrystalpolymers #elastomers #polymers
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Elevate Your Research with the Lab Polypropylene 0.3ml Micro Vial! Step into a world of precision and efficiency with our Lab Polypropylene 0.3ml Micro Vial. Engineered to exceed expectations, this exceptional vial brings unparalleled value to scientists and researchers. Let's explore the remarkable features that make these micro vials an indispensable asset for your laboratory: Unmatched Quality: Crafted from premium polypropylene, our micro vials deliver exceptional chemical resistance and durability, ensuring the utmost integrity of your valuable samples. Secure Closure: The 9mm screw neck design guarantees a tight seal, eliminating the risk of sample leakage or contamination, providing peace of mind during storage and transportation. Versatile Options: Choose between clear and amber vials to accommodate diverse sample types, while safeguarding light-sensitive substances from degradation. Optimal Capacity: With a capacity of 0.3ml, these micro vials are perfectly suited for storing and transporting small liquid samples, minimizing sample waste and optimizing experimental efficiency. Seamless Compatibility: Our micro vials integrate seamlessly with various laboratory instruments, enabling smooth and precise workflows, elevating your research to new heights. Enhanced Sample Protection: The clear vial option allows for easy visual inspection, while the amber vial option provides robust protection for light-sensitive samples, ensuring reliable and accurate results.
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Here you can see the little sister of our 100-liter Pilot Reaction System based on a double-walled 20-liter vessel. All specifications can also be transferred to smaller vessels. Whether it's a dead space-free bottom outlet valve, additional connections at different heights, the stirrer, the valves and sensors or the horizontal spiral reflux condenser. Almost all the equipment is the same, it just had to be adapted to the vessel size. This modular design enables us to adapt standard systems precisely to your processes and needs. Want to know more? Then book your consultation appointment: https://lnkd.in/dDiy8AmM Send us an email: Sales-NORMAG@pfaudler.com Give us a call: +49 3677 2079 0 Or reach out to your known contact person directly and download the contact details to your mobile phone: https://t.ly/8rS0K Also available via WhatsApp. #reaction #mixing #filtration #distillation #extraction #absorption #adsorption #laboratoryglass #lab #borosilicate #pharmaceuticalindustry #chemicalindustry #production #chemicalengineering #engineering #science #glassware #chemical #pharma #research #bigmoves #GMMPfaudler #Normag #system #technology #chemicalsynthesis
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At Elementale Enterprises, our expertise in online polymer measurement optimizes batch processes, minimizes waste, and increases production throughput. We offer custom flanges and mounting methods for precise analyzer process connections, ensuring accurate control of your polymer line. Real-time process analysis is crucial for optimizing production and reducing costs. Utilizing both Near-Infrared Process Spectroscopy and Viscometry, we determine the physical properties of polymers with real-time measurements of chemical reactions. In collaboration with companies like Process Insights Insights/Guided Wave and Sofraser , we introduced a dual-measurement probe that integrates high-accuracy real-time viscosity and temperature data into the spectrometer system. This allows for seamless connection to a control scheme, ensuring optimal mixing, reducing waste, and maximizing yields. Want to know more about how we can help you reduce waste and maximize yields? Email us at info@elementale-ent.com for more information. #polymerization #viscosity #spectroscopy #measureandcontrol #processoptimization
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POLYMERIZATION CASE STUDY: Polymerization processes are the backbone of many industries, yet traditional control methods often fall short, relying on infrequent lab tests that are indirect and imprecise. Enter the Spectrally X1 fiber-optic probe device – a game-changer in real-time process monitoring! 🛠 Challenges with Traditional Methods: - Indirect and imprecise monitoring - Reliance on rare lab tests focused on atoms rather than chemical bonds - Problematic chemical preparations - High error rates due to byproduct measurements Spectrally X1 Solution: 🔗 Real-Time Monitoring: Collects process signals directly and automatically 🔗 Focus on Chemical Bonds: Accurately distinguishes monomers from polymers 🔗 Automated System: Eliminates the need for specialized personnel Implementation Stages: Customer Needs Analysis: Personalized solutions with on-site assessments Feasibility Study and Bid: Tailored inline, online, offline monitoring solutions Implementation: System development, on-site testing, staff training, and ongoing supervision 🌱 Benefits to the Company: - Optimization: Continuous evaluation and process improvement - Waste Reduction: Minimize malfunctions and save raw materials - Improved Product Quality: Stable production conditions for consistent quality - Increased Profitability: Shorter production processes and reduced costs Measurable Benefits - see attached graphic 📉 Implementing the Spectrally X1 fiber-optic probe device transforms polymerization processes, optimizing efficiency, reducing waste, improving product quality, and boosting profitability. Join us in embracing advanced real-time monitoring technologies for a more competitive and sustainable industry future! #Polymerization #RealTimeMonitoring #industry #quality #qualitycontrol
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In the realm of engineering excellence, one solution stands out for its unmatched versatility and reliability – Silicone Tubing from NewAge Industries. Allow me to shed light on the numerous benefits this innovation offers in various critical applications. 1️⃣ Enhanced Performance: NewAge's silicone tubing showcases remarkable flexibility and durability, making it an ideal choice for diverse industries. Its ability to withstand extreme temperatures, chemical exposure, and UV radiation ensures consistent performance in challenging environments. 2️⃣ Seamless Compatibility: Silicone tubing's chemically inert nature ensures compatibility with a wide array of substances. Whether it's fluids, pharmaceutical compounds, or food products, rest assured that purity and integrity will be maintained. 3️⃣ Longevity & Resilience: Designed to endure, NewAge's silicone tubing exhibits exceptional resistance to deformation, kinking, and compression. This remarkable resilience translates to prolonged service life, reducing maintenance costs and downtime. 4️⃣ Safety & Biocompatibility: In critical sectors like healthcare and biopharmaceuticals, safety is paramount. NewAge's silicone tubing is non-toxic, odorless, and biocompatible, making it a reliable choice for any fluid transfer system. 5️⃣ Electrical Integrity: As a trusted electrical insulator, silicone tubing safeguards sensitive electronic components from interference and environmental stressors, ensuring optimal performance in various electronic applications. 6️⃣ Precision Engineering: At NewAge Industries, precision engineering meets cutting-edge material science, resulting in a product that meets the highest quality standards, adhering to stringent industry regulations, including being ISO 9001:2015 certified. Embrace the boundless potential of NewAge's silicone tubing in your critical applications. For more information and to explore the various options of silicone tubing, visit NewAge Industries https://hubs.ly/Q02dZ_9p0. #fluidtransfer #foodandbeverage #silicone
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Mass Transfer Characteristics in Disposable Rocking Bioreactors: A Critical Review and Quantitative Data Catalogue Disposable rocking bioreactors allow for efficient surface aeration of culture medium via 1D, 2D, or 3D oscillatory movements, as opposed to traditional bioreactors equipped with an internal mechanical stirrer(s) supporting aeration of culture medium supplied by spargers or tube diffusers. This review is a critical summary of the methods for determining values of the quantitative parameters characterizing mass transfer efficiency in rocking bioreactors, i.e., the kLa coefficient, mixing time, and power input per volume. The thematic overview is supported by an extensive catalogue of quantitative data on those parameters achieved for various disposable rocking systems equipped with polymer film-based containers. Mass transfer efficiency in the rocking bioreactors is characterized by the following values: 0.1–20 h−1 for the kLa coefficient, 5–1000 s for mixing time, and 10–700 W·m−3 for power input per volume. https://lnkd.in/gjrKd7DR #aspenalert #biotech #bioprocess
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🔬Chemical Storage Cabinets play a crucial role in maintaining a safe and organized lab environment. Our latest blog post outlines the key factors to consider when choosing a chemical storage cabinet. JEIO TECH’s top-of-the-line cabinets are designed with safety and efficiency in mind. Learn more at the link below. (Blog 👉🏻) https://lnkd.in/gSkqh_3u 🌟 #JEIOTECH #LabCompanion #laboratory #ChemicalStorage #LabSafety #SafetyFirst
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