| Parent Group | High purity Salts |
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99.9% Boron Disc
| CAS # | 7440-42-8 |
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| Product # | 0200-0005-04-30 |
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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 | 1 pc |
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| PubChem URL: | https://pubchem.ncbi.nlm.nih.gov/substance/57647503 |
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99.9% Boron Disc
| CAS # | 7440-42-8 |
|---|
| Product # | 0200-0005-04-30 |
|---|
| Parent Group | High purity Salts |
|---|
| Molecular Weight | 10.81 |
|---|
| MDL # | MFCD00134034 |
|---|
| EINECS # | 231-151-2 |
|---|
| Formula | B |
|---|
| Sizes | 1 pc |
|---|
Chemical Properties
| Form | Disc |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
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| Boiling Point | 2550 °C |
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| Melting Point | 2079 °C |
|---|
Applications
| Boron Disc finds applications in diverse industries. It is used in aerospace for structural components and heat shields. In nuclear reactors, it serves as a neutron absorber and control material. The disc is also utilized in defense applications for armor systems and shielding against radiation. Its high thermal conductivity makes it suitable for heat sinks in electronics. Additionally, theBoron disc is employed in research laboratories for neutron scattering experiments. Its versatility and unique properties make it valuable in industries that require lightweight, strong, and radiation-resistant materials. |
Notes
| Boron Disc refers to a disc-shaped material with a high purity level of Boron content. It is commonly used in various industries, including aerospace, defense, and nuclear applications. TheBoron disc exhibits excellent neutron absorption properties and is often utilized in neutron shielding, control rods, and radiation protection. It offers high thermal conductivity, low electrical resistivity, and good mechanical strength. The disc can be customized in terms of dimensions and thickness to suit specific requirements. Proper handling and storage are recommended to maintain its integrity and prevent contamination. |
| Bulk Density | 2.3 to 2.5 g/cm³ |
|---|
| True Density | 2.34 cryst. g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | To ensure the proper storage of Boron Disc, it is recommended to keep it in a dry and controlled environment with low humidity. The disc should be protected from direct sunlight, extreme temperatures, and moisture. It is advisable to store it in a sealed container or packaging to prevent oxidation or contamination. Handling should be done with clean, dry gloves to avoid introducing impurities. Additionally, it is crucial to follow any specific storage instructions provided by the manufacturer to maintain the quality and integrity of the boron disc. |
|---|
Chemical Properties
| Form | Disc |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2550 °C |
|---|
| Melting Point | 2079 °C |
|---|
Applications
| Boron Disc finds applications in diverse industries. It is used in aerospace for structural components and heat shields. In nuclear reactors, it serves as a neutron absorber and control material. The disc is also utilized in defense applications for armor systems and shielding against radiation. Its high thermal conductivity makes it suitable for heat sinks in electronics. Additionally, theBoron disc is employed in research laboratories for neutron scattering experiments. Its versatility and unique properties make it valuable in industries that require lightweight, strong, and radiation-resistant materials. |
Notes
| Boron Disc refers to a disc-shaped material with a high purity level of Boron content. It is commonly used in various industries, including aerospace, defense, and nuclear applications. TheBoron disc exhibits excellent neutron absorption properties and is often utilized in neutron shielding, control rods, and radiation protection. It offers high thermal conductivity, low electrical resistivity, and good mechanical strength. The disc can be customized in terms of dimensions and thickness to suit specific requirements. Proper handling and storage are recommended to maintain its integrity and prevent contamination. |
| Bulk Density | 2.3 to 2.5 g/cm³ |
|---|
| True Density | 2.34 cryst. g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | To ensure the proper storage of Boron Disc, it is recommended to keep it in a dry and controlled environment with low humidity. The disc should be protected from direct sunlight, extreme temperatures, and moisture. It is advisable to store it in a sealed container or packaging to prevent oxidation or contamination. Handling should be done with clean, dry gloves to avoid introducing impurities. Additionally, it is crucial to follow any specific storage instructions provided by the manufacturer to maintain the quality and integrity of the boron disc. |
|---|
Chemical Properties
| Form | Disc |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2550 °C |
|---|
| Melting Point | 2079 °C |
|---|
| Bulk Density | 2.3 to 2.5 g/cm³ |
|---|
| True Density | 2.34 cryst. g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | To ensure the proper storage of Boron Disc, it is recommended to keep it in a dry and controlled environment with low humidity. The disc should be protected from direct sunlight, extreme temperatures, and moisture. It is advisable to store it in a sealed container or packaging to prevent oxidation or contamination. Handling should be done with clean, dry gloves to avoid introducing impurities. Additionally, it is crucial to follow any specific storage instructions provided by the manufacturer to maintain the quality and integrity of the boron disc. |
|---|
Applications
| Boron Disc finds applications in diverse industries. It is used in aerospace for structural components and heat shields. In nuclear reactors, it serves as a neutron absorber and control material. The disc is also utilized in defense applications for armor systems and shielding against radiation. Its high thermal conductivity makes it suitable for heat sinks in electronics. Additionally, theBoron disc is employed in research laboratories for neutron scattering experiments. Its versatility and unique properties make it valuable in industries that require lightweight, strong, and radiation-resistant materials. |
Notes
| Boron Disc refers to a disc-shaped material with a high purity level of Boron content. It is commonly used in various industries, including aerospace, defense, and nuclear applications. TheBoron disc exhibits excellent neutron absorption properties and is often utilized in neutron shielding, control rods, and radiation protection. It offers high thermal conductivity, low electrical resistivity, and good mechanical strength. The disc can be customized in terms of dimensions and thickness to suit specific requirements. Proper handling and storage are recommended to maintain its integrity and prevent contamination. |