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.
In its mineral form Bauxite, Aluminium is the most abundant metal in the earth's crust. Bauxite contains one of a variety of hydrated aluminium oxides (gibbsite, boehmite or diaspore), which are often expressed as Al2O3xH2O but are more commonly regarded as impure Al2O3. Bauxite is claylike and earthy, and ranges in colour from white to deep brown or red according to the nature and quantity of its components. The major impurities in Bauxite are iron oxides (goethite & hematite), silicon dioxide, the clay mineral kaolinite as well as small amounts of anatase (TiO2). Consequently, its composition varies considerably with alumina constituting from about 50% to about 70%. Aluminium content can be accurately and precisely determined over a broad analytical range simultaneously along with Si, Fe, Mn, Ti, Zr and up to 20+ other elements. Item Specification Color: Brown, yellow / light red Granularity: 0-1/1-3/3-5/5-8 mm, 200/325 mesh Application: Aluminium/Precision Casting/Refractory Density: 4.3 g/cm3 Hardness: 1-3 Fe2O3 Content: 3.0% Max CaO Content: 0.2 Max Package: 25 kg/bag Payment terms: T/T L/C
Misir is a low power (20mw4), high performance co2 sensor. Based on gss patented solid state ir sensor technology and innovative optical designs, misir is configured to meet the requirements of the hvac and demand led ventilation markets. Low power 20mw Measurement ranges from 0 to 1% Low noise measurement
Hindalco produces di-ammonium phosphate (DAP) fertiliser. It is the most popular phosphatic fertiliser because of its high nutrient content and good physical properties. The composition of DAP is 18% Nitrogen and P2O5 46%. Within the same facility, Hindalco can also produce nitrogen phosphorus potassium (NPK) complexes as value-added downstream products. It can manufacture NPK complexes such as 10:26:26, 12:32:16 and 20:20:0. Hindalcoâ??s DAP plant went on-stream in the year 2000, and has a capacity of 400,000 TPA. Phosphoric acid is produced at Hindalco's phosphoric acid plant by the chemical reaction of sulphuric acid (generated as by-product from copper smelting process) and rock phosphate (imported). At the DAP plant, phosphoric acid and ammonia are reacted to form DAP. Imported potash is used to produce the NPK complexes. The products are marketed under the well-known brand Birla Balwan, a name that commands preference among the farmers of Gujarat, Maharashtra, Rajasthan, Madhya Pradesh, Chhattisgarh, Haryana and Punjab, through a vast, established network of dealers, retailers and C&F agents. Operations are carried out through both private and institutional distribution channels. The products are packed in gusseted Lyril-green 50kg PP bags, and are transported to various destinations by rail and road, stored and then delivered to dealers, retailers, co-operative societies, and other customers in various marketing regions. The customers are serviced through an experienced and qualified marketing team across all the seven states. Marketing, service-related activities, and farmer/retailer meets are regularly held at customersâ?? locations by well-trained field personnel. Birla Phospho Gypsum is marketed in the agricultural field as a soil conditioner. The product contains 15-17 % sulphur, 20-22 % calcium and 1 % of P2O5. It is an economical input that adds nutrients to the soil and enhances its productivity, improvement and crop growth. Birla Phospho Gypsum is available in loose form, bulk and also in bags for convenience of handling and storage. The popular brand, Birla Vishwas, caters to the market of diversified agricultural inputs
Introduction Irm300 is one of the general ndir co2 gas modules, which adopting ndir principle, consists of carefully designed light chamber, precise electric circuit and intelligent software. With the help of single light source, dual channel detector, and Unit Storage temperature Tstg -20 to 80 ¡ãc Working temperature Ta 0 to +50 ¡ãc Working humidity Ha 0 to 90 % rh Working pressure Pa 0.8 to 1.2 Atm Electric characteristics Description Symbol Min. Typical Max. Unit Supply power Vs 4.6 5 5.4 V Maximum current Imax 130 160- Ma Light current Iavg 60 70 Ma Frequency F 0.2 1 2 Hz Preheat time Twarm 90 120 180 Sec Performance characteristics Description Min Typical Max Unit Detection range 0 2000 50000 Ppm Detection accuracy - ¡¨¤60ppm¡¨¤5% fs - Ppm T90 Diffusing - 60 90 Sec Pumping - 10 20 Sec Repeatability Zero
Caramel Color, E150, CAS no.8028-89-5, is a water soluble food coloring manufactured through heat treatment of a variety of sugars, available as Dark brown black powder or liquid. Caramel color is one of the oldest and most widely used food coloring's. Caramel Color is widely used as coloring agent and flavor enhancer. As an experienced Caramel Color manufacturer and supplier, we has been supplying and exporting Caramel Color for almost 10 years, we supply Caramel Color E150a, E150b, E150c and E150d. Please be assured to buy from us. Any inquiries about price and the market trend please feel free to contact us, we will reply you within 1 working day. Caramel Color Specification ITEM STANDARD RESULTS E 0.1%1CM (610nm) Absorbance 0.259-0.285 0.262 Specific Gravity(25�°C) 1.255-1.270 1.260 Viscosity(25�°C) Cps 8000 80 PH Value 2.7-3.3 3.0 Haze Pointâ?¥ mins 40 >40 Gelation Time â?¥mins 100 >100 Resinification â?¥ hrs 20 >20 Isoelectric Point 1.0
Humic acid is a group of molecules that bind to, and help plant roots receive, water and nutrients. High levels of humic acid can dramatically increase yields and its deficiency can prevent farmers and gardeners from growing crops with optimum nutrition. Our product is manufactured commercially by alkaline extraction of brown coal (lignite) leonardite and is used mainly as a soil conditioner in the form of Potassium Humate Liquid, it is purely organic substance which boosts soil fertility and enhance yield of agriculture produce. It is used in agriculture as a fertilizer additive to increase the efficiency of fertilizers especially nitrogen- and phosphorus-based fertilizer inputs. It has tremendous appreciation in the market, reason being that the technology is derived from Centre for Applied Research and Development, Neyveli Lignite Corporation (NLC), Neyveli, a â??Navaratnaâ?? Govt. of India Enterprise under the Ministry of Coal, Government of India New Delhi. It is licensed by National Research Development Corporation (NRDC), an Enterprise of Department of Scientific and Industrial Research (DSIR), Ministry of Science and Technology, Govt. of India, New Delhi. Benefits of Humic Acid Today, there is a recognized and increasing use of humic acids for their beneficial impact on the growth and cultivation of crops (vegetable & non-vegetable), citrus, turf, flowers, and particularly in organically-deficient soils. Increased Nutrient Uptake Decreased toxins Increased water retention Improved microbial growth Better overall soil structure Humic acids chemically change the fixation properties of the soil, with benefits such as: Neutralizes both acid and alkaline soils; regulates the pH-value of soils. Improves and optimizes the uptake of nutrients and water by plants. Increases buffering properties of soil. Acts as natural chelator for metal ions under alkaline conditions and promote their uptake by the roots. Retains water soluble inorganic fertilizers in the root zones and reduces leaching. Promotes the conversion of nutrient elements (N, P, K + Fe, Zn and other trace elements) into forms available to plants. Enhances the uptake of nitrogen by plants. Reduces the reaction of phosphorus with Ca, Fe, Mg and Al and liberates it into a form that is available and beneficial to plants. Liberates carbon dioxide from soil calcium carbonate and enables its use in photosynthesis. Helps to eliminate chlorosis due to iron deficiency in plants
Chlorinated paraffin Basic information Product Name: Chlorinated paraffin CAS: 106232-86-4 MF: C24H44Cl6 MW: 0 EINECS: 264-150-0 Chlorinated paraffin Chemical Properties density 1.16 FreezingPoint -30 CAS DataBase Reference 106232-86-4 COA Items Specification Appearance pale yellow to yellow oily viscous liquid Freezing point < -20 C Density 1.22-1.26 Assay% 50+/- 2 Thermal stability index 175C, 4h chlorine nitrogen (10L / h) HCL% 0.1 Conclusion Accords with the enterprise standard
Origin - Kazakishtan SPECIFICATION Product: UREA N46 agriculture grade Nitrogen: 46% minimum Moisture: 0.5 max Free ammonia: 160 PXT PPM maximum BIURET: 1.0% maximum Harmful substances: 100 % free from harmful substances Melting point: 132 degree Celsius Granulation: 1mm to 4mm 90% minimum Color: White standard or white pure Odor: Odorless Boiling: Decomposes before boiling; Radiation: Non-radioactive Physical state: Solid@20�°C, 101 KPA white granules Specific gravity: Solid@20�° C-1.35 t/ms Floatability in water: Sinks and mixes Molecular weight: 60.065 Fertilizer granular: 94-96%min Prill: 96% max Fisher: 0.30% Package : Bag(50 Kg �± 200 gr),Big Bags(1000 Kg �± 6 Kg) Outer Layer: PP woven bag Inner Layer: PE payment SBLC -MT 760/MT 103 TT TRANSFER
Organic High Oleic Sunflower is a vertical Organic Process, our supplier chooses the organic seeds that need to be crushed, they then oversee the crushing of the seeds into a liquid. Additionally, a large ORGANIC refinery processes the oil into the finished High Oleic Sunflower we bring to market. Important controls and specification are followed by an extensive QA/QC team to insure quality and ORGANIC status. DESCRIPTION New hybrids of the traditional sunflower species produce an oil unusually high in oleic acid (C18:1). The appearance of this new hybrid only differs in the color of the kernel shells from off white to silver gray compared to black resp. black stripes. The seed is pressed and then extracted. The subsequent 4 step refining (deacidification, bleaching, steam deodorization, and winterization) results in a very light transparent refined high oleic sunflower seed oil with excellent oxidative stability. ORIGIN: The Netherlands and France CERTIFICATE OF Each shipment to include certificate. ANALYSIS: APPEARANCE & COLOR Appearance: Light transparent / Color: Lovibond 5 14 2.0 red SPECIFICATIONS Density (20 C) 0.912 -0.924 Refractive Index (20 C) 1.464 -1.474 Iodine Value 80-97 Peroxide Value 1.00 max Saponification Value 187 â?? 197 Smoke Point ca. 240�° C Free Fatty Acids (% of Oleic Acid) 0.10 max FATTY ACID COMPOSITION Palmitic Acid C 16:0 5.0 % max Stearic Acid C 18:0 6.2 % max Oleic Acid C 18:1 75 â?? 90 % Linoleic Acid C 18:2 17 % max Linolenic Acid C 18:3 0.3% max Arachidic Acid C 20:0 0.69 % max Behenic Acid C 22:0 1.6 % max Other Fatty Acids 3 % max STORAGE: Keep away from direct sunlight at room temperature in tightly sealed containers (nitrogen topping is of advantage) USAGE: The excellent stability to oxidation is comparable to that of a good olive oil and approximately twice as high as with traditional sunflower oil and soybean oils. It is therefore, particularly suited as a fat component and carrier for pharmaceutical and cosmetic formulations. Its usage in food: in baker's ware and pastries (un-hydrogenated spray oil), baby food and margarines, as a baking and frying oil (high smoke point). Like olive oil, high oleic sunflower seed oil is believed to favorably influence the human cholesterol metabolism due to its high content of monounsaturated oleic acid (C18:1).
Xanthan gum 80mesh and 200mesh, cream white powder, E415, CAS no.11138-66-2, food thickener, biosynthetic rubber, mainly made of starch, manufacturing process through fermentation process using the microorganism Xanthomonas Campestrisis. Advantages than other gums: outstanding water solubility and high viscosity; excellent stability in temperature and PH value; Function and uses: Xanthan gum is a high performance thickener as the viscosity of 1% is about 100 times stronger than 1% gelatin solution. As an experienced Xanthan gum manufacturer and supplier, we has been supplying and exporting food grade Xanthan gum 80mesh and 200mesh for almost 10 years, please be assured to buy from us. Any inquiries about price and the market trend please feel free to contact us, we will reply you within 1 working day. Food grade Xanthan Gum 80mesh, 200mesh Specification ITEMS STANDARD Appearance white or cream-color and free-flowing powder Viscosity: 1% Xanthan Gum in 1% KCl Brookfield, LVTD,spindle 3.60rpm, 25 1200 1600 mpa.s Assay(on dry basis) 91.0 108.0% Loss on drying(105oC, 2hr) 6.0 12.0% V1 : V2: 1.02 1.45 Pyruvic Acid 1.5% min PH of 1% solution in water 6.08.0 Heavy metals(as Pb) 20 mg/kg max Lead(Pb) 5 mg/kg max Arsenic(As) 2 mg/kg max Nitrogen 1.5% max Ash 13% max Particle size 80 mesh: 100% min, 200 mesh: 92% min Total plate count 2000/g max Yeasts and moulds 100/g max Pathogens germs absence S. aureus Negative Pseudomonas aeruginosa Negative Salmonella sp. Negative C. perfringens Negative
Key Features: 1.Continuous, online monitoring 2.No cross-sensitivity due to background gases 3.No effects of humidity, moisture, temperature, radiation, vibrations etc 4.BMS, PLC integrateable 5.Suitable for any application 6.Long expected life Key Specifications: 1.Measuring range: 0~20, 000 ppm or 0~2% Vol/ vol 2.Sensor technology: non-dispersive infra-red sensor cell, Gold plated, dual beam 3.Output: linear, proportional analog (4-20mA, 0-10V) standard 4.Optional: RS485 Modbus RTU serial interface 5.Operating temperature: 0°C to +50°C 6.Low voltage operation 24V DC 7.IP65 ingress protection with hydrophobic and oleophobic filter 8.Wall, ceiling and duct mountable 9.Polycarbonate housing with UL-V0 certified Applications areas: 1.Cold storage â?? potatoes, apple, mango, kiwi, banana, etc 2.Controlled atmosphere chamber â?? kiwi, apples 3.Furnace, heated conveyor belts 4.Incinerators, manufacturing units 5.Mushroom spawning chambers
SO2-B4 Sulfur Dioxide Sensor 4-Electrode PERFORMANCE Sensitivity nA/ppm at 2ppm SO2 275 to 475 Response time t90 (s) from zero to 2ppm SO2 < 30 Zero current nA in zero air at 20â?? -80 to +80 Noise* ±2 standard deviations (ppb equivalent) 5 Range ppm limit of performance warranty 100 Linearity ppb error at 100ppm SO2 , linear at zero and 10ppm SO2 0 to -2 Overgas limit maximum ppm for stable response to gas pulse 200 * Tested with Alphasense ISB low noise circuit LIFETIME Zero drift ppb equivalent change/year in lab air < ±20 Sensitivity drift % change/year in lab air, monthly test < ±15 Operating life months until 50% original signal (24 month warranted) > 36 ENVIRONMENTAL Sensitivity @ -20â?? (% output @ -20â??/output @ 20â??) @ 2ppm SO2 70 to 82 Sensitivity @ 50â?? (% output @ 50â??/output @ 20â??) @ 2ppm SO2 95 to 110 Zero @ -20â?? nA change from 20â?? 0 to -10 Zero @ 50â?? nA change from 20â?? 10 to 30 CROSS SENSITIVITY Filter capacity ppm·hrs 450 H2S sensitivity % measured gas @ 5ppm H2S < 2 NO2 sensitivity % measured gas @ 5ppm NO2 < -160 Cl2 sensitivity % measured gas @ 5ppm Cl2 < -40 NO sensitivity % measured gas @ 5ppm NO < -2 CO sensitivity % measured gas @ 5ppm CO < 2 H2 sensitivity % measured gas @ 100ppm H2 < 0.5 C2H4 sensitivity % measured gas @ 100ppm C2H4 < 1 NH3 sensitivity % measured gas @ 20ppm NH3 < 0.1 CO2 sensitivity % measured gas @ 5% CO2 < 0.1 KEY SPECIFICATIONS Temperature range â?? -30 to 50 Pressure range kPa 80 to 120 Humidity range % rh continuous (see note below) 15 to 90 Storage period months @ 3 to 20°C (stored in sealed pot) 6 Load Resistor ohm (ISB circuit is recommended) 33 to 100 Weight g < 13
SO2-AE Sulfur Dioxide Sensor SO2 Sensor Description Alphasense Sulfur Dioxide gas sensors operate using proven fuel cell technology. SO2-AE Sulfur Dioxide Sensor sizes: 20mm diameter, the industry standard size for portable gas detectors The SO2 range provides OEMs with reliable sensors for use in a variety of applications. Strong signal levels combined with low zero current allows resolution below 1ppm and an operating range for safety applications up to 2,000ppm. The sensors are designed for use in both fixed site and portable instrumentation. The SO2 sensors offer our electrolyte leak-free guarantee and reliable long-term detection performance. The leakproof housing is moulded with a colour coded top for ease of identification. SO2-AE Sulfur Dioxide Sensor SO2 Sensor Specifications * Range: 2,000ppm limit of performance warranty * Sensitivity: 55 to 80nA/ppm in 400ppm SO2 * Response time t90: < 30s from zero to 400ppm SO2 * Resolution: < 1.5 RMS noise (ppm equivalent) * Temperature range: -30 to 50'C * Pressure range: 80 to 120 kPa * Humidity range:15 to 90 % rh continuous * Weight: < 6 g
S509 IR CO2 Gas Sensor Characteristics: * -40'C~+70'C wide working temperature range high precision measurement * Sensor automatic revision, zero drift an automatic adjustment * Immune to poisonous and harmful material, have fight poisoning efficacy * Work without oxygen to participate in * Using the infrared principle scattered, and long service life * Sensor work, can output the digital quantity and analog * Has the standard output interface, peripheral use circuit is simple Infrared gas sensor is based on bill-LangBo law and ir theory developed, we can accurately detect methane, carbon dioxide, hydrocarbons, etc. Sensor interior has intelligent processing chip, the gas absorption of light signal conversion into gas concentration information, and digital signal and linear output voltage signal and through the software algorithm in complex linearization and precise processing temperature and humidity compensation of gas density per second, and a time interval according to certain packet format automatically send output. When offered 3.0VDC ~ 6.0VDC range voltage, S509 infrared sensor can be in -40'C ~ +70'C Wide temperature range normal work. The sensor to provide analog and digital output interface. The user can through the interface auto receiving gas concentration data and execution, use the function such as calibration is very simple. S509 IR CO2 Gas Sensor Specification * Working voltage: 3.0 - 6.0V * Resolution: 1°FS. * Response timeT90: 30S * Measurement accuracy: ±3%FS * Zero repeatability: ±1%FS * Long-term zero drift: ±1%FS/year * Working temperature: -40'C~+70'C * Working humidity: 0~95%RH No condensation
Zirconia O2 Sensors Probe Series - Short Housing The Probe Range of zirconium dioxide oxygen sensors are available in three lengths. Suitable for aggressive and polluted applications such as boiler exhausts. Longer probes are an ideal solution for thicker walled, insulated flue pipes. FEATURES * Zirconium dioxide (ZrO2) sensing elements * Long life, non-depleting technology * Integral heating element * High accuracy * Requires an external interface board to operate BENEFITS * No reference gas required * No need for temperature stabilisation * Compact enclosure TECHNICAL SPECIFICATIONS Heater voltage Operating (standard response) 4V DC ± 0.1V DC (1.7A) Standby 1.65V DC (0.7A) Operating (fast response) 4.35V DC ± 0.1V DC (1.85A) Standby 2V DC (0.85A) Pump impedance at 700'C < 6kΩ Permissible gas temperature -100'C to +250'C Gas flow rate 0 ~ 10 m/s Repetitive permissible acceleration 5g Incidental permissible acceleration 30g OUTPUT VALUES Oxygen pressure range 2mbar ~ 3bar max Accuracy 5mbar max Internal operational temperature 700'C Response time (10 - 90% step) Standard response sensor < 15s Fast response sensor < 4s Warm up time (prior to sensor operation) 60s Warm up time (from standby) 20s Output stabilisation time ~ 180s
Zirconia O2 Sensors Probe Series - Long Housing FEATURES * Zirconium dioxide (ZrO2) sensing elements * Long life, non-depleting technology * Integral heating element * High accuracy * Requires an external interface board to operate BENEFITS * No reference gas required * No need for temperature stabilisation * Two lengths available; 220mm and 400mm TECHNICAL SPECIFICATIONS Heater voltage Operating 4V DC ± 0.1V DC (1.7A) Standby 1.65V DC (0.7A) Pump impedance at 700'C < 6kohm Permissible gas temperature Standard temperature -100'C to +250'C High temperature -100'C to +400'C Gas flow rate 0 - 10 m/s Repetitive permissible acceleration 5g Incidental permissible acceleration 30g OUTPUT VALUES Oxygen pressure range 2mbar - 3bar max Accuracy 5 mbar max Internal operational temperature 700'C Response time (10 - 90% step) < 15s Warm up time (prior to sensor operation) 100s Warm up time (from stand by) 20s Output stabilisation time ~ 180s
MinIR is an ultra low power (3.5mW4 ), high performance CO2 sensor, ideally suited for battery operation and portable instruments. Based on patented IR LED and Detector technology and innovative optical designs, MinIR is a third generation product from Gas Sensing Solutions Ltd - leaders in IR LED CO2 sensing. Ultra-low Power 3.5mW Measurement ranges from 0 to 100% 3.3V supply. Peak current only 33mA. Compact 20mm diameter package
CDM4160 is a new unit which uses TGS4160, Figaro's durable solid electrolyte CO2 sensor. Due to Figaro's proprietary idea for signal processing with a microcomputer,no maintenance is required for this module. By application of DC voltage to the module, an analog output voltage proportional to CO2 concentration can be obtained. The module can generate a control signal based on a user-selectable threshold concentration. The features mentioned above make this module ideal for air quality control applications in homes, offices and factories as well as in the field of agriculture. Features: * High selectivity to CO2 * Long life * Maintenance free * Pre-calibrated * Low cost * Wide detection range * Excellent durability Applications: * Indoor air quality control in offices, homes, and factories * CO2 monitors * Agricultural applications
YSZK-01L-C-E pressure type liquid level sensor, voltage: DC24V output: 4- 20mA, standard thread interface: M20*1.5mm, without thread, or non-standard thread, can be customized. The pressure can be made according to user requirements, 1 meter water column height, 2 meters water column height, 3 meters water column height -20 meters water column height, the length of the cable line is made according to customer requirements
