high speed dispersing machine can be applied to the dispersing process of ML grade ultra-low volume sample materials, and has a more obvious homogenizing effect on the mixing of nanoscale materials. It can realize the rapid dispersive sampling of the test sample material
CYKY-SFM-20 high speed dispersing machine can be applied to the dispersing process of ML grade ultra-low volume sample materials, and has a more obvious homogenizing effect on the mixing of nanoscale materials. It can realize the rapid dispersive sampling of the test sample material. The equipment has beautiful appearance, small size, convenient and easy to use, and can be widely used in the raw material batching process of lithium-ion battery, cosmetics, solar energy, chemical industry and other industries.
Product characteristics:
The homogeneous mixing test of ultra-low size slurry was realized.
Nanoscale slurry dispersion test can be realized.
With less dispersion time, the slurry can be processed quickly;
According to different material characteristics, the dispersion speed can be adjusted to obtain different slurry state and particle distribution.
Tank body design water jacket, can be controlled by water temperature for cooling and heating mixing;
Single tank dispersion mode, can set the stirring speed and time of each section;
Slurry tank filling volume 30ml;
Select high-quality components, product quality is reliable and stable;
PLC control, HMI operation, easy to use;
Purchase information:
If you are interested in our experimental high speed dispersers, please contact us for more information and a quote.
Contact number: +8615617875939
E-mail: gordon@zztainuo.com
Contact: Gordon Zhang
Wechat: 15617875939
WhatsApp: +8613592553141
Technical parameters:
Power supply | Three-phase 380VAC±10%, frequency 50Hz, power 5KW |
Use environment | The recommended ambient temperature is 25±3 ° C, humidity is 30 to 90RH, and no vibration or electromagnetic interference is required |
Processing capacity | 15~30ml/ can |
Dispersion cycle | Max. 40m/s |
Dispersion rotation | 3000~20000rpm |
Single can feeding | Max. 30ml |
Feeding temperature | <40℃ |
Applicable viscosity | Max.50000mpa.s, higher viscosity can be achieved by reducing the speed |
Contact material | The material in contact with the slurry is SUS304/SUS316L |
Cooling water supply | 8±2℃ (chiller is standard) |
Equipment size | W280mm×D500mm×H690mm |
Weight | About 70kg |
Main components:
Requirements | Specific specifications |
Device host | 1 set |
Water cooler | 1 set |
Experimental high-speed dispersing machine is an efficient, fast, easy to operate and control multi-functional equipment, its application field is very wide, including but not limited to the following aspects:
Chemical industry: In chemical experiments, high-speed dispersing machines are indispensable auxiliary equipment. It is able to effectively disperse solid substances into liquids, forming a uniform suspension or solution, which is essential for the smooth conduct of chemical reactions. For example, in a synthetic reaction, the solid catalyst or reactant needs to be uniformly dispersed in the solvent to ensure maximum reaction rate and yield. Experimental high speed dispersion machine is widely used in the preparation of various chemicals and chemical reagents, such as pigments, coatings, catalysts and so on.
Pharmaceutical industry: Laboratory high-speed dispersing machines can be used to prepare drug suspensions and drug emulsions, etc., thereby improving the production efficiency and production quality of drugs.
Food industry: In the food industry, laboratory high speed dispersing machines can be used to prepare various food additives and seasonings, such as food coloring, food flavors, etc.
Cosmetics industry: In the cosmetics industry, laboratory high-speed dispersing machines can be used to prepare various cosmetic raw materials, such as facial masks, lotions, foundations, etc.
In the field of materials science: high-speed dispersing machines can not only be used to prepare ultrafine powder and thin film materials, but also to improve the microstructure and properties of materials. For example, in the preparation of ceramic materials, the high-speed dispersion machine can evenly disperse the raw material powder in the solvent to form a stable slurry. Subsequently, the ceramic products with uniform microstructure and excellent properties can be prepared by spray drying or grouting molding.
High speed dispersers are also commonly used in the preparation and modification of biological materials. For example, in the preparation of biodegradable polymer materials, the high-speed dispersion machine can evenly disperse the polymer raw materials in the solvent, and through a specific chemical reaction or physical treatment, to obtain a specific degradation rate and biocompatibility of the polymer material. These materials have broad application prospects in the fields of drug sustained-release and tissue engineering.
Other fields: Experimental high-speed dispersing machine is also widely used in paint, paint, ink, lithium batteries, fine chemicals and other industries and laboratories of academic institutions, is one of the essential laboratory equipment.
In summary, the experimental high-speed dispersing machine plays an important role in many fields with its efficient and accurate performance. With its high speed and high efficiency, a high-quality and stable dispersion can be prepared, thereby improving the quality and performance of the product. At the same time, the operation and maintenance of the experimental high-speed dispersion machine is also relatively simple, making it the preferred equipment in many fields.
Application Cases 《Introduction to the process of preparing ceramic Materials using Experimental High Speed Dispersion Mechanism》
The process of preparing ceramic materials using experimental high speed dispersion mechanism is a fine process involving multiple steps. The following is a brief introduction to the process:
First, raw material preparation:
Ceramic powder: Select ceramic powder with high purity and uniform particle size as raw materials, such as alumina, zirconia, silicon carbide and so on.
Dispersant: According to the need to add an appropriate amount of dispersant to improve the dispersion of ceramic powder in the solvent, to prevent the occurrence of agglomeration.
Solvent: Select a solvent suitable for ceramic powder, such as water, ethanol, etc., for dispersing ceramic powder into a uniform slurry.
Second, slurry preparation:
Mixing: Ceramic powder, dispersant and solvent are added to the container of the experimental high-speed disperser in a certain proportion.
Dispersion: Start the experimental high-speed dispersion machine, and produce strong shear force and impact force through the high-speed rotating blade, the ceramic powder is quickly refined and evenly dispersed in the solvent. At this time, the speed of the dispersion machine, the dispersion time and the form of the dispersion head and other parameters will affect the dispersion effect, and need to be adjusted according to the actual situation.
Grinding (if necessary) : For certain ceramic materials that require higher dispersion, grinding can be performed after dispersion to further refine the particle size of the ceramic powder.
Third, slurry performance adjustment:
Viscosity regulation: The viscosity of the paste is adjusted by adding thickener or diluent to meet the needs of the subsequent process.
pH adjustment: Adjust the pH value of the slurry as needed to improve the dispersion stability of the ceramic powder and the performance of the subsequent molding process.
4. Forming and sintering:
Molding: The prepared ceramic slurry is made into the required ceramic body by casting molding, spray drying or pressing molding.
Sintering: The molded ceramic body is sintered at high temperature to make it undergo chemical reactions and physical changes to form ceramic products with dense structure and excellent performance.
5. Performance testing and quality control:
Performance test: The performance test of the prepared ceramic products, such as density, hardness, bending strength, compressive strength, etc., to ensure that it meets the design requirements.
Quality control: Through the strict control of raw materials, process parameters and finished product properties, to ensure that the prepared ceramic materials have stable quality and excellent performance.
Matters needing attention:
In the preparation process, it is necessary to strictly control the speed of the experimental high speed dispersion machine, the dispersion time and the form of the dispersion head, in order to obtain the best dispersion effect.
The particle size, shape and surface properties of ceramic powder will affect its dispersion, so it is necessary to choose the appropriate dispersant and solvent according to the actual situation.
The forming and sintering process has an important impact on the performance of ceramic products, and it is necessary to choose the appropriate forming and sintering process according to the type of ceramic materials and application needs.
In summary, the process of using the experimental high-speed dispersion mechanism to prepare ceramic materials is a complex and fine process, which requires strict control of the parameters and conditions of each link to obtain high-quality ceramic products.
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