W401 Water Vapor Permeability Analyzer Suppliers and Manufacturers

Physical state and appearance: Colorless clear Liquid. (Oily liquid.) Practically Odorless. Taste: Practically Tasteless. Molecular Weight: 76.1g/mole Boiling Point: 188°C (370.4°F) Melting Point: -59°C (-74.2°F) Specific Gravity: 1.036 (Water = 1) Vapor Pressure:0 kPa (@ 20°C) 0.08 mmHg at 20 C 0.129 mmHg at 25 C Vapor Density: 2.62 (Air = 1) Water/Oil Dist. Coeff.: The product is more soluble in water; log(oil/water) = -0.9 Dispersion Properties: See solubility in water, acetone Application: Its most important end use is in the production of unsaturated polyester resins that, in turn, go into items that effect our daily lives, like water tanks, or our leisure time, like sailing boats. It can also be used as plasticizer, surface active agent, emulsifying agent and demulsifying agent, mould inhibitor, antiseptic for fruit, ice inhibitor and moisture preserving agent for tobacco. Packaging Details Mono Propylene Glycol MPG CAS: 57-55-6 Iron drums, 215kg/drum, 17.2 MT/20GP Flexitank: 22-23MT/ flexitank cost little

1> Easily mixing with soil for applying. 2> It loosen the soil, and improve the permeability of air and water for the soil. 3> Improving the three phases of the soil. Enhancing the capacity of oxygen supplying to achieve the effect of improving the soil. 4> Fully fermented without odorous. It can be applied both indoors and outdoors. 5> Rich in varieties of organic matter, humus, silica acid, etc. 6> Rich in varieties of microorganisms, it helps to decompose the organic matter and change the nitrogen form which can promote the absorbed nutrient for plants. 7> All purposed type. Can be used as materials for culture soil, soil conditioner or ground mulch to prevent weeds and keep moisture and warm for the soil.

SteriMed Nitrile Gloves contain butadieneacrylonitrile a synthetic copolymer containing no natural rubber latex protein This eliminates the potential for Type I allergic reactions among NRL sensitive individuals and is chemically toughened for resistance in most solvents including petroleum * High flexibility and comfort * Excellent resistance against punctures water permeability * Superior chemical and solvent barrier protection * Textured fingertips for wet and dry grip * Fitting Beaded Cuff for easy donning and to prevent roll down * Excellent tactility with minimized hand fatigue

Virgin Mercury purity = 99.99% Pure by wt min. - Free from heavy metals - Packing iron cylinder ( 34.5)kg net weight - Physical State: Liquid - Appearance: silver - Odor: odorless - PH: Not available. - Vapor Pressure: 0.002 mm Hg AT 25C - Vapor Density: 7.0 - Evaporation Rate: Not available. - Viscosity: 15.5 mP AT 25 dig C - Boiling Point: 356.72 dig C - Freezing/Melting Point:-38.87 dig C - Decomposition Temperature: Not available. - Solubility: Insoluble. - Specific Gravity/Density: 13.59 (water=1) - Molecular Formula :Hg - Molecular Weight: 200.59 Mercury Packaging: * 34.5kg virgin steel flask

Paraffin waxes in a solid state are usually white, translucent, tasteless and odorless. They are hard, relatively brittle and have a slightly dry feel. In a molten state, paraffin waxes are clear, colorless liquids of low viscosity. When melted, these waxes increase in volume by about 5-8%, resulting in a decrease in density. Paraffin will react at high temperatures with either oxidizing or halogenating agents. This reaction produces either fatty acids and hydroxy acids or halogen substitution products respectively. Although paraffin has many useful characteristics, most commercial applications are based on its resistance to water and vapor and its glossy appearance when polished.

Virgin Mercury purity = 99.99% Pure by wt min. - Free from heavy metals - Packing iron cylinder ( 34.5)kg net weight - Physical State: Liquid - Appearance: silver - Odor: odorless - PH: Not available. - Vapor Pressure: 0.002 mm Hg AT 25C - Vapor Density: 7.0 - Evaporation Rate: Not available. - Viscosity: 15.5 mP AT 25 dig C - Boiling Point: 356.72 dig C - Freezing/Melting Point:-38.87 dig C - Decomposition Temperature: Not available. - Solubility: Insoluble. - Specific Gravity/Density: 13.59 (water=1) - Molecular Formula :Hg - Molecular Weight: 200.59 Mercury Packaging:34.5kg virgin steel flask Steel containers we offer, satisfy DOT, U.S. EPA and U.N. hazardous material shipping requirement Inspection: Inspection for weight and quality will be done at loading port at seller's cost . Supply Ability: 5000MT /Month. Shipment type: 20ft containers.(20 tons per container) / Truck delivery(locally), Air freight. Loading: 580 Flask per container. (34.5kg per Flask)

Fly ash is a finely divided residue made from the combustion of pulverized coal that can be used to increase concrete durability and workability, while reducing permeability. As fly ash contains aluminous and siliceous components, it may form cement when mixed with water if the calcium content of the fly ash is high enough. Similarly, mixing fly ash with lime and water can create a substance similar to Portland cement. Fly ash can be separated into two main types, known as: Class F Class F fly ash contains particles covered in a type of melted glass allowing it to reduce the risk of concrete expansion and increase resistance to sulfates and alkali-aggregate reactions. Class C Class C fly ash contains a higher percentage of calcium oxide, making it more effective in strengthening structural concrete. Applications & Benefits of Fly Ash: Fly ash is used in commercial and industrial sectors for improving the durability and workability of concrete mixes. Fly ash is also used as filler in paints, adhesives, and metal and plastic composites. It's commonly used as structural fill for road construction and fly ash can be used to make bricks, ceramic tiles, plaster, Portland cement, and ready-mix cement.

BUILT-IN HANDLES:- This Planter Bag Has Built In Handles On Each Side To Help Easily Move Your Potted Plants From One Location To Another With Ease. HIGH-QUALITY MATERIAL:- Our Planter Bags Are Made Out Of Heavy-Duty 400 GSM Geo Fabric Material Which Is Designed To Be Both Durable And Water Resistant. EASY TO CLEAN:- The Fabric Material Ensures Easy Maintenance And Cleaning By Just Washing The Outside When Needed Without Having Any Harsh Chemicals Or Toxic Materials Used In Its Manufacture. HEAT RETENTION & UV RESISTANT TECHNOLOGY:- Special Light Grey Color Allows Heat Retention, Protects Roots While Being Ultra Lightweight And Resists Wear Over Time Even After Multiple Uses Under Direct Sunlight/UV Rays Making It Suitable For Use As An Outdoor Container Too. ENVIRONMENT-FRIENDLY DESIGN:- It Promotes Root Aeration Through Proper Air Circulation Along With Optimum Draining Keeping Soil Health At Maximum Capacity Thus Providing A Perfect Growing Environment For Your Flowers, Herbs, Succulents Etc... Even If You Have Limited Space Outdoors Or Indoors. PERMEABLE WATER FILTRATION:- The Micro Holes At The Bottom Allows Excess Water To Be Drained Away While Maintaining Good Soil Aeration And Oxygen Levels, Resulting In Healthier Plant Growth These size are available- 10x10 12x12 12x6 15x15 15x6 18x18 18x6 18x9 24x6 24x9

Ajwain Ajwain, also known as carom seeds or bishop's weed, is a spice commonly used in Indian cuisine and traditional medicine. Here's an overview of the nutritional content and components of ajwain. Ajwain seeds contain essential oils such as thymol, carvacrol, and terpinene, which contribute to their distinct aroma and flavor. These oils also have medicinal properties, including antimicrobial, anti-inflammatory, and digestive benefits. Ajwain seeds contain a small amount of protein. Protein is essential for muscle repair, growth, and overall body function. Ajwain advantages Relief from Stomach Discomfort Antimicrobial Effects Anti-inflammatory Properties Blood Pressure Regulation coriander Ajwain usage Curries and Stir-Fries Breads and Pastries Respiratory Support Antiseptic Poultices Pickling and Preserving Menstrual Relief Ajwain seeds are renowned for their digestive properties and are commonly used in herbal remedies to alleviate indigestion, bloating, gas, and acidity. They can be chewed raw, brewed into tea, or added to herbal blends for digestive support. Ajwain seeds are used in herbal remedies to relieve respiratory issues such as coughs, bronchitis, and asthma. Inhaling the vapors of ajwain seeds steeped in hot water or consuming ajwain tea may help clear congestion and soothe respiratory passages. Product type Whole spices Packging Type Standard pack, pp bag, as per requirement Packging Size 250gm, 500gm, 1kg, 2kg, 5kg, 25kg Country of Origin India

GGBFS Ground granulated blast furnace slag (GGBFS) The ground granulated blast furnace slag (GGBFS) is a by-product of iron manufacturing which when added to concrete improves its properties such as workability, strength and durability. This material is obtained by the heating of iron ore, limestone and coke at a temperature about 1500 degree Celsius. The process is carried out in a blast furnace. The formation of GGBFS is not direct. The by-product of iron manufacturing is a molten slag and molten iron. The molten slag consists of alumina and silica, also with the certain amount of oxides. This slag is later granulated by cooling it. For this, it is allowed to pass through a high-pressure water jet. This result in quenching of the particles which results in granules of size lesser than 5mm in diameter. The main constituents of blast furnace slag are CaO, SiO2, Al2O3 and MgO. These are the minerals that are found in most of the cementitious substances. The particles are further dried and ground in a rotating ball mill to form a fine powder, known as ground granulated blast furnace slag cement. Now different methods can be employed to perform the main process called as the quenching. Applications & Benefits of GGBFS: In concrete: The incorporation of ground granulated blast furnace slag in concrete manufacture gains many advantages which are mentioned below: GGBFS in concrete increases the strength and durability of the concrete structure. It reduces voids in concrete hence reducing permeability GGBFS gives a workable mix. It possesses good pumpable and compaction characteristics The structure made of GGBFS constituents help in increasing sulphate attack resistance. The penetration of chloride can be decreased. The heat of hydration is less compared to conventional mix hydration. The alkali-silica reaction is resisted highly. These make the concrete more chemically stable. Gives good surface finish and improves aesthetics. The color is more even and light. Lower chances of efflorescence. The maintenance and repair cost of structures are reduced thus increasing the life cycle of concrete structures. Unlike cement, GGBFS does not produce carbon dioxide, sulphur dioxide or nitrogen oxides. White Cement: White Portland Cement is of high quality, whiteness and strength, it essentially has the same properties and characteristics as gray cement, except for color. It is widely used in numerous applications such as precast concrete, cast-in-place concrete, terrazzo, median barriers, curbs, tile grout, paint, masonry units, swimming pools, glass fibre reinforced surface bonding mortars.

About Meltblown Nonwoven Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �?�µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc

About Meltblown Nonwove Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc

About Meltblown Nonwoven Melt blown is a one step process to make fabrics from polymer. The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. The main purpose of melt blown fabric is to provide barrier property for the liquid. Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: Adjustable Pores And Capillary Structure Excellent barrier properties Filament size 1 -3 �?�µm High Elasticity High Filtration capability Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). Large Area-to-weight ratio Self-bonding The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. Very good thermal insulation for apparel application Weak tensile properties Wicking Properties Application of spun-bond nonwoven fabrics: Sanitary and Hygiene: Sanitary napkins, Baby diapers and Incontinence diapers Medical and Surgical: Gowns, Face masks, Caps, Drapes, etc Other Miscellaneous Applications: Filtration Material, Agriculture, Oilsorbents Hot-melt adhesives Headliners, etc

About Meltblown Nonwoven â?¢ Melt blown is a one step process to make fabrics from polymer. â?¢ The thermoplastics chips are fed through main dosing units & these chips are melted by means of the extruder. This extruder then extrudes the melt, which is then filtered & metered at a constant rate. This filament comes out from a single raw of spinneret orifice. It has a self bonding property but for coagulation & for better random laying hot air flow is provided. â?¢ The web generated is immediately passes among the Spunbond webs followed by pre-bonding rolls & finally through calendar for thermal bonding. â?¢ The main purpose of melt blown fabric is to provide barrier property for the liquid. â?¢ Sometimes the treatment like antistatic or hydrophilic are given to the fabrics & after drying the fabrics are wound in the winder as a roll form. â?¢ Unique characteristics such as water repellence or permeability or UV stability can be obtained by incorporating additives to the raw materials or applying different agents to the fabric. Characteristics of Meltblown fabrics are: The main desired characteristics expected for melt blown nonwoven fabrics are: â?¢ Adjustable Pores And Capillary Structure â?¢ Excellent barrier properties â?¢ Filament size 1 -3 �µm â?¢ High Elasticity â?¢ High Filtration capability â?¢ Isotropic formation- this means that the fibers are randomly distributed in the machine direction (MD) and cross-machine direction (CD). â?¢ Large Area-to-weight ratio â?¢ Self-bonding â?¢ The weight of the melt-blown fabrics in gram per square meter (GSM) should range from 4 g/m2 to over 1000 g/m2. â?¢ Very good thermal insulation for apparel application â?¢ Weak tensile properties â?¢ Wicking Properties Application of spun-bond nonwoven fabrics: â?¢ Sanitary and Hygiene: â?¢ Sanitary napkins, â?¢ Baby diapers and â?¢ Incontinence diapers â?¢ Medical and Surgical: â?¢ Gowns, â?¢ Face masks, â?¢ Caps, â?¢ Drapes, etc â?¢ Other Miscellaneous Applications: â?¢ Filtration Material, â?¢ Agriculture, â?¢ Oilsorbents â?¢ Hot-melt adhesives â?¢ Headliners, etc

Firefighter Reflective / Protective Clothing (Bracket Support) Firefighter protective Clothing: 2019 models: Clothing outer fabric: The use of 210g arylon three anti-fabric, which not only has a permanent flame retardant, high temperature resistance, acid and alkali resistance and other properties, and its strong performance is very excellent, with high heat insulation, permanent flame retardant, high strength, anti-cutting, acid and alkali resistance, arc resistance and other characteristics, improve the overall protection performance of clothing, clothing overall main technical parameters are much higher than the industry standard and bidding technical requirements. The fire retardant performance of the firefighter\'s fire extinguishing suit: the warp and weft continuous burning time is 0s, the warp and weft damage length is less than 51mm; Breaking strength: longitude and latitude 1000N; Tear strength: longitude and latitude 120N; Moisture resistance 3, thermal stability: change rate 1.0%; Color fastness: Color resistance 4, water friction resistance 4. Waterproof breathable heat insulation layer: aramid non-woven fabric and flame retardant PTFE film, gram weight 180g/m2. It can not only prevent the infiltration of water and other general liquid chemicals, but also discharge a large amount of hot gas generated in the body during fire rescue in time. The fabric has hydrostatic pressure & 50kPa, moisture permeability 5439g/m2/24h, oil-repellent performance 3, and thermal shrinkage 1%. Comfort layer: The use of intermediate arylon fiber and flame retardant viscose fiber blended, gram weight 125g/m2, flame retardant performance, thermal stability and other properties are very good. Size: S/M/L/XL

Chemical, heat, or solvent processes, rather than being woven or knitted. It is produced directly from fibers or filaments and can be made from synthetic materials like polypropylene or natural fibers like cotton. Key characteristics of non-woven fabric include: Durability and Strength: While some non-woven fabrics are lightweight and disposable, others are designed to be durable. Breathability: Many non-woven fabrics are permeable, making them suitable for use in applications like masks or medical gowns. Versatility: Non-woven fabrics are used in a wide range of industries, including healthcare (surgical masks, disposable gowns), hygiene (diapers, sanitary products), agriculture (crop protection), and home (furniture lining, filters). Cost-Effectiveness: They are typically inexpensive to produce, especially when made from synthetic fibers. Water-Resistant or Absorbent: Depending on how they are made, non-woven fabrics can either repel or absorb liquids, which adds to their utility.