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Ensure the quality and suitability of materials with desktop SEM
The Thermo Scientific Phenom XL G3 Desktop SEM provides accurate, convenient materials analysis for a wide range of industries and applications. From examining components for next-generation batteries to helping to ensure the suitability of construction materials, its flexible sample chamber and reliable automations help you discover minute details that can make all the difference in finished products.
Quality control of cathode material in batteries
In the battery industry, ensuring the quality of cathode materials is crucial for battery performance and longevity. Traditional quality control methods were slow and labor-intensive, often causing delays in production. The introduction of automated SEM imaging and analysis brought a significant improvement. With AutoScan Scripts and Thermo Scientific ParticleMetric Software, these automated systems enable rapid and precise particle analysis.
This advanced setup significantly speeds up the quality control process, allowing for consistent and detailed examination of cathode materials. The automation reduces human error and ensures uniformity in quality assessments, which is vital for maintaining high standards in battery production. Additionally, the time saved through automation translates to increased productivity and reduced operational costs. Overall, this technological advancement has enhanced efficiency and reliability in the battery manufacturing process, leading to better product performance and customer satisfaction.
3D-printed microspring characterization for MEMS devices
In the MEMS market, precisely characterizing microscale components like 3D-printed microsprings presents a significant challenge. Accurate manipulation and detailed analysis of these tiny structures are essential for their application in various fields. The Phenom XL G3 Desktop SEM, equipped with integrated electrical probing, offers a robust solution to this problem. This advanced setup allows for real-time deformation and conductivity tests, providing essential data for detailed analysis.
The SEM's high-resolution imaging capabilities and user-friendly interface make it an invaluable tool for researchers and engineers. The integrated electrical probing features help you precisely measure and manipulate microsprings, helping to ensure their reliability and performance. This comprehensive characterization process is critical for developing and optimizing MEMS devices. By providing accurate and efficient analysis, the Phenom XL G3 Desktop SEM supports innovation and quality in the MEMS industry, facilitating the development of reliable and high-performance microscale components.
Construction sand suitability analysis
The construction industry faces a persistent challenge in selecting suitable sand for building projects. Desert and sea sands often fail to meet the necessary standards due to their fine grains and high salt content, respectively. River sand, however, is considered ideal due to its favorable physical and chemical properties, and detailed analysis helps ensure its suitability. The Phenom XL G3 Desktop SEM, combined with ParticleMetric Software, provides a sophisticated solution for this task.
Using SEM and EDS analyses, you can conduct detailed imaging and particle analysis to assess the suitability of different types of sand. The SEM’s high-resolution imaging capabilities allow for a thorough examination of sand particles, helping to ensure they meet the required standards for construction. This process enhances the durability and safety of building projects by helping to ensure that only high-quality sand is used. The rapid and precise analysis provided by the SEM significantly improves the selection process, contributing to better construction outcomes and increased structural integrity.
For Research Use Only. Not for use in diagnostic procedures.