| Parent Group | High purity Salts |
|---|
Menu
99.9% Boron Foam
| CAS # | 7440-42-8 |
|---|
| Product # | 0200-0005-01613-30 |
|---|
| Parent Group | High purity Salts |
|---|
| Molecular Weight | 10.81 |
|---|
| MDL # | MFCD00134034 |
|---|
| EINECS # | 231-151-2 |
|---|
| Formula | B |
|---|
| Sizes | 1 pc |
|---|
| PubChem URL: | https://pubchem.ncbi.nlm.nih.gov/substance/57647503 |
|---|
99.9% Boron Foam
| CAS # | 7440-42-8 |
|---|
| Product # | 0200-0005-01613-30 |
|---|
| Parent Group | High purity Salts |
|---|
| Molecular Weight | 10.81 |
|---|
| MDL # | MFCD00134034 |
|---|
| EINECS # | 231-151-2 |
|---|
| Formula | B |
|---|
| Sizes | 1 pc |
|---|
Chemical Properties
| Form | Foam |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2550 °C |
|---|
| Melting Point | 2079 °C |
|---|
Applications
| Boron Foam finds diverse applications across industries. It is utilized in aerospace and defense for lightweight structures, thermal insulation, and energy absorption. The foam's chemical resistance makes it suitable for corrosive environments and it serves as a neutron shield in nuclear applications. Its high porosity makes it ideal for catalyst supports in chemical processes. Furthermore, it is employed in industries requiring high-temperature materials, such as refractory linings and heat shields. The unique properties ofBoron Foam make it valuable in various industries including aerospace, defense, energy, chemical, and nuclear. |
Notes
| Boron Foam is a lightweight and porous material with high strength and thermal stability. It is produced by foaming a mixture ofBoron powder and a foaming agent. The foam structure provides a large surface area, making it suitable for applications such as lightweight structural components, thermal insulation, and energy absorption. Its low density and excellent chemical resistance make it an ideal choice for aerospace, defense, and advanced materials industries. Additionally, the foam's unique properties enable it to be used in neutron shielding, nuclear applications, and catalyst supports. |
| Bulk Density | 0.1 to 0.3 g/cm³ |
|---|
| True Density | 2.34 cryst. g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | When storing Boron Foam, it is important to keep it in a dry and cool environment to prevent moisture absorption. The foam should be stored in a sealed container or packaging to protect it from dust, contaminants, and physical damage. It is advisable to avoid exposure to direct sunlight, extreme temperatures, and strong oxidizing agents. Proper labeling and handling instructions should be provided, and the foam should be kept away from incompatible materials. Regular inspection and maintenance of storage conditions are recommended to ensure the foam's integrity and performance. |
|---|
Chemical Properties
| Form | Foam |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2550 °C |
|---|
| Melting Point | 2079 °C |
|---|
Applications
| Boron Foam finds diverse applications across industries. It is utilized in aerospace and defense for lightweight structures, thermal insulation, and energy absorption. The foam's chemical resistance makes it suitable for corrosive environments and it serves as a neutron shield in nuclear applications. Its high porosity makes it ideal for catalyst supports in chemical processes. Furthermore, it is employed in industries requiring high-temperature materials, such as refractory linings and heat shields. The unique properties ofBoron Foam make it valuable in various industries including aerospace, defense, energy, chemical, and nuclear. |
Notes
| Boron Foam is a lightweight and porous material with high strength and thermal stability. It is produced by foaming a mixture ofBoron powder and a foaming agent. The foam structure provides a large surface area, making it suitable for applications such as lightweight structural components, thermal insulation, and energy absorption. Its low density and excellent chemical resistance make it an ideal choice for aerospace, defense, and advanced materials industries. Additionally, the foam's unique properties enable it to be used in neutron shielding, nuclear applications, and catalyst supports. |
| Bulk Density | 0.1 to 0.3 g/cm³ |
|---|
| True Density | 2.34 cryst. g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | When storing Boron Foam, it is important to keep it in a dry and cool environment to prevent moisture absorption. The foam should be stored in a sealed container or packaging to protect it from dust, contaminants, and physical damage. It is advisable to avoid exposure to direct sunlight, extreme temperatures, and strong oxidizing agents. Proper labeling and handling instructions should be provided, and the foam should be kept away from incompatible materials. Regular inspection and maintenance of storage conditions are recommended to ensure the foam's integrity and performance. |
|---|
Chemical Properties
| Form | Foam |
|---|
| Purity | 99.90% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2550 °C |
|---|
| Melting Point | 2079 °C |
|---|
| Bulk Density | 0.1 to 0.3 g/cm³ |
|---|
| True Density | 2.34 cryst. g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | When storing Boron Foam, it is important to keep it in a dry and cool environment to prevent moisture absorption. The foam should be stored in a sealed container or packaging to protect it from dust, contaminants, and physical damage. It is advisable to avoid exposure to direct sunlight, extreme temperatures, and strong oxidizing agents. Proper labeling and handling instructions should be provided, and the foam should be kept away from incompatible materials. Regular inspection and maintenance of storage conditions are recommended to ensure the foam's integrity and performance. |
|---|
Applications
| Boron Foam finds diverse applications across industries. It is utilized in aerospace and defense for lightweight structures, thermal insulation, and energy absorption. The foam's chemical resistance makes it suitable for corrosive environments and it serves as a neutron shield in nuclear applications. Its high porosity makes it ideal for catalyst supports in chemical processes. Furthermore, it is employed in industries requiring high-temperature materials, such as refractory linings and heat shields. The unique properties ofBoron Foam make it valuable in various industries including aerospace, defense, energy, chemical, and nuclear. |
Notes
| Boron Foam is a lightweight and porous material with high strength and thermal stability. It is produced by foaming a mixture ofBoron powder and a foaming agent. The foam structure provides a large surface area, making it suitable for applications such as lightweight structural components, thermal insulation, and energy absorption. Its low density and excellent chemical resistance make it an ideal choice for aerospace, defense, and advanced materials industries. Additionally, the foam's unique properties enable it to be used in neutron shielding, nuclear applications, and catalyst supports. |