Of course, knowing which powder in the barite family has the highest strength can help you choose the best product accordingly. Barite powder is known for its high strength. However, do you really need barite powder? What kind of barite powder should I choose? How much should I use? What is the best way to apply barite? Let's talk about these questions below! - Barite Powders There are different types of barite powders; some have no additives while others contain some additives. Before choosing a barite powder, check if they have any type of additive added. You don't want to buy a product containing something toxic/hazardous. - Types of Barites The following are the 5 types of barite powder commonly used: - Barite powder Barite is considered the strongest mineral. It is great for people who are looking for a long-lasting material. Barite contains the highest percentage of magnesium, which makes it a popular ingredient in many products. It helps strengthen bones and increase bone density. - Calcium Barite This is a good option for those who want their soil to last longer. It is suitable for both indoor and outdoor farming. It is usually combined with other nutrients, making sure to add enough nutrients to maintain soil fertility. - Alkaline Barite Alkaline barite is a natural fertilizer that is often recommended for anyone who wants their soil to stay fertile over time. It is ideal for those who want to ensure lasting soil quality. - Carbonate Barite Carbonate barite is useful for potting soil and is a well-liked choice among growers. It is perfect for starting seeds.
- Eureka Barite
Eureka barites are some of the strongest barites available. Its high strength comes from its extremely low level of impurities. The barite used for making Eureka grows naturally beneath the sea floor, where it is protected from contamination. Its purity is unmatched, making it an excellent barite choice for use in homemade fertilizer products.
- Ultra-Pure Barite
Another option you might want to consider is ultra-pure barite. This barite is still highly pure, but much cleaner than eureka barites. It is also less expensive. That being said, it is not nearly as strong as the eureka variety.
- Barite
Barite is a low-cost and widely available barite powder that works well for many types of gardeners. It is also readily available at most local hardware stores. It has moderate strength but works well for basic gardening uses.
- Borax
Borax is a milder version of sodium borate, which is generally safe for most people and plants to use. The downside of using borax is that it does not last as long as higher-strength barite powders. However, it is inexpensive, easy to find, and can be applied directly to both soil and water. Atomic number 56; atomic weight (mass) 137.34. Seven stable isotopes with mass numbers 130, 132, 134, 135, 136, 137, and 138 are found in natural barium. 138Ba is the most prevalent isotope. The use of barium and related derivatives in medicine is widespread. The substance used for protection against -radiation contains barium. In fluoroscopy, barium sulfate is employed as a radiopaque agent. The occupational dangers of barium and related derivatives are based on the toxicity of soluble barium salts and barium-containing dust. Barium was discovered by SW Scheele in 1774. 5 x 10 - 2 weight percent of the crust's mass It only exists in its compound form in nature. Heavy spar (baso4) and Witherite are the most important minerals (baco3). Barium is a delicate, white-silvery metal. Density 3.5, t° melt 710-717°, t° kip 1634-1640°. It is quite chemically active. In all stable compounds, carbon is divalent. It is quickly oxidized in the air and coated by a barium oxide (BaO), barium peroxide (BaO2), and barium nitride coating (Ba3N2). It ignites readily when exposed to air or impact heat. Store barium in kerosene. Together with oxygen, barium generates barium oxide, which, when heated to 500 degrees Celsius in air, becomes barium peroxide, which is used to produce hydrogen peroxide. BaO2 + H2SO4 ⇆ BaSO4 + H2O2. Hydrogen is displaced by barium's reaction with water: Ba + 2H 2 O \u003d Ba (OH) 2 + H 2. It interacts readily with halogens and sulfur. It produces salts. Barium salts derived from Cl -, Br -, I -, and NO3 ions are easily soluble in water but almost insoluble in the ions F -, SO4 -2, and CO3 -2. Volatile barium compounds provide a yellow-green hue to the colorless flame of a gas burner. This attribute is used to measure the quality of barium. Quantitatively, barium is measured by precipitating barium sulfate with sulfuric acid using the gravimetric technique (BaSO4). In modest proportions, barium is found in the iris of the eye, where it is present in the greatest concentrations.
- Occupational hazard
Industry (glass, paper, rubber, ceramic manufacture, metallurgy, plastics production, diesel fuel production, electric vacuum industry, etc.) And agriculture makes extensive use of barium and its compounds. Barium enters the body through the respiratory and digestive systems (inhalation and ingestion of dust). The kidneys and salivary glands excrete it via the gastrointestinal system. Prolonged exposure to barium dust and disregard for workplace hygiene regulations may result in pneumoconiosis (see), which is often accompanied by acute inflammation of the lungs and bronchi. Except in situations of pneumoconiosis with accelerated diffusion of lung patterns and compression of lung roots, workers in businesses that create barium carbonate dust may exhibit migrations that suggest the overall toxicity of barium carbonate. Soluble barium salts are poisonous. It causes meningitis and affects the heart and smooth muscles. In the case of acute poisoning, there is excessive salivation and burning in the mouth and esophagus, stomach pain, abdominal pain, nausea, vomiting, diarrhea, high blood pressure, convulsions, possible paralysis, sharp cyanosis of the face and extremities (cold extremities), excessive cold sweat, and general muscle weakness. Vision impairment causes paralysis of the pharynx and tongue muscles, shortness of breath, vertigo, and difficulty walking and speaking. In cases of acute poisoning, the victim dies unexpectedly within the first several days. The symptoms of chronic poisoning include extreme weakness and shortness of breath. Inflammation of the oral mucosa, sneezing, conjunctivitis, diarrhea, gastrointestinal bleeding, high blood pressure, increased heart rate, pulse irregularity, trouble urinating, and loss of hair on the head and eyebrows are all side effects of this medication (barium salt workers). Despite enormous volumes of release, barium salts acute poisoning results in minor deposits in the organs (liver, brain, endocrine glands). The majority of the barium (up to 65 percent of the dosage ingested) is found in bones. Concurrently, it is transformed into partly insoluble barium sulfate. Antidotes for poisoning Immediate and copious gastric lavage with a solution of sodium sulfate (Glauber's salt) - 1 teaspoon per liter of water; After taking the laxative, consume 1 teaspoon of a 10% sodium sulfate solution every five minutes. Simultaneously (for neutralization), consume protein water or milk gently. Emetics have been demonstrated to eliminate insoluble barium sulfate precipitated in the stomach by hydrochloric acid in gastric juice. As indicated, cardiotherapy (caffeine, camphor, Roblin), leg fever. The prevention of occupational barium poisoning is limited to automation and mechanization of processes, equipment sealing, and exhaust ventilation. Particularly important are the adherence to personal hygiene measures to avoid the entry of salts into the respiratory and gastrointestinal tracts, as well as the complete medical monitoring of worker health with frequent exams conducted by medical specialists. For BaSO4 - 4 mg/m 3, and for BaCO3 -1 mg/m 3, the maximum concentration is allowed in an industrial facility's air.
- Barium in Forensic Science
For instance, soluble barium salts such as barium sulfate, which is used in food, water, and fluoroscopy, may lead to poisoning. Criminal and occupational instances of barium salt poisoning have been documented. Clinical data are vital for testing. Agitation, salivation, burning, esophageal or abdominal discomfort, vomiting, diarrhea, inability to urinate, etc. Death happens abruptly four to ten hours after barium is ingested. Excessive congestion of internal organs, cerebral hemorrhage, and fatty degeneration of the gastrointestinal system, and liver were discovered during an autopsy. Barium accumulates in bones and bone marrow (65%), skeletal muscle, liver, kidneys, and the gastrointestinal system in cases of poisoning. Forensic chemical evidence of barium compound poisoning relies on detection and weight procedures based on trace chemical reactions or quantitative measurement of barium sulfate precipitates by complicated titration. Barium is a chemical element belonging to group 2 of the periodic chart, with the atomic number 56 and a relative atomic mass of 137.33. It falls between cesium and lanthanum in the sixth period. 130 (0.0101%), 132 (0.097%), 134 (2.42%), 135 (6.59%), 136 (7.81%), 137 (11.32%), and 138 (71.66%) are the mass percentages of barium found in nature. In the majority of compounds, barium's maximal oxidation state is +2, although it may also be 0. In nature, barium only exists in its divalent form.