R-20240710-106 ICP-MS Density Quartz

This report includes the density test, ICP-MS and summarizes the tests performed on the [[S-240710-177 Quartz]], complementing the previously discussed analysis. ## 1. Sample Information - Client Description: Quartz - Sample No.: S-240710-177 - Customer ID: N/A - Request ID: R-20240710-106 - Date: 7/18/24 ## 2. Test Results ![[Pasted image 20240817105455.png]] ### 2.1 Density Analysis - Method: Density by Water Displacement - Result: 2.637 g/cm³ ### 2.2 Impurity Analysis - Method: ICP-MS (Inductively Coupled Plasma Mass Spectrometry) - Instrument: ICPMS|NexION|85VN51118 02 - Result: Total All Others <0.10% ### 2.3 X-Ray Diffraction - Result: [[R-20240710-106 XRD Analysis Quartz]] ## 3. Interpretation and Discussion 1. **Density**: The measured density (2.637 g/cm³) is remarkably close to the theoretical density of pure quartz (2.65 g/cm³), indicating high purity and good crystallinity. 2. **Impurities**: The ICP-MS analysis shows total impurities of <0.10%, confirming the exceptional purity of the quartz sample. This aligns perfectly with the XRD finding of 100% quartz (within the ±5% margin). 3. **Comprehensive Characterization**: The combination of XRD, density measurement, and trace element analysis by ICP-MS provides a thorough characterization of the sample. ## 4. Conclusion The additional tests corroborate and expand upon the XRD results, providing a more complete picture of the [[S-240710-177 Quartz]]'s properties: 1. **High Purity**: Confirmed by both XRD and ICP-MS analyses. 2. **Excellent Crystallinity**: Evidenced by the density measurement and XRD results. 3. **Well-Characterized**: The use of multiple, complementary analytical techniques ensures a comprehensive understanding of the sample's properties. This quartz sample demonstrates exceptional quality and purity, making it potentially suitable for high-end applications in industries such as electronics, optics, or advanced materials manufacturing where high-purity silica is required. <hr/>  <div class="footer"> Carbonatik © 2024 </div>