Tempeh Chips Love your potato chips but need a change of flavours? May we tempt you with some tempeh instead? Get ready to give your taste buds the time of their lives because weâ??re showing our love for this versatile, fermented soybean product that hails from Indonesia and turning it into deliciously crispy, kettle-cooked Real Tempeh Chips for your snacking pleasure! Made from 100% natural soybeans, our gluten-free tempeh chips are thinly sliced and fried in natural garlic seasoning that contains absolutely no MSG, preservatives and non Oily. Tempeh is more than just an addictive plant-based snack, it is also chock-full of protein, dietary fibre, as well as being a source of essential minerals such as potassium, phosphorus and calcium. Brand. : Chipzdele Flavours : Original, Barbeque, spicy Balado, Vanilla. Packaging. : Laminated Plastic Net Weight : 50g Place of origin : Indonesia Origin Self life. : 8 months
Sri Lanka coconut and coconut related products supplying by NR coco trade. Coconut husk chips,brown coconut sell powder,coco peat,coconut sell. we can provide as you need and as soon as possible
High purity silica refers to silicon dioxide (SiO2) with an exceptionally high level of purity, typically exceeding 99.9%. It is obtained through various refining processes to eliminate impurities and ensure its suitability for demanding applications across different industries. Characteristics and Applications Semiconductor Manufacturing: High purity silica serves as a crucial material in the production of semiconductor devices. It is used in the fabrication of silicon wafers, where its purity ensures minimal impurities that could negatively impact the electrical properties of the semiconductor. Optical Components: Silica with high purity is utilized in the manufacturing of optical fibers, lenses, and other optical components. Its transparency and low optical absorption make it ideal for transmitting light with minimal loss, essential for telecommunications, medical devices, and laser systems. Advanced Ceramics: High purity silica is a fundamental component in the production of advanced ceramic materials such as silica glass and silicon nitride ceramics. These materials find applications in industries ranging from aerospace and defense to electronics and biomedical. Pharmaceuticals and Cosmetics: Silica with high purity is used as an excipient in pharmaceuticals and cosmetics. It serves various functions including as a flow agent, desiccant, and viscosity modifier in formulations. Chemical Synthesis: High purity silica acts as a catalyst or catalyst support in various chemical reactions and processes. Its high surface area and uniform pore structure make it suitable for applications in catalysis, chromatography, and adsorption. Construction Materials: High purity silica is incorporated into construction materials such as concrete, mortar, and grouts to improve strength, durability, and resistance to environmental factors. It also contributes to the production of high-performance coatings and sealants. Environmental Remediation: Silica with high purity is used in environmental remediation applications such as water filtration and soil stabilization. Its inert nature and high surface area enable efficient removal of contaminants from water and soil.
Features and Applications High Purity: Electronic grade silica sol is produced with extremely high purity levels to minimize impurities that could adversely affect electronic components. This ensures the reliability and performance of semiconductor devices and integrated circuits. Particle Size Control: The particle size distribution of electronic grade silica sol is tightly controlled to meet precise specifications. This uniformity is crucial for achieving consistent results in semiconductor fabrication processes such as chemical mechanical planarization (CMP) and wafer cleaning. Surface Properties: Electronic grade silica sol is designed to have specific surface properties tailored for electronic applications. These properties may include controlled surface charge, stability, and compatibility with other process chemicals. Polishing and Planarization: In semiconductor manufacturing, electronic grade silica sol is used in CMP slurries for polishing and planarization of silicon wafers. It helps achieve smooth and flat surfaces essential for patterning and layer deposition processes. Dielectric Films: Electronic grade silica sol can be used to deposit thin dielectric films on semiconductor substrates through techniques such as spin coating or dip coating. These films act as insulating layers in electronic devices, providing electrical isolation between different components. Passivation and Encapsulation: Silica sol can be employed for passivation and encapsulation of semiconductor devices to protect them from moisture, contaminants, and mechanical damage. The high purity and stability of electronic grade silica sol ensure long-term reliability and performance. Photolithography: Electronic grade silica sol may also be utilized as a photoresist adhesion promoter or anti-reflective coating in photolithography processes. It helps enhance pattern fidelity and resolution during the fabrication of semiconductor circuits. Wafer Cleaning: Silica sol is used in wafer cleaning processes to remove contaminants, particles, and organic residues from semiconductor surfaces. Its high purity and compatibility with other cleaning agents make it an essential component in advanced cleaning solutions.
Modified silica sol refers to a type of colloidal solution where silica nanoparticles are suspended in a liquid medium, typically water. These silica nanoparticles are modified or functionalized with various organic or inorganic compounds to alter their surface properties and enhance their performance in different applications. The modification process can involve chemically bonding organic molecules to the surface of the silica particles, which can impart specific functionalities such as hydrophobicity, oleophobicity, or compatibility with certain polymers or solvents. Inorganic modifications may include incorporating metal oxides or other nanoparticles to enhance properties like catalytic activity or mechanical strength. Modified silica sols find widespread use in various industries such as coatings, adhesives, sealants, composites, and catalysts. They offer advantages like improved dispersion, adhesion, and compatibility, making them valuable additives in many formulations.
Hydrophobic silica is a type of silica material that has been chemically modified to repel or be resistant to water. This modification alters the surface properties of silica nanoparticles, making them less prone to interacting with water molecules. The modification process typically involves treating the surface of the silica nanoparticles with hydrophobic compounds, such as alkylsilanes or fluorosilanes. These compounds form a hydrophobic layer on the surface of the silica particles, effectively blocking interactions with water molecules. Hydrophobic silica finds numerous applications across various industries. For example, it is used as an additive in coatings, paints, and sealants to improve water repellency and durability. In the pharmaceutical and food industries, hydrophobic silica can be used as an anti-caking agent to prevent clumping in powdered products. Additionally, it is utilized in rubber and plastic composites to enhance their water resistance and mechanical properties.
Hydrophilic silica is a type of silica material that exhibits a strong affinity for water. Unlike hydrophobic silica, which repels water, hydrophilic silica readily interacts with and absorbs water molecules. The surface of hydrophilic silica nanoparticles is typically functionalized with hydrophilic groups, such as hydroxyl (-OH) groups. These groups enable the silica particles to form hydrogen bonds with water molecules, promoting their dispersion and solubility in aqueous solutions. Hydrophilic silica has various applications across industries. In the pharmaceutical and cosmetic sectors, it is used as an excipient in formulations to improve the dispersibility and bioavailability of active ingredients. In chromatography, hydrophilic silica is employed as a stationary phase for separating polar compounds. It is also utilized in coatings, paints, and adhesives to enhance their rheological properties and adhesion to substrates.
Minyak sawit Cp.10 dari Indonesia Minimal order 20 MT Payment TT + LC Kemasan jerigen 20 liter
palm oil cp.10. Available in several packages. - 25 liter jerry can. - 100 liter drum plastic. - 200 liter drum plastic
Powdered Palm Sugar. Material : - 100 % pure palm sugar juice - Cooked at 80 - 90â?°c for 5 â?? 6 hours until thicker. - Than cooled it until hardens into molding sugar Store tightly closed in a dry place at the room temperature. Shelf life : 24 month
BLACK PEPPER GL.550 Exwork Price = USD.4258 From Indonesia
Whole tire reclaimed rubber
~ Bahan Cotton Combed 24S & 30S ~ Desain Sesuai Request ~ Bisa Satuan dan Lusinan ~ Sablon DTF Tahan Lama ~ Sablon atau Area Cetak Ukuran A3 ~ Nyaman & Adem Saat Digunakan ~ Warna Anti Luntur
We're pleased to provide you our premium Organic Turmeric spices With NPOP certification. We offer customizable packaging options and can accommodate your desired quantity for shipment. Our CIF pricing is competitive, and we accept payment via L/C. We look forward to supplying your needs and fostering a successful partnership.
Gluteen free Pasta Gluteen Free Noodles, Low GI Atta
Gluteen free Pasta Gluteen Free Noodles, Low GI Atta
Ceramic Guide; Traverse Guide; Air Jet; PU Disc; Spinneret; Oil Pump; Yarn Sensor&Cutter; Texturing Machine Spindle; Suction Gun for Synthetic Fiber
Hydrolysis cleaning system refers to a cleaning process that utilizes the chemical reaction of hydrolysis to break down & remove polymer from surfaces or equipment. This system is commonly used in industrial settings, such as in the cleaning of heat exchangers, boilers, condensers, filtration elements and other equipment that may accumulate deposits. The principle of Vacuum cleaning furnace is based on the property that high molecule of synthetic fiber, isolated from air, is to be molten when the temperature reaches up to 300�?C, then melt polymers flow into waste collecting tank; when the temperature increases to 350�?C, up to 500�?C, polymer starts to degrade and exhaust out of furnace. TEG cleaning furnace: It uses the principle that polyester can be dissolved by glycerol (TEG) at its boiling point (at normal pressure, it is 285�°C) to achieve the purpose of cleaning. Ultrasonic cleaner: it is a device that emits vigorous mechanical vibrations into a liquid bath. This device achieves cleaning purposes through the use of sound waves. The sound waves create cavitations through the movement of the liquid bath, resulting in a detergent effect on the surface of the item being cleaned. It releases energy up to a level of 15,000 psi in order to loosen and eliminate dirt, grime, and impurities.
A melt polymer filtration system is essential in many applications where polymers are processed or used, such as in the production of PET/PA/PP polymer industry, pre-polymerizaton, final polymerization, filament yarn, polyester staple fiber spinning, BOPET/BOPP films, or membranes. This system helps remove impurities, contaminants, and viscosity-affecting particles from the molten polymer, ensuring the quality and consistency of the final product.
When it comes to sealing gaskets for synthetic fiber spinning, there are a few options that can be considered depending on the specific requirements of the application. Here are a few possibilities: Fiber-Reinforced Gaskets PTFE Gaskets Rubber or Elastomer Gasketsï¼?Metal gasket, such as aluminum gasket, cooper gasket, stainless steel gasket, sintered metal fiber gasket. Gaskets are made of materials such as aluminum, copper, or stainless steel, which is placed between two planes to strengthen the seal, and is a sealing element arranged between the static sealing surfaces to prevent fluid leakage.