Strontium Sulfate SDS: Health Hazards and Safe Handling

Iran Celestite > Strontium Sulfate SDS: Health Hazards and Safe Handling

Strontium sulphate, with the chemical formula (SrSO), is the sulfate salt of strontium. It is a white crystalline powder and consists of strontium (Sr) and sulfate (SO) ions. It is well-known as the mineral celestite, named for its delicate blue color. Due to these properties, this substance is regarded as a helpful material in a variety of applications across different sectors of industry. In this case, it turns out to be vital to know about the SDS of strontium sulfate. This document describes any health concerns regarding this substance and dictates the proper ways of handling it in industrial workplaces. In the following paragraphs, we will discuss different parts of strontium sulfate SDS to make sure every organization that is in touch with the substance handles SrSO₄ in a safe way and has good access to first aid protocols in terms of any difficulty.

Prior to our vital discussion, it seems helpful to bring up the name of a dependable provider of strontium sulfate. Iran Celestite Co. is a reputable manufacturer and supplier of strontium sulphate in various grades and different amounts of purity. This company takes advantage of advanced machinery and an experienced crew to provide one of the purest products available in the market. No matter where you are, you can always rely on safe packing and timely shipping when it comes to purchasing from Iran Celestite Co.

 

Strontium sulfate; What is It?

Before diving into the topic of strontium sulfate SDS, let’s have a look at this substance’s chemical and physical properties. Strontium sulfate has a molecular weight of 183.68 g/mol, a density of approximately 3.96 g/cm3, and a melting point of 1606 °C (2,923 °F; 1,879 K). Its solubility in water is 0.0135 g/100 mL (25 °C) and 0.014 g/100 mL (30 °C). The solubility of this substance (Ksp) is 3.44 x 10−7. It also has a magnetic susceptibility (X) of −57.9·10−6 cm3/mol. You can read more about this quality of the chemical by clicking on strontium sulfate solubility.

Due to its unique properties, strontium sulfate is used in several industries, including:

  • Ceramics: as a ceramic precursor, strontium carbonate is used in the conversion of strontium sulfate as a red colorant.
  • Pyrotechnics: in pyrotechnics, strontium nitrate is produced from the conversion of strontium sulfate, which finds applications in pyrotechnics and fireworks.
  • Powder coating and liquid paints: acting as a pigment extender (filler) improves the performance of liquor paint and powder coating.
  • Glass and pottery glazes: it is used to add iridescence and luminosity to glazes and contributes to glazes, frits, and enamels.
  • Crystal glass: works as a fining agent for crystal glass as an additive.
  • Plastics: functional fillers can be used to reinforce plastics. It acts as a stabilizer to improve the overall balance of plastics.

Moreover, strontium sulfate also has uses in radiography and scintillation detectors by being useful for detecting radiation and emitting light when exposed to X-rays and gamma rays. It has been investigated for use in solid oxide fuel cells and other electrochemical devices and can act as a solid electrolyte material. In reserve, it is also used historically as a strontium-based compound in luminous paints for clock dials and watch hands; however, due to safety concerns related to radioactivity, this application has been largely replaced by other materials.

 

Reviewing Different Parts of Strontium Sulphate SDS

Strontium sulfate SDS stands for the safety data sheet of this substance, also called MSDS for material safety data sheet or PSDS for product safety data sheet. It is an instructive catalog set by the manufacturer or retailer of hazardous chemicals relating to occupational safety and health and describes the physical and chemical properties of the product. Note that this substance is not detrimental.

An SDS includes data such as the properties of each chemical, physical and environmental health hazards, protective measures, and safety safeguards for managing, transporting, and reserving the chemical. It also guides first aid procedures, cleanup procedures, and personal protective equipment (PPE) (e.g., wearing gloves and eye protection) during strontium sulfate use. Proper ventilation, spill cleanup, and waste disposal guidelines are also covered.

In the safety data sheets for strontium sulfate, you have hazard information, safe handling practices, and emergency procedures. Hazard information outlines potential risks related to exposure, such as skin irritation, inhalation risk, eye damage, etc. Aside from that, you can find exact hazard classifications and associated symbols that can be. First aid measures (e.g., rinsing eyes, seeking medical attention, etc.) are also specified. Users can refer to it for legal requirements and safety standards. In the following, you can read more about important parts of strontium sulfate SDS.

Physical Hazards and Precautions:

When it comes to using strontium sulfate, there are several hazards and precautions that you need to take seriously. These include:

  • Carcinogenicity: skin irritation or corrosion
  • Reproductivity: serious eye damage or irritation
  • Single Exposure: respiratory or skin
  • Sensitization: repeated exposure
  • Mutagenicity: aspiration hazard

Even though the emergency overview known by OSHA hazards and HMIS classification is nothing, you should be aware that some precautions are necessary. Note that this matter is not combustible, yet as a provision for fire, it may liberate dangerous vapors. You should avoid releasing it into the environment and avoid getting it in your eyes, on your skin, or on your clothing. You are required to wash your hands and any other exposed areas with mild soap and water before leaving work or for eating, drinking, or smoking. Wearing protective gloves, chemical goggles or safety glasses, respiratory protection, and protective clothes is necessary. You also have to avoid breathing vapors, mist, or gas.

Avoid dust formation. Do not let the product enter the drains. Provide appropriate exhaust ventilation at places where dust is inaugurated. You are required to sweep up and shovel. Besides all these, you should keep strontium sulfate in suitable, closed containers for disposal and preserve the container tightly closed in a dry and well-ventilated place. In the event of spills, use appropriate tools (e.g., a scoop or brush) to collect the material and dispose of waste according to local regulations.

First Aid Measures

A crucial part of strontium sulfate SDS is about first aid measures in case of any emergency. When exposed to strontium sulfate, prompt first aid action is crucial.

  • First aid in cases of skin contact includes washing with plenty of water and mild soap, removing contaminated clothing, and, if irritation persists, seeking medical help.
  • If it is inhaled, the person should move to fresh air, and if breathing difficulties occur, seek immediate medical assistance.
  • If ingested, you must not induce vomiting; rinse your mouth with water and seek medical attention promptly.
  • For eye exposure, rinse thoroughly with water for at least 15 minutes, remove contact lenses (if applicable) during rinsing, and seek medical attention.

While strontium sulfate is generally less harmful than many chemicals, taking these precautions ensures safety and minimizes potential health risks.

Fire Compatibility

Strontium Sulfate’s fire compatibility, as detailed in its Safety Data Sheet (SDS), shows it’s not a significant fire hazard. This compound doesn’t burn quickly, which means firefighters can use any type of extinguisher if nearby materials catch fire. While strontium sulfate itself isn’t combustible, the containers holding it might burn in intense heat. If a fire breaks out near Strontium Sulfate, it’s essential to alert the fire department quickly. Firefighters should wear breathing equipment and protective gloves when tackling such incidents. They’re advised to cool any exposed containers with water spray from a safe distance and stop the chemicals from entering waterways. After the fire is out, all equipment used should be cleaned thoroughly. 

Cleanup Methods

Cleaning up strontium sulfate spills requires different approaches based on the spill size, as outlined in its strontium sulfate SDS.

  • For small spills:

Quick action is key. Workers should protect themselves by wearing safety glasses and gloves that don’t let the chemical through. It’s best to use dry cleanup methods, like vacuuming with special explosion-proof machines, to avoid stirring up dust. Air hoses aren’t recommended for cleaning. The spilled material should go into a clean, dry container with a proper label.

  • For larger spills:

They need more careful handling. The first step is to clear the area of people and call the fire department. Anyone dealing with the spill should use protective gear, including dust masks. It’s crucial to keep the chemical out of drains and water sources. Carefully sweeping or shoveling the substance is the way to go, aiming to recover as much as possible. Any leftover material should be put in labeled plastic bags for safe disposal. If the spill reaches waterways, it’s important to let emergency services know right away.

Safe Handling Methods

Handling strontium sulfate safely is crucial, as outlined in its Safety Data Sheet (SDS). Workers should minimize unnecessary contact and wear protective gear when there’s a risk of exposure. Good ventilation is a must in the work area. It’s important to keep strontium sulfate away from materials it doesn’t mix well with. When working with this chemical, there are several key practices to follow:

  • Don’t eat, drink, or smoke while handling it;
  • Keep containers tightly closed when not in use;
  • Avoid damaging the containers;
  • Wash hands with soap and water after handling;
  • Wash work clothes separately.

Regular checks of the air quality against set safety standards help maintain a safe workplace. For storage, keep Strontium Sulfate in its original containers in a cool, dry place, away from extreme temperatures and incompatible materials. Large quantities need extra care – consider using contained areas and have a plan ready in case of accidental spills, especially near water sources.

Storage Techniques

As highlighted in strontium sulfate SDS, proper storage of the substance is essential for safety and product integrity. When choosing containers, several options are suitable:

  • Lined metal cans or pails
  • Plastic pails
  • Polyliner drums

It’s crucial to follow the manufacturer’s recommendations for packaging. Before use, always check that containers are clearly labeled and don’t have any leaks. While strontium sulfate doesn’t have any known specific storage incompatibilities, it’s important to keep it away from water, food, animal feed, and seeds to prevent contamination. The SDS doesn’t mention any particular hazard categories under EC Regulation 1272/2008, nor does it specify a qualifying quantity for dangerous substances. This suggests that strontium sulfate is relatively stable in storage, but proper handling remains important.

 

Conclusion

Strontium sulfate has several uses in ceramics, pyrotechnics, powder coating, liquid paints, glass and pottery glazes, crystal glass, and plastics. It has a splendid part in other industries such as oil and gas extraction, production of paints and rubber, zinc electrolysis, white pigment for artists, welding electrode coating, radiography and scintillation detectors, etc. These applications show the versatility of strontium sulfate across various sectors of industry. So, hazard awareness and any outline of emergency procedures are of high importance. Every person that is in touch with this chemical should care about the environmental issues of this substance. Moreover, regulatory compliance comprising safety regulation and proper handling practices is vital.