Termékek potesium (6)

Kálium-amíloxantát 90% (PAX 90%) 293090 - Kálium-amíloxantát (PAX)

Kálium-amíloxantát 90% (PAX 90%) 293090 - Kálium-amíloxantát (PAX)

Chemical appearance: Potassium Amyl Xanthate (PAX) is available in the form of yellowish or pale-grey crystals or in the form of free-flowing powder in the purest state. PAX is also available in the form of a solution. PAX is highly water-soluble and emits a slightly unpleasant odor that is similar to that of carbon disulfide or that of decaying cabbage. Another property of PAX is the absorption of moisture from air i.e., hygroscopic nature. Chemical application and strengths: The properties of PAX as a Xanthate make it the ideal collector for various nonferrous metallic ores. Potassium Amyl Xanthate is the perfect choice for flotation processes of nonferrous metallic ores as a strong yet non-selective collector. PAX works effectively as a flotation reagent in the flotation of oxide minerals such as oxidized sulfide CAS Number:2720-73-2 HS Code:293090
Kálium-Magnézium-Citrát 100 Kapszula

Kálium-Magnézium-Citrát 100 Kapszula

An ideal duo: Potassium & magnesium in citrate form have a variety of tasks. A good supply of potassium is only useful if the supply of magnesium is good at the same time, because magnesium is necessary for the transport of potassium into cells. The two minerals are particularly effective when they are supplied jointly in the optimum proportions. Supports/Is good for Stress and unrest Mood swings, tiredness Increased blood pressure Cardiovascular system weakness Muscular cramps in sports and physical strain Bowel problems, constipation, extended diarrhoea Oedema, water retention Weak kidneys Osteoporosis Recommended dose 2 to 3 capsules every day with water. Potassium is found in particular in the cells and is essential for energy metabolism. Moreover, it has important functions during substance transportation through the cell membrane. Potassium is necessary for the maintenance of heart and muscular function, nerve conduction.
Kálium-antimonium-tartrát

Kálium-antimonium-tartrát

Antimonium Tartrate Potassium is a chemical majorly used in healthcare and medicine. It is used as an emetic substance to induce vomiting or cause nausea. It is also helpful in the treatment of leishmaniasis and schistosomiasis. The chemical substance is produced by the reaction of Antimony trioxide and potassium hydrogen tartrate. The chemical formula of the compound is K2Sb2(C4H2O6)2 · 3 H2O. Chemical Appearance Antimonium Tartrate Potassium is a white crystalline powder. The chemical is odorless and may sometimes be colorless. It is majorly produced in the hydrate form. It is mildly soluble in water with a solubility of 8.3 g/100 mL(0 °C) and 35.9 g/100 mL (100 °C). It is toxic if swallowed but non-toxic to the human skin. Chemical Applications and Strengths Antimonium Tartrate Potassium is a unique chemical with limited functions. It is used in the fabrics and leather-making industries. It also finds application in healthcare. CAS Number:28300-74-5 HS Code:16039-64-8
Kálium-amilo-xantát 90% (PAX 90%) - Kálium-amilo-xantát (PAX)

Kálium-amilo-xantát 90% (PAX 90%) - Kálium-amilo-xantát (PAX)

Chemical appearance: Potassium Amyl Xanthate (PAX) is available in the form of yellowish or pale-grey crystals or in the form of free-flowing powder in the purest state. PAX is also available in the form of a solution. PAX is highly water-soluble and emits a slightly unpleasant odor that is similar to that of carbon disulfide or that of decaying cabbage. Another property of PAX is the absorption of moisture from air i.e., hygroscopic nature. Chemical application and strengths: The properties of PAX as a Xanthate make it the ideal collector for various nonferrous metallic ores. Potassium Amyl Xanthate is the perfect choice for flotation processes of nonferrous metallic ores as a strong yet non-selective collector. PAX works effectively as a flotation reagent in the flotation of oxide minerals such as oxidized sulfide, lead, and copper ores. PAX is also a popular flotation collector for copper-nickel sulfide and auriferous pyrite CAS Number:2720-73-2 HS Code:293090
Kálium-butil-xantát 90% (PBX 90%) - Xantátok

Kálium-butil-xantát 90% (PBX 90%) - Xantátok

Potassium Butyl Xanthate is a reagent that plays a pivotal role in modern mining and metallurgy. Flotation Process Facilitator: Potassium Butyl Xanthate is an indispensable ally in the flotation process, a cornerstone of mineral extraction. Flotation involves separating desired minerals from their ores. Selective Adhesion: When introduced to a slurry of finely ground ore and water, Potassium Butyl Xanthate selectively adheres to sulfide minerals present in the mixture. These minerals, often hosting valuable elements like copper or lead, exhibit a unique affinity for the xanthate. Bubble Attachment: Air bubbles are introduced into the slurry. The hydrophobic mineral surfaces coated with Potassium Butyl Xanthate collectors readily attach to the bubbles, effectively making them float to the surface. Rising to the Top: The mineral-laden bubbles rise to the surface of the flotation cell, forming a froth layer. CAS Number:871-58-9
Kálium-butil-xantát 90% (PBX 90%) - Xantátok

Kálium-butil-xantát 90% (PBX 90%) - Xantátok

Potassium Butyl Xanthate is a reagent that plays a pivotal role in modern mining and metallurgy. Flotation Process Facilitator: Potassium Butyl Xanthate is an indispensable ally in the flotation process, a cornerstone of mineral extraction. Flotation involves separating desired minerals from their ores. Selective Adhesion: When introduced to a slurry of finely ground ore and water, Potassium Butyl Xanthate selectively adheres to sulfide minerals present in the mixture. These minerals, often hosting valuable elements like copper or lead, exhibit a unique affinity for the xanthate. Bubble Attachment: Air bubbles are introduced into the slurry. The hydrophobic mineral surfaces coated with Potassium Butyl Xanthate collectors readily attach to the bubbles, effectively making them float to the surface. Rising to the Top: The mineral-laden bubbles rise to the surface of the flotation cell, forming a froth layer. CAS Number:871-58-9