Discovery DSC Unpacking Instructions
Following the packing and unpacking instructions of your instrument is important to the lifetime and performance of your instrument.
DetailsFollowing the packing and unpacking instructions of your instrument is important to the lifetime and performance of your instrument.
DetailsPhiladelphia, Pennsylvania — March 20, 2023 — Waters Corporation (NYSE:WAT) announced a new Battery Cycler Microcalorimeter Solution from its TA Instruments™ Division for high-resolution characterization of battery cells. The instrument and software combination enables non-destructive testing under real-world operating conditions and significantly reduces experiment time from months to weeks, while providing decisive insights for greater battery efficiency, safety, and stability.
DetailsThis work investigates the influence of moisture content and substrate material on the wall friction of carboxymethyl cellulose powder, which is used as an excipient in tablet formulations.
DetailsTA Instruments Powder Rheology Accessory for Temperature Control is used to study a filled epoxy resin for powder coatings. The results show that care must be taken in storage and processing, even at temperatures below the glass transition due to the effects on flowability and cohesion.
DetailsThermogravimetric Analysis (TGA), which provides information about the thermal stability and decomposition rate of materials, is an excellent technique for rapidly comparing the behavior of materials tested with different flame retardants.
DetailsThe Battery Cycler Microcalorimeter solution is an end-to-end, in-operando measurement tool for elucidating the thermodynamic and electrochemical details of battery cells in real time, in a flexible and intuitive system.
Details電池 反覆進行充放電工作至失效不僅耗時,且耽誤數據分析,而這些數據對於開發新電池化學而言非常重要。由於寄生反應足以影響鋰離子電池的性能與壽命,因此測定該反應的活動成為一項持續性的挑戰。原位電化學量熱法是研究這些寄生反應的領先技術。 電池循環測試儀結合微型量熱儀方案 結合靈敏的 等溫微量熱法 與電化學分析。
DetailsOverview In this Tech Tip, we will set up cell constant…
Details節省研究聚合物的時間有許多好處,而且可以透過縮短操作員的訓練時間、提高研究的生產率,以及獲得準確又具有再現性的結果等不同方式達成。以下介紹三種技術(流變分析、TGA 與 DSC)的三種機會,為節省聚合物研究時間提供解決方案。
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