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"Experiencing polymer failures in critical components? Element's polymer failure analysis services provide comprehensive investigations into root causes using advanced methods such as FTIR, GC-MS, and SEM. Our expertise spans various sectors worldwide, and we're trusted to prevent catastrophic failures. We deliver the data you need to implement corrective actions, limit damage, and prevent similar recurring product failures in the future. Learn more: https://ow.ly/FWWp50QCZia #PolymerAnalysis #FailureInvestigation #ElementExperts"

Experiencing polymer failures in critical components? Element's polymer failure analysis services offer in-depth investigations into root causes using advanced methods like FTIR, GC-MS, and SEM. We're trusted to help prevent catastrophic failures, delivering the data needed to implement corrective actions, limit damage, and prevent similar re-occurring product failures in the future. Learn more: https://lnkd.in/dTzjxTTa #PolymerAnalysis #FailureInvestigation #ElementExperts

Experiencing polymer failures in critical components? Element's polymer failure analysis services offer in-depth investigations into root causes using advanced methods like FTIR, GC-MS, and SEM. We're trusted to help prevent catastrophic failures, delivering the data needed to implement corrective actions, limit damage, and prevent similar re-occurring product failures in the future. Learn more: https://lnkd.in/dTzjxTTa #PolymerAnalysis #FailureInvestigation #ElementExperts

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

NEW Gilson Insights! Every stage of sampling, dividing, and testing granular material is affected by its flow properties. Understanding a particular material and the unique factors that impact its flowability increases the efficiency and accuracy of your laboratory testing and can even help control your budget. In this article, we discuss what equipment is best suited for your testing application. Read article https://bit.ly/3LeSy1k

Equipment Gyaan #1 - Differential Scanning Calorimetry (DSC) Differential Scanning Calorimetry (DSC) is a thermal analysis technique in which the heat flow into or out of a sample is measured as a function of temperature or time, while the sample is exposed to a controlled temperature program. It is a very powerful technique to evaluate material properties such as glass transition temperature, melting, crystallization, specific heat capacity, cure process, purity, oxidation behavior, and thermal stability. Key elements of DSC analysis 1. Characterizes thermal phase transitions (e.g. melting, crystallization, Tg) and measuring heat of fusion and heat of crystallization. The information can be used to determine best processing temperatures, obtaining thermal fingerprints of the materials; comparing thermal properties of the materials with different performance (ASTM E 793-06; ASTM E 794-06) 2. Determines specific heat capacity (ASTM E1269-11) of pure compounds or mixtures 3. Determines purity of relatively pure substances (ASTM E 928-08) 4. Determines phase separation of polymer blend, copolymers 5. Characterizes cure process, glass transition temperature of the cured sample and residue cure 6. Performs Oxidation Induction Time (OIT) (ASTM D 3895) 7. Modulates DSC to determine weak subtle transitions and to separate overlapping thermal events 8. Assesses thermal stability (ASTM E 537-12) 9. Prepares kinetic study of chemical reaction or decomposition (ASTM E 698-11) ------------------- Book your DSC test now on www.orneklabs.com #dsc #testing #rnd #polymers #polymerindustry #plasticsindustry #plastic #research #development #rubberindustry #rubber #elastomers #crystallization #fusion #oxidation #chemicalreactions

New product：laboratory high shear emulsifier Laboratory high shear emulsifier is a lab machine designed for small quantity experiment in lab. It narrows the particle size of Liquid-liquid and liquid-solid materials through external mechanical force and distributes one phase materials into another phase or many other phases evenly to realize good homogenizing, dispersing and emulsifying result.#Laboratory #homogenizing #emulsifying #mechanical

IIA can help when you need answers about the polymers in your products. Our lab experts provide data and information that can aid in quality control and product improvement. Our analysis methods include: - Chemical composition analysis for data required for reverse engineering and quality control - Wear testing to establish the limits of your polymer - Failure analysis to identify the root cause when a polymeric material doesn't perform as intended or designed Learn more about applications for polymer analysis and how IIA can help at https://bit.ly/3RsuFWA

📄 Read this FREE article to see how you can optimize #workflows for advanced materials analysis of electronic components. Efficient and reliable cross-section preparation and #microscale visual and #chemical analysis are achieved with the EM TXP and #DM6 M #LIBS solutions. Learn more!

An analytical balance is a highly accurate laboratory balance designed to determine an object’s mass precisely. The objects could be solid, liquid, granular substances, or powders. It is also known as laboratory balance which is class II balance. The balance is extremely sensitive since it provides precise measurement having readability of up to 0.00001 grams (0.01 mg), and is often used in labs. It detects the weight of an object of 100g to within ± 0.01 mg. Parts of Analytical Balance with Functions : • Balance plate (Pan)- A container to bold the sample material for mass measurement. • Weights- It enables the calibration of analytical scales. • Power button (on/off button)- It is used to activate or deactivate the balance. • ‘Re-zero’ or ‘Tare’ button- It is used to rebalance the system and bring it back to neutral (zero) •‘Mode’ button- It is used to configure the measurement conversion system such that the conversion system can be changed as necessary. • Draft shields- These are incorporated into the design of analytical balances to offer protection from outside factors such as air flows and dust that could compromise precision. • Level adjustment feet- These enable the balance to be brought to the reference position. These are movable legs. The leveling bubble, spirit level, or plumb bob determines the reference position. • Level indicator- It checks the balance in level. • Display panel- It displays various information such as results, errors, information for function settings, and function in progress. #balance #laboratoryequipment #chemical #laboratory