Best Price Industrial Grade Barium Carbonate
Barium carbonate is a chemical compound with the formula BaCO3. It is a white crystalline solid that occurs naturally as the mineral witherite, but it is more commonly produced synthetically for various industrial applications. Barium carbonate is known for its unique properties and versatility, which make it a valuable ingredient in several industries including glass, ceramics, and chemicals. This article explores the properties, production methods, applications, safety considerations, and market trends associated with barium carbonate, providing a comprehensive overview of this important compound.
What is Barium Carbonate?
Barium carbonate may sound like a fancy term, but it’s actually a chemical compound that consists of barium and carbonate ions. In simpler terms, it’s made up of barium, which sounds like something you’d order at a bar, and carbonate, which sounds like a fizzy drink. But don’t worry, you can’t actually drink barium carbonate, and you definitely shouldn’t. It’s a white, odorless powder that is commonly used in various industries.
Historical Background
Now, let’s take a little trip back in time to explore the historical background of barium carbonate. It was first discovered in the 17th century by some curious chemists who were fascinated by its properties. Since then, it has found its way into a range of applications, from glass and ceramics to pyrotechnics. Talk about versatility!
Properties and Characteristics of Barium Carbonate
Chemical Composition
Enough with the history lesson, let’s dive into the nitty-gritty science stuff. Barium carbonate is composed of one atom of barium, one atom of carbon, and three atoms of oxygen. It’s a simple yet mighty compound that packs a punch when it comes to its properties.
Physical Properties
When you encounter barium carbonate in its pure form, it appears as a white powder that looks like something you’d sprinkle on a cake. However, I wouldn’t recommend eating it—trust me, it won’t taste as good as it looks. It’s also odorless, which means it won’t make your nose wrinkle in disgust.
Thermal Stability
One of the impressive things about barium carbonate is its ability to withstand high temperatures. It’s like a cool-headed chemist that doesn’t get flustered when things heat up. This thermal stability makes it useful in various applications where heat resistance is required.
Production and Manufacturing Processes of Barium Carbonate
Solvay Process
Okay, let’s shift gears and talk about how barium carbonate is made. One way is through a process called the Solvay process. It involves some fancy chemistry and a series of reactions that ultimately result in the production of barium carbonate.
Black Ash Method
Another method, known as the Black Ash method, sounds a bit mysterious, doesn’t it? It’s a traditional way of producing barium carbonate by converting barium sulfide into barium carbonate. It may not be as efficient as the Solvay process, but hey, sometimes traditions have their charm.
Other Synthesis Methods
Of course, there are other methods to produce barium carbonate as well. Chemists and scientists have been experimenting with various approaches to meet different needs and requirements. It’s like a never-ending quest to find the best recipe for this chemical compound.
Applications and Uses of Barium Carbonate
Glass and Ceramic Industry
Barium carbonate has found its own place in the glass and ceramic industry. It’s like the secret ingredient that helps make glass clearer and ceramics stronger. It plays a vital role in creating beautiful glassware and durable ceramics that can withstand some accidental clumsiness.
Chemical Industry
The chemical industry also can’t get enough of barium carbonate. It’s used in various chemical processes, including the production of other chemicals or as a reagent in laboratories. It’s like the unsung hero working behind the scenes, making sure everything runs smoothly.
Pyrotechnics and Fireworks
Last but not least, pyrotechnics and fireworks owe a lot to barium carbonate. It’s like the life of the party, creating stunning green flames when ignited. So the next time you gaze at a spectacular fireworks display, know that barium carbonate is one of the reasons for your awe and wonder. Now that you’ve learned about barium carbonate, you can impress your friends with your newfound knowledge. Just make sure to remind them not to try any DIY experiments or consume it. Chemistry can be fun, but safety always comes first!
Environmental and Health Considerations of Barium Carbonate
Environmental Impact
When it comes to the environmental impact of barium carbonate, we have a bit of a mixed bag. On one hand, barium carbonate is not considered a persistent organic pollutant, which means it does not stay in the environment for long periods. On the other hand, it can still have adverse effects if released into bodies of water or soil. Barium carbonate can be harmful to aquatic life, especially when present in higher concentrations. It can interfere with the respiratory systems of fish and other organisms, leading to reduced growth and reproduction. Additionally, it can accumulate in the tissues of certain species, further impacting the ecosystem.
Health Hazards and Toxicity
When it comes to our health, barium carbonate should be handled with caution. It is considered toxic and can pose some serious health risks if ingested, inhaled, or if prolonged skin contact occurs. If accidentally ingested, barium carbonate can cause nausea, vomiting, abdominal pain, and diarrhea. In more severe cases, it may lead to muscle twitching, paralysis, and even cardiac irregularities. Inhalation or prolonged exposure to barium carbonate dust can irritate the respiratory system and cause coughing, shortness of breath, and chest tightness. It’s important to note that the extent of the health risks depends on the dose and duration of exposure. Nonetheless, it’s always better to err on the side of caution and take appropriate safety measures.
Regulations and Restrictions
Due to the potential health and environmental risks associated with barium carbonate, there are regulations and restrictions in place to ensure safe handling and use. In many countries, including the United States and European Union, barium carbonate is classified as a hazardous substance. This means it must be labeled accordingly and handled with care. The regulations typically include guidelines on proper storage, transportation, disposal, and worker safety. It’s essential for individuals and businesses that deal with barium carbonate to stay informed about the specific regulations and comply with them to minimize the potential risks and ensure a safe working environment. —
Safety Measures and Handling Procedures for Barium Carbonate
Personal Protective Equipment (PPE)
When working with barium carbonate, it’s important to take appropriate safety precautions and use personal protective equipment (PPE). This will help minimize exposure and reduce the risk of adverse health effects. Some recommended PPE when handling barium carbonate include: – Safety goggles or a face shield to protect the eyes from dust and splashes – Gloves, preferably nitrile or neoprene, to prevent skin contact – Respiratory protection, such as a dust mask or respirator, when working with powdered forms or in dusty environments – Protective clothing, including a lab coat or coveralls, to avoid direct skin contact Remember, PPE should be worn correctly and disposed of according to the guidelines to ensure maximum effectiveness.
Storage and Handling Guidelines
Proper storage and handling of barium carbonate are crucial to minimize any potential risks associated with its use. Here are some guidelines to follow: – Store barium carbonate in a cool, dry, and well-ventilated area away from incompatible substances. – Keep containers tightly closed and properly labeled to prevent accidental exposure. – Avoid generating dust by using appropriate handling techniques, such as closed systems and vented enclosures. – Clean up any spills immediately, using suitable absorbent materials, and dispose of them properly. Following these guidelines will not only promote safety but also help maintain the integrity and quality of the barium carbonate.
First Aid Measures
In the event of an accident or exposure to barium carbonate, it’s important to know the appropriate first aid measures to minimize the potential health risks. If barium carbonate comes into contact with the skin, immediately wash the affected area with soap and water. If irritation or symptoms persist, seek medical attention. For eye contact, rinse the eyes with gently flowing water for at least 15 minutes while keeping the eyelids open. Remove contact lenses, if applicable, but never force them out. Seek medical assistance promptly. If barium carbonate is ingested, do not induce vomiting unless directed by medical professionals. Seek immediate medical attention and provide the necessary information about the substance. Remember, prompt action and seeking professional medical help are vital in ensuring the best possible outcome. —
Market Trends and Future Outlook for Barium Carbonate
Current Market Scenario
Barium carbonate plays a significant role in various industries, including ceramics, glass, and electronics. Its applications range from providing heat and chemical resistance in ceramics to acting as a flux in glass manufacturing. As a result, the demand for barium carbonate remains stable and resilient. The market for barium carbonate is predominantly driven by the construction and automotive sectors, as they heavily rely on ceramics and glass products. Additionally, the growing demand for consumer electronics and telecommunications equipment further fuels the market growth.
Emerging Applications and Opportunities
While barium carbonate has already found its place in various traditional industries, there are emerging applications and opportunities that are likely to shape its future. One such area is the energy storage sector, where barium carbonate is being explored as a potential component for advanced batteries. Its unique chemical properties make it a promising candidate for high-capacity and efficient energy storage solutions. Furthermore, there is increasing interest in using barium carbonate in the production of specialty chemicals, such as barium peroxide and barium titanate. These compounds have applications in the pharmaceutical, electronics, and aerospace industries, opening new doors for the utilization of barium carbonate.
Technological Advancements and Innovations
Technological advancements and innovations play a crucial role in the future of any industry, and barium carbonate is no exception. Researchers and manufacturers are continually exploring ways to enhance the efficiency and sustainability of its production processes. New techniques, such as cleaner and more energy-efficient synthesis methods, are being developed to minimize the environmental impact associated with barium carbonate production. Additionally, efforts are underway to improve the recycling and reuse of barium carbonate waste generated by various industries. These advancements not only ensure a more sustainable and environmentally friendly approach but also make barium carbonate a more attractive option for industries seeking greener alternatives. As the world evolves and new technologies emerge, the demand for barium carbonate is likely to continue growing, paving the way for exciting opportunities and advancements in the years to come.In conclusion, barium carbonate is a significant chemical compound that plays a crucial role in various industries. Its diverse applications, ranging from glass manufacturing to pyrotechnics, highlight its versatility and importance in multiple processes. While barium carbonate offers numerous benefits, it is essential to consider its environmental and health considerations and adhere to proper safety measures when handling it. As market trends continue to evolve, the future outlook for barium carbonate appears promising, with potential advancements and emerging applications on the horizon. With its multitude of uses and ongoing research and development, barium carbonate remains a compound that continues to contribute to technological advancements and industrial progress.
FAQs about Barium Carbonate:
1. Is barium carbonate toxic and hazardous to health?
Barium carbonate can be toxic and hazardous if not handled properly. Inhalation or ingestion of high concentrations can lead to health issues, including respiratory problems, gastrointestinal complications, and cardiovascular effects. It is crucial to follow safety guidelines and use appropriate protective equipment when working with this compound.
2. Can I use barium carbonate in food or pharmaceutical applications?
No, barium carbonate is not suitable for use in food or pharmaceutical applications due to its toxicity. It is important to ensure that barium carbonate is used only in approved industrial applications and under controlled conditions to prevent any health risks.
3. What are the environmental concerns associated with barium carbonate?
Barium carbonate can have environmental implications if not managed properly. It should be handled and disposed of following relevant regulations to prevent contamination of water sources or soil. Spills or improper disposal can lead to the release of barium ions, which can be harmful to aquatic life and ecosystems.
4. Can barium carbonate be substituted with other compounds in industrial applications?
In some cases, barium carbonate can be substituted with other compounds depending on the specific application. However, it is important to evaluate the desired properties and characteristics required for each application before considering any substitutions. Consulting with industry experts or conducting thorough research is recommended to determine suitable alternatives.
Product Name
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Barium carbonate
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CAS No
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513-77-9
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MF
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BaCO3
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MW
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197.337
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Appearance
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White power
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Purity
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99.0%
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Density
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4.43g/cm3
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Melting point
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811℃
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Boiling point
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1450°C
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Flashing point
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77.6°C
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Solubility
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Insoluble in water, insoluble in alcohol, soluble in acid and ammonium chloride solution.
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Molecular formula
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BaCO3
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Other name
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Carbonate Barium
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CAS Number
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513-77-9
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HS code
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2836600000
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EINECS
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208-167-3
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Molecualr weight:
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197.34
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Properties:
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white powder or granule
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Purity:
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≥98.5%,99%,99.2%
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Specifications
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Item
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Specification for Fine Grade
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Specification for First Grade
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Specification for Regular Grade
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Purity(BaCO3)
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≥99.2%
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≥99%
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≥98.5%
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Moisture
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≤0.3%
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≤0.3%
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≤0.3%
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SO4
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≤0.25%
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≤0.35%
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≤0.45%
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Iron(Fe)
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≤0.004%
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≤0.004%
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≤0.008%
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HCL insoluble Matter
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≤0.15%
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≤0.25%
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≤0.50%
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Bulk Density(powder)
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Light Powder 0.40 g/cm3 Dense Powder 1-1.2 g/cm3
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Particlle Size(Granule)
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850micron:≦1% 150micron :≧75%
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Usage:
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optical glass,magnet material ,water purification ,building material ,porcelain glaze,electronic pottery and other industry.
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Packing:
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25/50/1000KG plastic bag,or customized
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Terms of transportation
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inorganic salt
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Terms of storage
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Store at RT.
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Class of risk:
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6.1
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UN Number:
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1564
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Barium carbonate for ceramic coatings and optical glass auxiliary materials for electronic ceramics,PTC thermistors,capacitors and other electronic components manufacturing. Analysis of iron in calcium,magnesium, manganese and zinc. Determination and determination of halogens in organic compounds. Used for making barium salt, pigment,fireworks, rodenticide pottery,and used as fillers and water clarifiers.Treatment of excess sulfate in chrome-plated
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