Barium fluoride (BaF₂) CAS 7787-32-8 is a chemical compound with a variety of important applications in various fields:
1. Optical: Barium fluoride CAS 7787-32-8 is used to make optical components such as lenses and windows, especially in the ultraviolet (UV) and infrared (IR) regions of the spectrum. Its low refractive index and high transmittance make it well suited for these applications.
2. Nuclear Applications: Barium fluoride is used in scintillation detectors, which are devices that detect and measure ionizing radiation. This material emits light when it interacts with radiation, making it very useful in nuclear physics and radiation monitoring.
3. Fluoride glass: Barium fluoride CAS 7787-32-8 used to produce fluoride glass. Due to its good optical properties, fluoride glass can be used in optical fiber and other optical technologies.
4. Chemical reaction: Barium fluoride can be used as a reagent in various chemical reactions and is sometimes used to synthesize other barium compounds.
5. Research: In scientific research, barium fluoride is used in studies involving solid state physics and materials science because of its unique properties.
6. Laser Technology: Barium fluoride CAS 7787-32-8 is also used in some types of laser systems, especially those operating in the ultraviolet and infrared ranges.
Packed in 25 kg per drum or based on customers' requirements.
Barium fluoride (BaF₂) CAS 7787-32-8 should be stored properly to maintain its stability and prevent any potential hazards. Here are some guidelines for storing barium fluoride:
1. Container: Barium fluoride CAS 7787-32-8 is hygroscopic, so store it in a sealed container to prevent moisture absorption. The container should be made of a material that is compatible with barium fluoride, such as glass or certain plastics.
2. Environment: Keep the storage area cool, dry and well ventilated. Avoid direct sunlight and extreme temperatures that may affect the integrity of the material.
3. Label: Clearly label the container with the chemical name, concentration, and any relevant hazard information. This is critical for safe and correct operation.
4. Separation: Store barium fluoride away from incompatible substances (such as strong acids or oxidants) to prevent any potential reactions.
5. Safety Precautions: Follow any specific safety guidelines provided by the manufacturer or on the Barium Fluoride Safety Data Sheet (SDS). Use appropriate personal protective equipment (PPE) when handling this compound.
Barium fluoride (BaF₂) CAS 7787-32-8 is generally considered to have low toxicity and is not classified as a hazardous substance by most regulations. However, there are a few things to note:
1. Toxicity: Barium fluoride CAS 7787-32-8 itself is not very toxic, but ingesting or inhaling large amounts of barium fluoride can release toxic barium ions. Barium compounds can be harmful when they enter the human body and may cause potential health problems such as muscle weakness, breathing problems, and gastrointestinal disturbances.
2. Environmental Impact: Barium fluoride can be harmful to the environment if released into water sources because barium is toxic to aquatic life.
3. Handling Precautions: Although barium fluoride is not classified as a hazardous material, it is still recommended to handle it with care. Please wear appropriate personal protective equipment (PPE), such as gloves and goggles, to minimize exposure.
4. Regulatory status: Always check local regulations and guidelines as classifications may vary by region and specific use case.
When transporting Barium Fluoride (BaF₂) CAS 7787-32-8 specific precautions must be followed to ensure safety and regulatory compliance. Here are some key things to note:
1. Regulatory Compliance: Check and comply with local, national, and international regulations regarding the transportation of hazardous materials. Barium fluoride is generally considered a non-hazardous material, but it is best to verify specific regulations that may apply.
2. Packaging: Use appropriate packaging materials that are compatible with barium fluoride. The container should be sturdy and able to prevent leakage or spillage. Use inner packaging (such as plastic bags or bottles) to contain the material and ensure that the outer packaging is properly labeled.
3. Label: Clearly label packaging with the chemical name, UN number (if applicable), and any relevant hazard symbols or warnings. This helps ensure that handlers understand the contents and can take appropriate precautions.
4. Handling Precautions: Ensure that personnel involved in the transport process are trained in the safe handling of chemicals. Wear personal protective equipment (PPE) such as gloves and goggles when packaging and handling materials.
5. Temperature Control: Barium fluoride is stable under normal conditions and should be avoided from exposure to extreme temperatures during transportation. Ensure that the transportation environment is controlled to prevent degradation or other problems.
6. Emergency Procedures: Develop emergency response procedures in case of spills or accidents during transportation. This includes preparing appropriate spill kits and first aid supplies.
7. Documentation: Prepare and include all necessary shipping documentation such as Safety Data Sheets (SDS), shipping manifests, and any required permits.