Code 93200: Suitable for the removal of bad odor, organic vapours from polluted environment, and for riding bike and motorcycle. Features Suitable for the removal of bad odor, organic vapors from polluted environment, and for riding bike and motorcycle. 1. Type: Flat shape, 4-ply, non-sterile 2. Size: For adults 3. Color: White 4. Outer Layer: Water-repellent non-woven Middle 1 Layer: Activated carbon with PE+ polyester Middle 2 Layer: High level static filtration non-woven Inner Layer: Microfilter thermal-bond non-woven 5. Nose band: PE iron wire
Kaolinite is the mineral that is derived from the rock called â??Kaolinâ?? and from there, it gets its name. It is also commonly known as â??China Clayâ??. Kaolin is mined from the regions of Gujarat, Rajasthan, Kerala, West Bengal and Jharkhand in India The physical properties of Kaolin include high brightness, non-abrasiveness, poor conductivity of heat and electricity and it has naturally fine particles. Kaolin remains white after calcination due to its refractory properties and can be easily dispersed in water. There are several variations within Kaolin such as Hydrous Kaolin, Metakaolin and Calcined Kaolin. We offer a vast range of Kaolin-based minerals to several businesses from paper manufacturing to porcelain tableware, paints, cosmetics, packaging, rubber and pharmaceuticals to name a few. We customize our minerals according to the needs of the industry of our clients. Hydrous Kaolin has fine particles with plate-like shapes and inertness in terms of chemical reactivity, whereas, Metakaolin is created by the process of calcination of Kaolin. It is a white mineral additive which is most popularly used in cement-based products. In contrast to this, Calcined Kaolin is manufactured by heating the finest natural kaolin to high temperatures in a kiln. This calcination process changes the size and shape of the particles, enhances the whiteness and hardness of the mineral and improves its electrical conductivity. Kaolinite is a clay mineral, with the chemical composition Alâ??Siâ??Oâ??(OH)â?? Various Industrial Usages: Kaolin is a very important mineral in the ceramics industry. Itâ??s high fusion temperature and white firing characteristic makes it perfect to be used in the manufacture of sanitaryware, tableware, floors & tiles and refractories. In the construction industry, kaolin is used to enhance the mechanical properties, porosity and look of several types of cement and concrete. It is also an impeccable source of alumina source in the manufacturing of fiberglass. Kaolin is used in paper manufacturing and fiber-based packaging also. Our Kaolin mineral enhances surface functionality when it is used as fillers or coating pigments and thus further helping in reducing the manufacturing cost of the paper or the packaging. Moreover, it is extensively used in decorative paints formulations as it is a natural opacifier and it is the perfect mineral when high gloss is required. Our specialized Kaolin also can be used as multi-purpose fillers to improve the performance of adhesives, plastics and rubber. We are extremely confident in our offering of Kaolin mineral as we understand how Kaolin can optimize the performance, reduce the costs and can achieve minimum carbon footprint in our clientâ??s end products
High quality battery grade conductive carbon
Features Of Graphite Powder Graphite Powder is our ultra-fine powder. Graphite powders are composed primarily of ultra-fine particles classified as per ultrafine size for various applications. It has 98-99% of Fixed Carbon content. It has self-lubricity and plasticity in high temperatures. Applications Drilling Conductive paints Electrically and thermally conductive coatings
Product Name: Conductive Carbon Black Model: GR-F100A Iodine Adsorption Value:950(mg/g) DBP/DBF Absorption Value:390(ml/100g) PH Value: 6.5-9.5 Heating Loss:0.8% Ash Content:2.0% Sulfur Content: 0.8% El.Resistivity(10% carbon black+PE): 20(Ohm.cm) Bulk Density:112(g/l) Nitrogen S.A.:800(?/g) Sieve Residue(0.045mm):500ppm. Fines Content: 20% Usage: paint, ink, water coating, color asphalt, color brick, color tile, antique building, papermaking, pottery, rubber and plastic industry.
We are the leading Supplier of Brazilian Refined White Cane Sugar Icumsa 45 sugar. We sell worldwide to all interested buyers at very low prices and we offer prompt delivery to your well destination. Solution color: 45 icumsa units max Radiation: within internationally accepted limits Moisture content: 0.06% max Invert sugar content: 0.04% max Ash conductivity: 0.04% max Sulfur dioxide: 15 mg / kg max Anti-caking agents: maximum content of 1.5 m / m individually or combination of the following agents: -Tribasic calcium phosphate -Magnesium carbonate - Amorphous silicon dioxide (dehydrated silica gel) -Calcium silicate -Magnesium trisilicate -Aluminosilicate sodium -Aluminosilicate calcium Polarization: 99.7% min Moisture content: 0.06% max Invert sugar content: 0.04% max Ash conductivity: 0.04% max Total bacteria: 60 max E. coli: 30 max Mold: 25 max Sulfur dioxide (sosub2): 15 max Arsenic (as): 0.5 max Lead (bp): 0.5 max Polarization: 99.80 Degrees min -Ash Content : 0.08 Max. -Icumsa: 45 -Substance: Solid Crystal -Origin: Thailand -Year of product: Current Product Name : High quality White Sugar, Brown Sugar, Icumsa 45 Raw sugar. Type : ICUMSA Color:Sparkling White Crystal Harvest : Last Consumption : Suitable for Human Consumption Polarization : 99.80% Mainimum : Humidity : 00.04% Maximum Suphateash Content ; 00.04% Maximum Granulation : Fine Odour
(1). Potassium hydroxide is widely used in the production of potassium carbonate including KHCO3, potassium soaps,detergents, fine cosmetic, potassium hydrogen phosphate, potassium permanganate, medical intermediate, liquid fertilizers, synthetic rubber, ABS resin, natural rubber emulsion, paper agent, fermentation, cresol, de-sulfuration in petroleum refining, bio-fuel and alkaline battery. (2). Potassium hydroxide can be used as a desiccant, sorbent, used for preparing potassium soap, oxalic acid and various salt, also used in electroplating, carving and so on. (3). Potassium hydroxide can be used for the production of potassium soap,alkaline battery, cosmetics in light industry (such as cream, cream and shampoo). (4). In the dye industry, Potassium hydroxide can be used for the production of vat dyes, such as vat blue RSN, etc.. (5). In the electrochemical industry, Potassium hydroxide can be used for electroplating, engraving, etc.. (6). In the textile industry, Potassium hydroxide can be used for printing and dyeing, bleaching and mercerizing, and used as the main raw material for synthetic fiber, polyester fiber manufacturing. (7). In addition, it is also used in metallurgical heating agent and leather fat, etc.. (8). Potassium hydroxide can be used as analytical reagent, reagent, carbon dioxide and water absorbent, and also used in pharmaceutical industry; (9). Potassium hydroxide can be used as the PH value of acid and alkali neutralization solution. (10). Potassium hydroxide can be used as the basic chemical reagent, carbon dioxide absorbent. saponification agents.
Sugar ICUMSA 45. White Crystal High-Grade Refined ICUMSA 45 Sugar WHITE CANE SUGAR ICUMSA 45. Brazilina Sugar ICUMSA 45 SPECIFICATION: Brazilian Sugar ICUMSA 45 colour of the solution: 45 icumsa units max radiation: within internationally accepted limits moisture content: 0.06% max invert sugar content: 0.04% max conductivity ash: 0.04% max sulphur dioxide: 15 mg/kg max anti-caking agents: maximum level of 1.5 m/m singly or combination of following agents: -calcium phosphate, tribasic magnesium carbonate silicon dioxide, amorphous (dehydrated silica gel) calcium silicate magnesium trisilicate sodium aluminosilicate calcium aluminosilicate polarization: 99.7% min moisture content: 0.06% max invert sugar content: 0.04% max conductivity ash: 0.04% max total bacteria: 60 max e. coli: 30 max mould: 25 max sulphur dioxide (sosub2): 15 max arsenic (as): 0.5 max lead (pb): 0.5 max Brazilians Sugar ICUMSA 45
1. Chopped basalt fiber Basalt fiber is a kind of inorganic fiber material. Chopped basalt fiber is an inorganic mineral fiber with a length of less than 50mm and can be evenly dispersed in cement concrete. 2. Characteristics of chopped basalt fibers (1) The naturalness of raw materials. Because the raw material for producing continuous basalt fiber depends on the natural volcanic extrusive rock, there are no ingredients harmful to human health except that it is inherently high in chemical stability and thermal stability. (2) Comprehensive performance. Basalt fiber is acid resistant and alkali resistant. It is both low temperature and high temperature resistant. It is insulated and insulated by heat and electricity. Its tensile strength is higher than that of large tow carbon fiber. Its elongation at break is even better than that of small tow carbon fibers. It has high compressive strength, shear strength and adaptability to aging, and has good comprehensive properties in harsh environment. (3) Low cost. The price of basalt fiber used in cement concrete is significantly lower than that of steel fiber and polyester fiber. (4) Natural compatibility. Basalt fiber is a typical silicate fiber, which is easy to disperse when mixed with asphalt concrete, cement concrete and mortar. The newly mixed basalt fiber concrete has stable volume, good workability and durability, and has superior high temperature resistance, anti-seepage, crack resistance and impact resistance.
Brazilian Brown Sugar ICUMSA 45 SPECIFICATION: Brazilian Sugar ICUMSA 45 colour of the solution: 45 icumsa units max radiation: within internationally accepted limits moisture content: 0.06% max invert sugar content: 0.04% max conductivity ash: 0.04% max sulphur dioxide: 15 mg/kg max anti-caking agents: maximum level of 1.5 m/m singly or combination of following agents: -calcium phosphate, tribasic â?? magnesium carbonate â?? silicon dioxide, amorphous (dehydrated silica gel) â?? calcium silicate â?? magnesium trisilicate â?? sodium aluminosilicate â?? calcium aluminosilicate polarization: 99.7% min moisture content: 0.06% max invert sugar content: 0.04% max conductivity ash: 0.04% max total bacteria: 60 max e. coli: 30 max
Pet Resin: A type of polyester resin widely used in the production of plastic containers, bottles, and packaging. Material Composition: Pet resin stands for polyethylene terephthalate, a thermoplastic polymer. Clear and Transparent: Known for its clarity, making it suitable for see-through packaging. Lightweight: Pet resin is lightweight yet durable, making it an ideal choice for various applications. Food and Beverage Safe: Often used for food and beverage containers due to its non-toxic and safe properties. Recyclable: Pet resin is recyclable, contributing to sustainability and eco-friendly packaging. High Strength: Offers good mechanical strength, making it suitable for storing liquids and solids. Resistance to Moisture: Pet resin has low moisture absorption, maintaining product integrity. Versatile Applications: Used for water and soft drink bottles, food containers, cosmetic packaging, and more. Barrier Properties: Provides a barrier against oxygen, carbon dioxide, and moisture, preserving freshness. Clarity and Gloss: Pet resin maintains a glossy appearance and transparent quality. Production Efficiency: Easily molded into various shapes using injection molding or blow molding techniques. Environmental Impact: Recycling initiatives help reduce the environmental impact of pet resin usage. FDA Approved: Compliant with food and drug regulations, suitable for packaging consumable goods. Packaging Innovation: Pet resin allows for creative and functional packaging designs. Retail and Convenience: Commonly found in retail settings due to its versatility and attractive appearance. Sustainable Choices: Recyclable nature encourages manufacturers and consumers to opt for sustainable packaging solutions.
Pigment carbon black: C111 C121 C311 C321 C611 F311 F315 F615 HCS-200R HCS-300R HCS-650R HCS-1 HCS-2 HCS-3 HCS-4 TY-1 TY-2 TY-3 TY-5 TY900 HCS-1355 HCS-1155 HCS-1655 Rubber carbon black: Brand/Grade N110 N115 N120 N121 N125 N134 N135 N219 N220 N231 N234 N293 N299 N326 N330 N335 N339 N343 N347 N351 N356 N358 N375 N539 N550 N582 N660 N683 N754 N762 N765 N772 N774 N787 N990 N991 Conductive black: Super P, HCY-70 HCY-80 HCY-90 HCD 1-6 Acetylene black : Powder 50% Compression Product 75% Compression Product 100% Compression Product
Descriptions: Thermal conductivity graphite film also called graphite heat sinkï¼?is a new cooling material for thermal conductive. Xinst thermal conductivity graphite film is made of natural graphite as the main raw material by the hot pressureï¼?flexible continuous rolling process. The unique grain orientation, and also both l and vertical direction uniform heat conduction, slice layer structure can be well adapt to any surface, shielding the heat source for components of consumer electronic products and improve performance. Features: High thermal conductivity: maximum heat conductivity can be 1900 W/m.k for horizontal plane, and three-dimensional heat conduction. Light weight: 25% lighter than aluminum, 75% lighter than copper. Soft, flexible to operate, can be easily pasted on both flat and curved surfaces. Work temperature: max Temp can gain to 400 â??, and min temp can gain to -40â??. Applications: Mainly used in IC, CPU, MOS, LED, heat sink, LCD-TV, laptop computers, communications equipment, wireless switches, DVD, handheld devices, video camera/digital cameras, mobile phones
Industry - Defense. Outer Shell - 100% Nylon 66, 150 GSM FR Treatment Optional Camouflage printing. Middle Layer - Activated Carbon Fabric with nanopore structure. Inner Layer / Lining - Cotton: Polyester blend with Antimicrobial Treatment Cotton : Viscose blend with Antimicrobial Treatment. Size - XS to 5XL (ASIA) 34 to 60 (US) 34R to 60R (UK) 44 to 70 (EU).
Incoloy Alloy 908 is a high-temperature, high-strength, and highly corrosion-resistant alloy composed of elements such as nickel, chromium, molybdenum, and iron. It is a single-phase austenitic alloy, typically formed by casting and forging. Chemical composition: The chemical composition of Incoloy Alloy 908 is composed of elements such as nickel, chromium, iron, molybdenum, vanadium, manganese, tantalum, silicon, carbon, phosphorus, and sulfur. Nickel content is 40-45%, chromium content is 20-23%, iron content is 16-19%, and molybdenum content is 8-10%. Mechanical properties: Incoloy Alloy 908 has excellent high-temperature and high-strength performance. Its tensile strength is 135 ksi (930 MPa) (minimum), yield strength is 70 ksi (480 MPa) (minimum), and elongation is 25% (minimum). Physical properties: The density of Incoloy Alloy 908 is 8.14 g/cm�³, the melting point is 1338�°C (2440�°F), the thermal conductivity is 11.7 W/m�·K (100�°C), and the coefficient of thermal expansion is 13.7 �¼m/m-K (20-100�°C). Corrosion resistance: Incoloy Alloy 908 has excellent corrosion resistance, especially in high-temperature, high-pressure, and highly corrosive environments. It can withstand the corrosion of corrosive media such as sulfuric acid, hydrochloric acid, nitric acid, and fluoride, and can resist chloride stress corrosion cracking (SCC). The international standard designations for Incoloy alloy 908 include UNS N09908 and W.Nr. 1.4876. There are also corresponding standards and specifications in different countries and regions, such as AMS and ASTM standards in the United States, EN standards in Europe, and JIS and JPI standards in Japan. Here are the specific standards and designations for Incoloy alloy 908 in different countries: United States: AMS 5545, AMS 5546, AMS 5547, AMS 5549, ASTM B408, UNS N09908 Germany: DIN 17752, DIN 17753, DIN 17754, W.Nr. 1.4876 United Kingdom: BS HR 6 Europe: EN 10095 Japan: JIS H4551, JPI-SB46 We can provide the following the form:Incoloy alloy908 coil; Incoloy alloy908 strip;Incoloy alloy908 plate; Incoloy alloy908 sheets; Incoloy alloy908 tube; Incoloy alloy908 pipe;Incoloy alloy908 flat; Incoloy alloy908 bar GB:HR 6/JIS:H4551/UNS:N09908/W.Nr:1.4876
Product Name : Conductive Carbon Black Nano powder Pack Size: 10 gram, 50gram, 100gam ,250gram, 500 gram Product Name Conductive Carbon Black Nanopowder Cas No 7440-44-0 Appearance Black Powder Purity 99.9% APS 60-70 nm (Can be Customized) Formula C Product no. SCM-NM-104/22 Molar Weight N/A Description :- Our company's Conductive Carbon Black Nanopowder is produced by selecting perennial mountain trees as row materials, through high temperature (1300o C) carbonization, ultra-fine nano-grinding, therefore, the nanopowder possesses the following features: Powerful specific surface Area (SSA700m2/g). Electrical resistivity (0.30.cm); Easy to be dispersed. It can be used for plastics, rubber, electronics technology, anti-static materials. It is all-natural, non-polluting material - It is the real green conductive material. Damp reunion will affect its dispersion performance and using effects, therefore, this product should be sealed in vacuum and stored in cool and dry room and it should not be exposure to air. In addition, the product should be avoided under stress. Related Product: Conductive Carbon Black Water Dispersion, 150nm Conductive Carbon Black Dry Nanoparticles, 150nm Storage Conditions: Airtight Sealed, Avoid light and keep dry at room temperature. Please contact us for customization & Price inquiry Note : We supply different size ranges of MAXene/MXene, Nano/Micron, Solutions, Size as per the customer requirements and also accept customization in various parameterts.
1. Chopped basalt fiber Basalt fiber is a kind of inorganic fiber material. Chopped basalt fiber is an inorganic mineral fiber with a length of less than 50mm and can be evenly dispersed in cement concrete. 2. Characteristics of chopped basalt fibers (1) The naturalness of raw materials. Because the raw material for producing continuous basalt fiber depends on the natural volcanic extrusive rock, there are no ingredients harmful to human health except that it is inherently high in chemical stability and thermal stability. (2) Comprehensive performance. Basalt fiber is acid resistant and alkali resistant. It is both low temperature and high temperature resistant. It is insulated and insulated by heat and electricity. Its tensile strength is higher than that of large tow carbon fiber. Its elongation at break is even better than that of small tow carbon fibers. It has high compressive strength, shear strength and adaptability to aging, and has good comprehensive properties in harsh environment. (3) Low cost. The price of basalt fiber used in cement concrete is significantly lower than that of steel fiber and polyester fiber. (4) Natural compatibility. Basalt fiber is a typical silicate fiber, which is easy to disperse when mixed with asphalt concrete, cement concrete and mortar. The newly mixed basalt fiber concrete has stable volume, good workability and durability, and has superior high temperature resistance, anti-seepage, crack resistance and impact resistance.
Cocoon Bobbins are used on Schiffli embroidery and multi-needle lockstitch quilting machines,Made of Spun polyester, poly-poly core spun,continuous multifilament polyester and nylon6.6,cotton, spandex and other special fiber. Specifications: High tenacity continuous filament Polyester- 70D/2, 70D/3, 100D/2, 100D/3 Nylon6.6 multifilament- 70d/2, 100d/2 Spun Polyester- Ne40/2, 42/2, 45/2, 50/2, 54/2, 60/2,80/2 Textured polyester- 140d/1, 150d/1, Cotton: Ne 40/2, 50/2, 55/2, 60/2, 80/2, 100/2 Elastic rubber latex Size: 7#, #9, #10,#11, #12,or P7,P9,P10,P11,P12 Color: Natural, dyed, dopedyed Packing: 2.5kg/bag, 20kg/ctn or customized
Conductive FIBC bags are bags that conduct the charges generated at the time of filling emptying of the products During the stage of bulk bag filling and emptying operations it is ensured that the ground or earth bonding points are connected to the system ground or earth Moreover when the conductive yarns and the connection to ground or earth are interconnected during these operations the use of Type C FIBC bags becomes critically safe These are essential in explosive environments or where the products generate charges that could lead to explosion hazards Conductive bags are used for Handling explosive material How Conductive Bulk Bags Work Type C FIBCs are constructed of fabrics with conductive carbon silver core or steel threads woven into them no more than a certain maximum allowable distance apart creating a Faraday cage Therefore when one part of the FIBC is connected to a grounding cable or comes into contact with any other conductor that is grounded the entire bag then becomes safely grounded Even though not all of the product contacts the conductive threads the spacing of these threads is such that any isolated charge that develops on the surface of the bag is drawn toward the grounded threads effectively neutralizing that charge Once grounded the bag technically cannot hold onto enough electrostatic energy to cause ignitions of a flammable environment Although Type C FIBCs still require a great deal of care and caution from operators to ensure they are grounded they are an effective means of preventing dangerous static discharge hazards Where When Type C FIBCs Work Using Type C or Groundable FIBCs can be a very effective guard against incendive electrical discharges as long as the bags remain grounded during both filling and discharging of product If the bag becomes ungrounded during either of these processes for any reason it can create an extremely dangerous and explosive situation Great care must be taken by operators to ensure a positive ground is achieved and maintained before beginning to use the FIBC When used correctly and consistently Type C bags can be used in nearly any flammable or combustible environment with very low MIEs Minimum Ignition Energies However Procon Pacific recommends that you consult an expert to determine the most appropriate package for use in your particular environment With our full understanding of Type C and all other classifications of FIBCs Procon Pacific can answer any questions you might have about the bulk bag solutions that work best for your particular applications
PTA is one of the important bulk organic raw materials, widely used in chemical fiber, light industry, electronics, construction and other aspects of the national economy. At the same time, the application of PTA is more concentrated. More than 90% of PTA in the world is used to produce polyethylene terephthalate (PET). It needs 0.85-0.86 tons of PTA and 0.33-0.34 tons of MEG to produce 1 ton of pet. Polyester includes fiber chip, polyester fiber, bottle chip and film chip. In the domestic market, 75% of PTA is used in the production of polyester fiber; 20% is used in the production of bottle grade polyester, mainly used in the packaging of various drinks, especially carbonated drinks; 5% is used in film grade polyester, mainly used in packaging materials, films and tapes. It can be seen that the downstream extension product of PTA is mainly polyester fiber. Application: PTA is mostly used in the production of polyethylene terephthalate (polyester). It is an important raw material for polyester fibers, films, plastic products, insulating paints and plasticizers. It is also used in dyes and other products' production.