Sodium tripolyphosphate.Transportation
Sodium Bentonite.
Sodium Bentonite.
Sodium Molybdate.
Sodium sulphate.
Sodium feldspar.
Sodium alginate.
Sodium hydrosulfite.Manufacturer, shipping
Sodium gluconate.
Sodium silicate.Export
Sodium chloride.
Sodium hypochlorite.
Sodium bentonite.Mining, manufacturing, logistics, import & export, financing, warehousing, tech service
Sodium gluconate.
Sodium triphosphate.
Sodium acetate.Manufacturer
Sodium Hyaluronate.
Himalayan pink salt is a popular and visually striking salt known for its distinct pink color and mineral content. Heres a comprehensive overview: Origin and Composition Source: Himalayan pink salt is mined primarily from the Khewra Salt Mine in the Punjab region of Pakistan. This ancient mine is one of the oldest and largest in the world, estimated to be around 250 million years old. Composition: The salt is composed mainly of sodium chloride, but it also contains trace amounts of other minerals, such as potassium, magnesium, calcium, and iron, which contribute to its pink color and flavor. These minerals are often claimed to provide additional health benefits. Types and Forms Types: Pink salt is available in various forms, including: o Coarse: Large crystals often used in salt mills or for seasoning dishes. o Fine: Ground to a finer consistency, suitable for cooking and seasoning. o Himalayan Salt Blocks: Used for grilling, chilling, and serving food. o Bath Salts: Used in spa treatments for their purported therapeutic benefits. o Lamps: Himalayan pink salt lamps are decorative items made from large blocks of pink salt, believed to offer benefits like air purification and relaxation through the release of negative ions. o Animal Lick: Pink salt animal licks provide essential minerals and electrolytes to livestock, supporting their overall health and well-being. Uses Culinary: Pink salt is used in cooking, seasoning, and as a finishing salt. Its flavor is often described as milder and more nuanced compared to regular table salt. Health and Wellness: Itâ??s popularly used in bath salts and scrubs, as well as in salt lamps, which are believed to offer benefits like improved air quality and relaxation. Decorative: Salt blocks and lamps made from Himalayan salt are used as unique decorative items. Health Benefits and Claims Mineral Content: The trace minerals in pink salt are often cited as contributing to various health benefits, such as improved hydration and electrolyte balance. Detoxification: Some people use Himalayan salt in bath soaks for its supposed detoxifying effects. Air Purification: Himalayan salt lamps are claimed to purify the air by releasing negative ions, although scientific evidence supporting these claims is limited.
We, Modkha Marine Sdn. Bhd. has more than 7 years experience as a global supplier of high-quality ball clay. We are the direct supplier, hence buying from us means you will have great cost-saving for your material sourcing. To give you a brief idea, our production capacity for a month is roughly around 50,000 MT for raw ball clay and our main exports were to Asian countries as well as the European region. Our payment terms are Letter of Credit (L/C) and Telegraphic Transfer (T/T). We also provide a variety of delivery terms, including FOB, CFR and CIF. For packaging, we prefer loose bulk. Below are our Plastic Ball Clay Specification: DILATOMETRIC ANALYSIS Linear Thermal Expansion, �¯�¿�½?�± x 10-7 (�°C-1) [50�°C-500�°C] � 63.8 RESIDUE CONTENT Residue Content on 63m (w/w %) � 1.7 Residue Content on 106m (w/w %) � 1.6 Fired Shrinkage (%) (@1200�°C) � 8.5 Water Absorption (%) (@1200�°C) � 2.6 DRY MOR (kg/cm2) � 57 FlRED COLOUR L Value � 71.3 a Value � 4.4 b Value � 21.2 CHEMICAL ANALYSIS USIING XRF Silica as SiO2 (%) � 60.23 Aluminium as A2O3 (%) � 25.26 Titanium as TiO2 (%) � 1.00 Iron as Fe2O3 (%) � 1.94 Sodium as Na2O (%) � 0.04 Potassium as K2O (%) � 1.70 Calcium as Cao (%) � 0.01 Magnesium as MgO (%) � 0.60 Phosphorus as P2O5 (%) � 0.03 Manganese as MnO (%) � 0.01 Chromium as Cr2O3 (%) � 0.01 Zirconium as ZrO2 (%) � 0.04 Hafnium as HfO2 (%) � 0.00 Sulphur as SO3 (%) � 0.00 Strontium as SrO (%) � 0.01 Loss on Ignition (%) (@1025�°C) � 9.1 MOISTURE CONTENT (%) � 28 - 32
High-conductivity gel for electrocardiography (ECG) is a specialized conductive gel used to improve electrical conductivity between the skin and ECG electrodes during cardiac monitoring procedures. Here's more information about high-conductivity gel for ECG: Purpose: The primary purpose of high-conductivity gel is to reduce impedance and improve the transmission of electrical signals between the skin and the ECG electrodes. This ensures accurate and reliable recording of the heart's electrical activity during ECG testing. Composition: High-conductivity gel is typically water-based and contains conductive agents that enhance its electrical conductivity properties. Common ingredients may include water, glycerin, propylene glycol, carbomer, electrolytes (e.g., sodium chloride), and preservatives. Conductivity: High-conductivity gel is formulated to have superior electrical conductivity compared to standard ECG gels or other electrode contact solutions. This allows for better signal quality and minimizes the risk of artifacts or interference during ECG recordings. Viscosity: The gel's viscosity is designed to be suitable for easy application and spreadability on the skin. It should be thick enough to adhere to the skin and maintain contact with the electrodes but not too thick that it hinders electrode placement or skin contact. Non-Staining: High-conductivity gel is typically formulated to be non-greasy and non-staining, ensuring minimal residue on the skin after use. This helps maintain patient comfort and prevents staining of clothing or bedding. Compatibility: High-conductivity gel is compatible with various types of ECG electrodes, including disposable electrodes, reusable electrodes, and adhesive electrodes. It can be used with standard ECG machines and Holter monitors. Application: Before applying the gel, the skin should be cleaned to remove any oils, lotions, or dirt that may interfere with electrode contact. A thin layer of high-conductivity gel is then applied to the skin at the electrode sites before attaching the electrodes. Hygiene: High-conductivity gel should be stored in a clean and dry environment to prevent contamination. Disposable single-use packets or bottles with dispensing caps are commonly used to maintain hygiene and prevent cross-contamination between patients. Overall, high-conductivity gel plays a crucial role in ensuring optimal electrode-skin contact and signal quality during ECG testing. Its superior conductivity properties make it an essential accessory in cardiac diagnostic procedures, allowing for accurate interpretation of the heart's electrical activity.
