Malvern Panalytical LITHIUM TETRABORATE 1Kg C-0600-00
Malvern Panalytical -- Item TECPIM000074363
Please add to cart & request for quote to see the price
Reserve Now
Lithium Tetraborate 1Kg C-0600-00 is a 1 kg bottle of ultra-high-purity lithium tetraborate flux supplied by Malvern Panalytical for sample preparation. It is a pre‑fused, high‑purity lithium tetraborate intended to prepare geological, glass/ceramic and other inorganic samples for XRF and ICP/AA analysis by dissolving oxides and producing homogeneous glass beads for spectrochemical measurement.
Key Features:
- Composition: 100% lithium tetraborate (Li2B4O7).
- Pack size: 1 kg bottle.
- Purity/grade: Ultra‑high purity (examples listed as 99.995+% / ultra pure grades available).
- Physical form: spherical vitreous beads, anhydrous and non‑hygroscopic with controlled granulometry.
- Intended use: pre‑fused flux for sample fusion/preparation for XRF, ICP and AA analysis.
Advantages:
- Pre‑fused, homogeneous beads eliminate the need to pre‑fuse in‑lab and provide consistent composition for repeatable fusion results.
- Anhydrous, non‑hygroscopic beads with no dust and controlled particle size improve handling, dosing accuracy and fusion fluidity.
- Ultra‑high purity minimizes contamination and matrix interferences during spectrochemical analysis, supporting accurate elemental determinations.
Product Details
Overview
| Model | |
|---|---|
| Product Type | Spare Parts |
| Part Number | C-0600-00 |
| Brand | Malvern Panalytical |
| Gross Dimensions (WxDxH cm) | |
| Net Dimensions (WxDxH cm) | |
| Gross Weight (kg) | |
| Net Weight (kg) |
Specifications
More options are available. Please contact us for more information.
Document
More options are available. Please contact us for more information.
Videos
Malvern Panalytical
Malvern Panalytical instruments blend cutting-edge engineering with the latest advancements in data analytics and AI. This combination empowers industries and researchers to comprehend the world with unparalleled precision, from biomolecular structures to quantum dots.