| Parent Group | High Purity Metals |
|---|
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99% Beryllium Metal Ingot
| CAS # | 7440-41-7 |
|---|
| Product # | 0205-0013-09-20 |
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| Parent Group | High Purity Metals |
|---|
| Molecular Weight | 9.01 |
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| MDL # | MFCD00134032 |
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| EINECS # | 231-150-7 |
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| Formula | Be |
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| Sizes | 1pc |
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99% Beryllium Metal Ingot
| CAS # | 7440-41-7 |
|---|
| Product # | 0205-0013-09-20 |
|---|
| Parent Group | High Purity Metals |
|---|
| Molecular Weight | 9.01 |
|---|
| MDL # | MFCD00134032 |
|---|
| EINECS # | 231-150-7 |
|---|
| Formula | Be |
|---|
| Sizes | 1pc |
|---|
Chemical Properties
| Form | Ingot |
|---|
| Purity | 99.00% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2970 °C |
|---|
| Melting Point | 1277 °C |
|---|
Applications
| Beryllium metal ingots find applications in a variety of industries. They are utilized in aerospace components for their lightweight and high-strength properties, as neutron moderators in nuclear reactors, and in X-ray windows and particle accelerators for their thermal conductivity and transparency to radiation. |
Notes
| A Beryllium Metal Ingot is a solid, rectangular block of Beryllium with a purity level of . Beryllium is a lightweight and strong metal with excellent thermal conductivity and low neutron absorption, making it suitable for various high-performance applications. The ingot is commonly used as a starting material for manufacturing Beryllium components and alloys. It finds applications in aerospace, defense, nuclear, and electronic industries where its unique properties are valued, such as in nuclear reactor components, X-ray windows, high-speed aircraft parts, and precision instruments. The high purity of the ingot ensures optimal performance and reliability in these demanding applications. |
| Bulk Density | 1.5 to 2.0 g/cm³ |
|---|
| True Density | 1.85 g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | The storage conditions for a 99% Beryllium Metal Ingot typically require proper handling and storage to ensure safety and prevent contamination. Beryllium is highly reactive and can react with air, moisture, and certain chemicals. Therefore, the ingot should be stored in a dry and well-ventilated area, away from direct sunlight, heat sources, and moisture. It is advisable to store it in sealed containers or wrapped in a protective material to minimize exposure to air and contaminants. Additionally, proper labeling and storage segregation should be implemented to avoid accidental mixing with incompatible materials. |
|---|
Chemical Properties
| Form | Ingot |
|---|
| Purity | 99.00% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2970 °C |
|---|
| Melting Point | 1277 °C |
|---|
Applications
| Beryllium metal ingots find applications in a variety of industries. They are utilized in aerospace components for their lightweight and high-strength properties, as neutron moderators in nuclear reactors, and in X-ray windows and particle accelerators for their thermal conductivity and transparency to radiation. |
Notes
| A Beryllium Metal Ingot is a solid, rectangular block of Beryllium with a purity level of . Beryllium is a lightweight and strong metal with excellent thermal conductivity and low neutron absorption, making it suitable for various high-performance applications. The ingot is commonly used as a starting material for manufacturing Beryllium components and alloys. It finds applications in aerospace, defense, nuclear, and electronic industries where its unique properties are valued, such as in nuclear reactor components, X-ray windows, high-speed aircraft parts, and precision instruments. The high purity of the ingot ensures optimal performance and reliability in these demanding applications. |
| Bulk Density | 1.5 to 2.0 g/cm³ |
|---|
| True Density | 1.85 g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | The storage conditions for a 99% Beryllium Metal Ingot typically require proper handling and storage to ensure safety and prevent contamination. Beryllium is highly reactive and can react with air, moisture, and certain chemicals. Therefore, the ingot should be stored in a dry and well-ventilated area, away from direct sunlight, heat sources, and moisture. It is advisable to store it in sealed containers or wrapped in a protective material to minimize exposure to air and contaminants. Additionally, proper labeling and storage segregation should be implemented to avoid accidental mixing with incompatible materials. |
|---|
Chemical Properties
| Form | Ingot |
|---|
| Purity | 99.00% |
|---|
| Morphology | Variable |
|---|
| Boiling Point | 2970 °C |
|---|
| Melting Point | 1277 °C |
|---|
| Bulk Density | 1.5 to 2.0 g/cm³ |
|---|
| True Density | 1.85 g/cm3 |
|---|
| Particle Size | Multiple Sizes available |
|---|
| Storage & Sensitivity | The storage conditions for a 99% Beryllium Metal Ingot typically require proper handling and storage to ensure safety and prevent contamination. Beryllium is highly reactive and can react with air, moisture, and certain chemicals. Therefore, the ingot should be stored in a dry and well-ventilated area, away from direct sunlight, heat sources, and moisture. It is advisable to store it in sealed containers or wrapped in a protective material to minimize exposure to air and contaminants. Additionally, proper labeling and storage segregation should be implemented to avoid accidental mixing with incompatible materials. |
|---|
Applications
| Beryllium metal ingots find applications in a variety of industries. They are utilized in aerospace components for their lightweight and high-strength properties, as neutron moderators in nuclear reactors, and in X-ray windows and particle accelerators for their thermal conductivity and transparency to radiation. |
Notes
| A Beryllium Metal Ingot is a solid, rectangular block of Beryllium with a purity level of . Beryllium is a lightweight and strong metal with excellent thermal conductivity and low neutron absorption, making it suitable for various high-performance applications. The ingot is commonly used as a starting material for manufacturing Beryllium components and alloys. It finds applications in aerospace, defense, nuclear, and electronic industries where its unique properties are valued, such as in nuclear reactor components, X-ray windows, high-speed aircraft parts, and precision instruments. The high purity of the ingot ensures optimal performance and reliability in these demanding applications. |