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Ultrafine Grinding Equipment Manufacturers

Ultrafine grinding equipment is a device that uses the form of air separation, heavy pressure grinding and shearing to achieve ultra-micro pulverization of dry materials. It is composed of columnar crushing chamber, grinding wheel, grinding rail, fan, material collection system, etc. The material enters the columnar crushing chamber through the feeding port and is crushed and sheared by the grinding wheel that moves in a circular motion along the grinding track. The crushed material is brought out of the crushing chamber by the negative pressure airflow caused by the fan, and enters the material collection system, where the air is discharged through the filter bag and the material and dust are collected to complete the crushing.

Who are we?

Zhejiang Jacan Technology Co., Ltd. is a China Ultrafine Grinding Equipment Manufacturers and is a China Ultrafine Grinding Equipment 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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From Nanoparticles to Macroscopic Marvels: Ultrafine Grinding Equipment's Versatility Unveiled


Ultrafine grinding equipment has emerged as a technological marvel, offering unparalleled versatility in the realm of material science and manufacturing. With its unique ability to manipulate particle sizes, this equipment has revolutionized various industries, from pharmaceuticals and electronics to advanced materials and environmental applications. In this article, we explore the multifaceted versatility of ultrafine grinding equipment and its significant impact on creating nanoparticles and macroscopic wonders alike.
At the heart of its versatility lies the capability to process an extensive range of particle sizes. From nanoparticles, with dimensions measured in nanometers, to larger macroscopic particles, ultrafine grinding equipment can finely tune the size and distribution of materials to suit diverse applications. This adaptability empowers researchers and manufacturers to design materials with tailored properties, offering a broad scope of functionalities across different industries.
In the realm of pharmaceuticals, ultrafine grinding equipment has driven transformative advances in drug delivery systems. By reducing drug particles to the nanoscale, the equipment enhances drug solubility and bioavailability, resulting in improved therapeutic efficacy. Nanoparticles enable targeted drug delivery, enabling precise drug release at specific sites within the body, leading to more efficient and potent treatments.
The electronics industry has also harnessed the versatility of ultrafine grinding equipment to create nanoscale electronic components. As devices continue to miniaturize, the ability to produce smaller, faster, and more energy-efficient electronic components becomes paramount. The equipment's precision in shaping materials at the nanoscale has paved the way for cutting-edge electronics, advancing technologies such as nanoelectronics, optoelectronics, and flexible electronics.
In the pursuit of advanced materials, the adaptability of ultrafine grinding equipment has played a crucial role. It allows for the production of nanomaterials with enhanced properties such as strength, thermal conductivity, and catalytic activity. For instance, by engineering nanoscale ceramic particles, materials with exceptional mechanical strength and wear resistance are achievable, revolutionizing industries like aerospace and automotive.
Furthermore, the versatility of ultrafine grinding equipment extends to environmental and clean energy applications. In the quest for sustainable solutions, researchers have utilized this technology to create highly active catalysts for environmental remediation. Additionally, the development of energy storage materials with improved performance and stability has been made possible through precise particle size manipulation, supporting the growth of renewable energy technologies.
Beyond its impact on specific industries, the adaptability of ultrafine grinding equipment has driven fundamental research and opened new avenues for scientific exploration. As researchers delve deeper into the potential of manipulating particle size, they continue to uncover novel applications and functionalities. The equipment serves as a versatile platform for innovation, inspiring collaborations across disciplines and pushing the boundaries of what is achievable.
However, alongside its undeniable benefits, challenges remain in maximizing the potential of ultrafine grinding equipment. Process scalability, energy efficiency, and cost-effectiveness are areas that demand attention to ensure widespread adoption across industries. Addressing these challenges will further strengthen the equipment's versatility and make it an even more integral part of material science and manufacturing.
In conclusion, ultrafine grinding equipment stands as a testament to the power of versatility in driving technological marvels. Its ability to manipulate particle size, from nanoparticles to macroscopic wonders, has revolutionized industries spanning pharmaceuticals, electronics, advanced materials, and environmental applications. By enabling tailored properties, enhanced functionalities, and sustainable solutions, the equipment has become an indispensable tool in shaping the future of materials science. As research and technology continue to evolve, the full potential of ultrafine grinding equipment is yet to be unveiled, promising a future rich with innovation and transformative discoveries.

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