Herbs Pulverizer is used in , Herbal Extraction Plant, Solvent Extraction Plant and Pharmaceutical Plants to make powder of different material.
Shandong Jinyao Construction Machinery Equipment Co., Ltd is a modern manufacturing enterprise, which dedicate in the independently research and development , produce and sale series of products such as Crushing, Hydraulic Equipment etc. Jinyao has the most sophisticated technology development team, the advanced technological equipment, inspection equipment. As well as the perfect management system, has guaranteed the product performance and the quality.
We Ultra Febtech - An ISO 9001:2008 Certified Company Engaged in Manufacturing of Impact Pulverizer to grind the Material.An extra heavily constructed machine designed to pulverize even rocks and minerals of medium hardness. Fineness, ranging among 100 meshes to 300 meshes (150 to 50 microns) and in some cases even 500 meshes. Non concrete foundation - frame with AVM pads may be provided. The equipment is suitable for medium hard minerals, chemicals, bulk drugs, coal, paints, dyes and pigments, herbs, seed, etc.
We Ultra Febtech - An ISO 9001:2008 Certified company engaged in manufucturing of Impact Pulverizer to convey the material. An extra heavily constructed machine designed to pulverize even rocks and minerals of medium hardness. Fineness, ranging among 100 meshes to 300 meshes (150 to 50 microns) and in some cases even 500 meshes. Non concrete foundation - frame with AVM pads may be provided. The equipment is suitable for medium hard minerals, chemicals, bulk drugs, coal, paints, dyes and pigments, herbs, seed, etc.
We Ultra Febtech - An ISO 9001:2008 Certified company engaged in manufucturing of Impact Pulverizer to convey the material. An extra heavily constructed machine designed to pulverize even rocks and minerals of medium hardness. Fineness, ranging among 100 meshes to 300 meshes (150 to 50 microns) and in some cases even 500 meshes. Non concrete foundation - frame with AVM pads may be provided. The equipment is suitable for medium hard minerals, chemicals, bulk drugs, coal, paints, dyes and pigments, herbs, seed, etc.
This machine can be used for powder processing of polyethylene (pe), polyvinylchloride (pvc), polypropylene (pp), polystyrene (ps), abs, nylon, eva, pet and other materials. ng. 6. Grinding gap adjustment is simple, just use the plug-foot bolts and adjustments can be fine-tuning (10-80 mesh)
Model : PF-61 Electrical Requirements: 380V ‚± 10% Current: 200A Weight: Gross 3,750kg Net : 3,350kg Machine Size: 4.5L x 2W x 4.5H (Meter) Main Drive Motor: 50-100HP / 37-75Kw (depending on material) Grinding Disc Diameter: 610mm Blower Motor: 15HP / 11kW Separation Screener Motor: 2HP / 1.5kW Airlock Motor: 2HP / 1.5kW Estimated Capacity Rigid PVC: 400-500kg/h LDPE (MFI 70): 250-500kg/h. Weight: Gross 3,750kg Net 3,350kg Machine Size: 4.5L x 2W x 4.5H (Meter).
Pulverizing machine.
Highifeld pulverizer MF38 Around 2200KGS 3L*2W*4.2H(M) MF61 Around 3200KGS 4L*3W*4.5H(M)
Production capacity 200-500 kg/h Electric machine power 11 kw Spindle rotational speed 3000 r/min Appearance size 2000*900*1250 mm Total weight 1000 kg Wooden packing
Cenospheres (aluminosilicate microspheres) are hollow aluminosilicate glass ceramic beads ranging in size from 400-500 microns 20-50mkm (most often from 100 to 250 microns), which are formed during high-temperature combustion of pulverized coal. The chemical composition of the main component of the cenospheres is silicon oxide SiO2 (45-60%), aluminium oxide Al2O3 (15-40%), iron oxide Fe2O3 (1.0-10%), calcium oxide CaO (1.5- 4.5%), potassium oxide K2O (2.0-4.5%) and other certain oxides that make up the balance of the content are typically less than 1.0%. Due to the unique set of physical and chemical characteristics of the cenospheres, they are used in the manufacturing of various composite materials. They are used in solving technical issues that require: reduction in the weight material with a low thermal conductivity, high strength, volume efficiency, increased resistance to erosion and aggressive environments.
Ultrafine Copper Powder The iscotopic composition of this sample is that of natural copper: 64CU 69,1 % = 0,05 % and 65 CU 30,9 % = 0,05 % The material is not radioactive
Soapstone powder is also written as H2Mg3(SiO3)4 or Magnesium Silicate, which corresponds to 4.8% H2O; 31.7% MgO and 63.5% SiO2. In pulverized form it is whiter in appearance. The compact variety of soapstone powder is called steatite or soapstone. The word soapstone powder has been named probably due to its soapy feel. French-chalk is the trade name of pulverized soapstone powder of pure white quality which forms the base for many cosmetics and toilet preparations. Talcum powder is valued for its extreme softness, smoothness, high lubricating and hiding power and ability to absorb oil and grease. It is chemically inert to Acids and Alkalies. It has been found to be an excellent filler. It can withstand temperatures up to 1300�ºC. It has low electrical and thermal conductivity. Above all it can be easily powdered, cut and sawn into any shape and size. These properties in Talc are of extreme value for various industrial applications. We offer high-quality Talc Powder that is a metamorphic hydrated magnesium silicate with a soapy feel and pearly luster. Its lamellar structure and the platy ness give excellent results to the products. Composites filled with Talc enhance the performance properties of the compound. It exhibits higher stiffness, creepsâ?? resistance at both ambient and elevated temperatures. It has a greasy feel. Hydrous Magnesium Silicate Powder is the basic raw material for PP, LD, HDPE compounding, paints industries, paper industries, Rubber, Pharmaceutical Industry, PVC, Cosmetic, Baby Talc powders, and many more. Talc is used in many industries such as Papermaking, Plastics, Paint and Coatings, Rubber, Food, Electric Cable, Pharmaceuticals, Cosmetics, Ceramics, etc. Talc finds use as a cosmetic (Talcum Powder), as a lubricant, and as a filler in paper manufacture.
Polyaluminium chloride (PAC) is high-efficient, cheap and nontoxic inorganic high molecular compound. It's easily soluble in water. In the hydrolytic process, it is accompanied with the chemical processes such as electrochemistry, coagulation, absorption and precipitation. The product has the features including wide applicable range of PH value, large granule and quick speed in sedimentation. It's widely used in treating the domestic drinking water, domestic sewage and industrial wastewater. Application 1. City water supply and drainage purification, such as river, reservoir water and groundwater. 2. Industrial water purification. 3. City sewage treatment. 4. Useful material recovery in industrial waste water and waste residue; promote the settlement of pulverized coal in coal washing waste water; recovery of starch in manufacture process. 5. All kinds of industrial waste water treatment, such as dyeing waste water, leather fluoride waste water, heavy metal waste water, oily waste water, paper making waste water, waste water treatment, mining waste water, brewing waste water, metallurgical waste water and meat processing waste water etc. 6. Waste water treatment. 7. Paper-making sizing, sugar refining, casting, medicine refining, cement quick setting and cosmetics raw materials etc.
We Ultra Febtech - An ISO 9001:2008 Certified Company Engaged in Manufacturing of guar gum plants machinery to Convey the Material.The plant has been configured and designed in such a way that minimum work force will require. The guar split will be fed in to the pneumatic system to feed in to the turbo screen. The turbo screen is suggested at the high of plant. The screening will be employed for the removal of foreign matter. This screened material will be stored in a storage hopper. The guar splits will fall from the screens by gravity to the storage hopper, which is configured below the screen. From storage hopper material can be taken in to double cone mixer as and when required by gravity for the rehydrating of guar splits. All the rehydrated guar split will be sent to the hopper of Flakers at a time by gravity. Flakers will crush the guar splits and crushed guar splits will go into the ultrafine grinder at the uniform rate. Ultrafine grinder is proposed for the grinding of crushed guar splits. This grinder has ability to grind the material without generating too much heat. Material will be fed into the dryer. Oil will be the media to convey the heat and deliver to the air. This hot air will take the material into the dryer line where actual drying will take place. Attached cyclone system will separate the material and hot air. To heat the oil Thermal boiler will be used. The material will be screened through centrifugal screen. Material passing through the screen will be again screened through turbo screens as additional control. This material will be sold as a premium product. Oversize of the centrifugal screen will be screened through turbo screen to separate another grade in terms of particle size followed by additional screening. The oversize will be screened through another turbo screen to separate another grade. Oversize will be passed through another grinder. The material will be passed through another screen. Oversize will be recycled to the same grinder. Final material coming out from all the screens will be sent separately by gravity in to the Nauta mixer for the blending and to make a uniform lot. The products will be tested and packed. The plant can be operated by 2 skill workers in a shift. The loading/unloading and the packing of the final product can be done on contract basis.
We ultra febtech - an iso 9001:2008 certified company engaged in manufacturing of cmc plants machinery to convey the material.First cellulose react with caustic to form alkali cellulose then react with mono chloro acetic acid or it’s salt from sodium carboxy methyl cellulose. During the reaction of alkali cellulose with etherification agents and in the subsequent reactions, sodium chloride (common salt) is produced as a major by-product. This is washed out together with any other byproducts or, in the case of technical-grade nacmc, left in the product. The dried cellulose ethers are then processed into granular or powder products and in some cases modified with other additives.
The plant has been configured and designed in such a way that minimum work force will require. The guar split will be fed in to the pneumatic system to feed in to the turbo screen. The turbo screen is suggested at the high of plant. The screening will be employed for the removal of foreign matter. This screened material will be stored in a storage hopper. The guar splits will fall from the screens by gravity to the storage hopper, which is configured below the screen. From storage hopper material can be taken in to double cone mixer as and when required by gravity for the rehydrating of guar splits. All the rehydrated guar split will be sent to the hopper of Flakers at a time by gravity. Flakers will crush the guar splits and crushed guar splits will go into the ultrafine grinder at the uniform rate.
Tma fine pulverizing machine Efficiency and economic pulverizing of plastic granules The fine pulverizing machines are precisely engineered by tma, to grind variety of granulated temperature sensitive plastics like pe, pvc and pc. The machine is designed to produce, highest quality of powder and achieve better particle distribution, required bulk density and better dry flow characteristics consistently.
Guar gum, CMC plants, TKP plants, ultrafine pulverizer, impact pulverizer, flaker, pin mill, ball mill (batch type), air classifier mill, reaction blender, ribbon blender, rib plough mixer, nauta mixer, vertical continuous blender, continuous mixer, double cone mixer, plough mixer, rotary siever, centrifugal siever, vibro siever, eccentric siever, feeder screw type, rotary valve feeder, screw conveyor, reaction vessel, tray dryer, heat exchanger, hydration conveyor, washing conveyors, pneumatic flash dryer, bucket elevator, blower, rotary table feeder, rotary air lock valve, solution tank, reaction tank, hot air generator, pulse jet dust collector.
The plant has been configured and designed in such a way that minimum work force will require. The guar split will be fed in to the pneumatic system to feed in to the turbo screen. The turbo screen is suggested at the high of plant. The screening will be employed for the removal of foreign matter. This screened material will be stored in a storage hopper. The guar splits will fall from the screens by gravity to the storage hopper, which is configured below the screen. From storage hopper material can be taken in to double cone mixer as and when required by gravity for the rehydrating of guar splits. All the rehydrated guar split will be sent to the hopper of Flakers at a time by gravity. Flakers will crush the guar splits and crushed guar splits will go into the ultrafine grinder at the uniform rate. Ultrafine grinder is proposed for the grinding of crushed guar splits. This grinder has ability to grind the material without generating too much heat. Material will be fed into the dryer. Oil will be the media to convey the heat and deliver to the air. This hot air will take the material into the dryer line where actual drying will take place. Attached cyclone system will separate the material and hot air. To heat the oil Thermal boiler will be used. The material will be screened through centrifugal screen. Material passing through the screen will be again screened through turbo screens as additional control. This material will be sold as a premium product. Oversize of the centrifugal screen will be screened through turbo screen to separate another grade in terms of particle size followed by additional screening. The oversize will be screened through another turbo screen to separate another grade. Oversize will be passed through another grinder. The material will be passed through another screen. Oversize will be recycled to the same grinder. Final material coming out from all the screens will be sent separately by gravity in to the Nauta mixer for the blending and to make a uniform lot. The products will be tested and packed. The plant can be operated by 2 skill workers in a shift. The loading/unloading and the packing of the final product can be done on contract basis.
