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Turbo Ultrafine Classifier Manufacturers

Turbo ultrafine classifier consists of an inlet volute with dispersing guiding blades in the upper part and a high-speed backward multi-blade classifying impeller, the classifying wheel and the outlet are sealed by dynamic airflow, and the lower part is a secondary sorter with a secondary air inlet device and a high-pressure negative pressure suction system.

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Who are we?

Zhejiang Jacan Technology Co., Ltd. is a China Turbo Ultrafine Classifier Manufacturers and is a China Turbo Ultrafine Classifier factory, established in August 2007 with a registered capital of 30 million yuan. The company has two bases: a sales test base located in Fengcheng Town, Fengxian District, Shanghai and a production base located in Shengzhou City, Zhejiang Province. The total area of the company is 10,000 square meters, the production area is 6,500 square meters, and the warehouse covers an area of 800 square meters. The company is adjacent to Yongjin Expressway, and the transportation is very convenient.

The company advocates the "one-to-one" design of "high efficiency and energy saving", that is, to make a special design according to the pulverization characteristics of the material, and strive for ultra-fine powder, minimize energy consumption, and stabilize equipment. The products are widely used in ultrafine grinding in different fields such as non-metallic minerals, chemical industry, medicine, biological food, rubber and plastics, fillers, building materials, pesticides, feed, batteries, new materials, new energy and environmental protection.

The company can develop and design products by itself according to the needs of users. It mainly includes superfine powder mill, air vortex micro powder mill, soft plastic and rubber crushing, vertical screenless, turbine crushing, etc. and a series of supporting equipment, crushing equipment classifier, conveyor, elevator, collector, dust collector Machine (pulse, simple), negative electrode material production line, graphite pulverizer, graphite shaping machine, graphite spheroidization equipment, plastic pulverizer, rice pulverizer, carbon black pulverizer, white carbon black pulverizer, PVA pulverizer, resin pulverizer machine, industrial salt crushing, white sugar crushing, calcium carbonate modification equipment, light calcium depolymerization equipment, nano-calcium depolymerization equipment, xanthan gum crushing equipment R&D, sales and production line projects.

In the field of lithium battery anodes, the crushing and shaping machines we have launched have been widely used in domestic similar mainstream enterprises, and have been widely used in raw material crushing, shaping, depolymerization of carbonized materials, wet granulation, pneumatic conveying and other fields. Shanghai Jiegang, the predecessor of Zhejiang Jiegang, has cooperated with the Sofia Institute to research and develop the natural graphite pulverization and spheroidization process since 2010. It has carried out the preliminary tests of the Yichang Hengda project and Jixi project based on the traditional multi-set series connection technology. Complete process test data. Since 2021, we have cooperated with the team of Professor Zhang Lingyan of Wuhan University of Technology to carry out the technical development of a new process of crushing and spheroidizing natural graphite. Starting from improving the use range and yield of natural flake graphite, we have developed special crushing and shaping technologies for natural flake graphite. Sincerely invite domestic and foreign customers to visit our factory, and look forward to your long-term cooperation to create a better tomorrow for you and me!

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Unlocking New Dimensions of Precision: Turbo Ultrafine Classifier Sets New Standards in Classification Technology


In the realm of particle classification technology, precision and efficiency play crucial roles in achieving desired product characteristics and performance. Over the years, classifiers have undergone significant advancements to meet modern manufacturing demands. Traditional classifiers, such as air classifiers and mechanical separators, provided valuable separation capabilities but often fell short in achieving the desired level of precision required for certain applications. However, the pursuit of increased precision and efficiency led to the emergence of the Turbo Ultrafine Classifier, which has set new standards and redefined possibilities in various industries.
At the heart of the Turbo Ultrafine Classifier's capabilities lies its remarkable ability to operate at the nanoscale level. By utilizing advanced airflow and particle dynamics, this classifier can precisely separate particles with dimensions measured in nanometers. Such unparalleled precision opens up new possibilities in industries like pharmaceuticals and nanomaterials, where the manipulation of ultrafine particles is critical for enhanced performance and functionalities.
The pharmaceutical industry has been significantly impacted by the precision capabilities of the Turbo Ultrafine Classifier. In drug formulation, even minor variations in particle size can affect bioavailability and dissolution rates, making precision paramount. The Turbo Ultrafine Classifier provides a game-changing solution by enabling the production of uniformly sized drug particles, resulting in more consistent and effective drug delivery systems and improved patient outcomes.
In nanomaterials engineering, the Turbo Ultrafine Classifier has unlocked new dimensions by allowing researchers to precisely control particle size and distribution. This level of precision is vital in optimizing material properties, such as mechanical strength, thermal conductivity, and optical characteristics, thereby pushing the boundaries of advanced materials research.
The electronics industry also benefits from the Turbo Ultrafine Classifier's capabilities. In the quest for smaller, faster, and more reliable electronic components, precision is essential. By producing nanoscale particles with exceptional consistency, this classifier has become a pivotal tool in advancing electronic technologies, from semiconductor manufacturing to nanoelectronics and flexible electronics.
Moreover, the Turbo Ultrafine Classifier contributes to environmental and clean energy solutions by providing efficient separation based on size and density. In environmental remediation, it plays a crucial role in the production of highly efficient catalysts. Additionally, in clean energy applications, such as battery materials and fuel cell components, the classifier's precision contributes to enhanced performance and durability.
Beyond its impact on specific industries, the Turbo Ultrafine Classifier has sparked a wave of innovation in research and development. Its precise classification capabilities have inspired researchers to explore new materials and applications that were previously unattainable. The quest for optimized materials and products continues to drive scientists to push the boundaries of what is possible, with the classifier serving as a catalyst for groundbreaking discoveries.
As with any technology, challenges remain in maximizing the potential of the Turbo Ultrafine Classifier. Addressing these challenges, such as scalability and cost-effectiveness, will further strengthen its versatility and make it an even more integral part of material science and manufacturing.
In conclusion, the Turbo Ultrafine Classifier represents a leap forward in precision classification technology, unlocking new dimensions of possibilities across industries. Its ability to operate at the nanoscale and provide unmatched precision has revolutionized pharmaceuticals, nanomaterials engineering, electronics, and clean energy solutions. By empowering researchers and manufacturers to achieve the desired particle size and distribution, this classifier has set new standards in classification technology. As the pursuit of precision continues, the Turbo Ultrafine Classifier will undoubtedly remain a driving force in shaping the future of manufacturing and materials science.

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