| Parent Group | High purity Salts |
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99.9% Boron Ball
| CAS # | 7440-42-8 |
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| Product # | 0200-0005-02-30 |
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| Parent Group | High purity Salts |
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| Molecular Weight | 10.81 |
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| MDL # | MFCD00134034 |
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| EINECS # | 231-151-2 |
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| Formula | B |
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| Sizes | 100g |
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| PubChem URL: | https://pubchem.ncbi.nlm.nih.gov/substance/57647503 |
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99.9% Boron Ball
| CAS # | 7440-42-8 |
|---|
| Product # | 0200-0005-02-30 |
|---|
| Parent Group | High purity Salts |
|---|
| Molecular Weight | 10.81 |
|---|
| MDL # | MFCD00134034 |
|---|
| EINECS # | 231-151-2 |
|---|
| Formula | B |
|---|
| Sizes | 100g |
|---|
Chemical Properties
| Form | Ball |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
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| Boiling Point | 2550 °C |
|---|
| Melting Point | 2079 °C |
|---|
Applications
| Boron balls have diverse industry applications. In aerospace, they are used for lightweight structural components, rocket propellants, and thermal management. In the nuclear industry, Boron balls are employed for neutron shielding, control rods, and reactor coolant additives. They are also utilized in research and development for catalysts, hydrogen storage, and additive manufacturing processes. With their high strength, low weight, and exceptional thermal and electrical conductivity, Boron balls play a crucial role in various advanced applications across industries. |
Notes
| Boron balls refer to small, highly pure spherical forms ofBoron. They find industry applications in areas such as aerospace, nuclear, and research, offering properties such as high strength, low weight, and excellent thermal and electrical conductivity for specialized applications including shielding, catalysts, and additive manufacturing. |
| Bulk Density | 1.8 to 2.2 g/cm³ |
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| True Density | 2.34 cryst. g/cm3 |
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| Particle Size | Multiple Sizes available |
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| Storage & Sensitivity | Store boron balls in a dry, cool, and well-ventilated area, away from moisture, heat, and sources of ignition. Keep them in sealed containers or bags to prevent oxidation and contamination. Handle with care to avoid damage or breakage. Store them separately from incompatible materials and follow safety guidelines for handling and storage. Label the containers clearly and ensure proper segregation to prevent accidental mixing. Adhere to local regulations and safety protocols for the storage and handling of boron materials. |
|---|
Chemical Properties
| Form | Ball |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2550 °C |
|---|
| Melting Point | 2079 °C |
|---|
Applications
| Boron balls have diverse industry applications. In aerospace, they are used for lightweight structural components, rocket propellants, and thermal management. In the nuclear industry, Boron balls are employed for neutron shielding, control rods, and reactor coolant additives. They are also utilized in research and development for catalysts, hydrogen storage, and additive manufacturing processes. With their high strength, low weight, and exceptional thermal and electrical conductivity, Boron balls play a crucial role in various advanced applications across industries. |
Notes
| Boron balls refer to small, highly pure spherical forms ofBoron. They find industry applications in areas such as aerospace, nuclear, and research, offering properties such as high strength, low weight, and excellent thermal and electrical conductivity for specialized applications including shielding, catalysts, and additive manufacturing. |
| Bulk Density | 1.8 to 2.2 g/cm³ |
|---|
| True Density | 2.34 cryst. g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | Store boron balls in a dry, cool, and well-ventilated area, away from moisture, heat, and sources of ignition. Keep them in sealed containers or bags to prevent oxidation and contamination. Handle with care to avoid damage or breakage. Store them separately from incompatible materials and follow safety guidelines for handling and storage. Label the containers clearly and ensure proper segregation to prevent accidental mixing. Adhere to local regulations and safety protocols for the storage and handling of boron materials. |
|---|
Chemical Properties
| Form | Ball |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2550 °C |
|---|
| Melting Point | 2079 °C |
|---|
| Bulk Density | 1.8 to 2.2 g/cm³ |
|---|
| True Density | 2.34 cryst. g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | Store boron balls in a dry, cool, and well-ventilated area, away from moisture, heat, and sources of ignition. Keep them in sealed containers or bags to prevent oxidation and contamination. Handle with care to avoid damage or breakage. Store them separately from incompatible materials and follow safety guidelines for handling and storage. Label the containers clearly and ensure proper segregation to prevent accidental mixing. Adhere to local regulations and safety protocols for the storage and handling of boron materials. |
|---|
Applications
| Boron balls have diverse industry applications. In aerospace, they are used for lightweight structural components, rocket propellants, and thermal management. In the nuclear industry, Boron balls are employed for neutron shielding, control rods, and reactor coolant additives. They are also utilized in research and development for catalysts, hydrogen storage, and additive manufacturing processes. With their high strength, low weight, and exceptional thermal and electrical conductivity, Boron balls play a crucial role in various advanced applications across industries. |
Notes
| Boron balls refer to small, highly pure spherical forms ofBoron. They find industry applications in areas such as aerospace, nuclear, and research, offering properties such as high strength, low weight, and excellent thermal and electrical conductivity for specialized applications including shielding, catalysts, and additive manufacturing. |