Facts about our nano mill

Vertical nano mill

Nanonization (nano mill) is the process of creating or manipulating particles with sizes ranging from 1 nanometer to 100 nanometers. At the nanoscale, a lot of life can happen. It can be made in two ways: bottom-up and top-down.



Bottom-up refers to chemistry-based particle construction, whereas top-down refers to grinding or milling or grinding. While bottom-up nanofabrication and form-in-place techniques produce top notch nanoparticles, they are frequently quite costly and require dedicated, specialized equipment. There is no such thing as a nano grinding mill, and not every milling procedure can produce nanoparticles. To reduce particles to the nanoscale, jet mills, dry and wet media and ball mills can all be employed.

But what are the advantages of particles that are calculated in nanometers, and how can you get nanoparticles for your brand or product? Let’s take a closer look at nano mill methods, their benefits and drawbacks, and how a toll processor may assist you in achieving this sometimes difficult particle size.
nano mill

nano mill

The milling professionals’ technical knowledge shines through in everything they do, from jaw crushing to micronization services to wet milling. The most efficient processing technology is chosen after an assessment of the material attributes and particle size goal. The technological skill is something that has to be taken pride in, and it shows in every project. Based on this, let’s discuss more about nano mill in detail.
MICRONIZATION / JET MILLING
Cutting-edge fluid bed jet milling services feature is a unique autogenous milling technology that includes a dynamic air classifier that can be infinitely modified to get the required particle size and form. The mills offer hot gas, ceramic lined, and stainless steel.

CRUSHING OF THE JAW
Two metal plates smash huge chunks of material utilizing compression during our pre-crushing size reduction process. The size of the bottom space between the plates, through which material passes, can be modified.

MILLING WITH A HAMMER
High-shear and centrifugal forces are used in the hammer mills to reduce a wide range of friable and non-friable materials. End products are coarse fractions that are reduced to finer particle sizes by a series of inline screens.

MILLING UNIVERSAL
The high-speed, fine-impact universal mills can dry grind a variety of items with a diameter ranging from 50 microns to 2 millimeters. The mills can be supplied with four revolving and stationary parts, depending on the application and product, to achieve the appropriate final product fineness.

PULVERIZING / COARSE CRUSHING
Primary crushing, impacting, drying, and roll crushing are some of the coarse system technologies that are used, and the usage of huge screen decks to customize multiple size fractions at the same time is done. Air-swept inline pulverizing roller mill grinds and classifies large products, which are recycled for further processing.

MILLING OF WET MEDIA
To achieve a consistent particle size distribution, particles are dispersed in a liquid slurry and media milling. Particle distributions in the nanoscale or sub-micron range are created by shearing forces (tearing apart), impacting (crushing by outside forces), and attrition (tearing and crushing each other apart).

nano mill core parts

Autogenous grinding uses big fragments of material as the media, hence it is milling by attrition (self-grinding) rather than impact. A cascading motion is created by a rotating drum, which induces breakdown into finer particles.

Nano Grinding Mills: How Small Particles Can Make a Big Difference

bead mill core parts
Nano grinding
Nanonization is the process of creating or manipulating particles with sizes ranging from 1 nanometer (nm) to 100 nanometers (nm). At the nanoscale, a lot of life happens. Nanoparticles can be made in two ways: bottom-up and top-down. Bottom-up nanofabrication refers to chemistry-based particle construction, whereas top-down refers to grinding or milling.

While bottom-up synthesis and form-in-place techniques produce high-quality nanoparticles, they are frequently quite costly and require specialized, dedicated equipment. There is no such thing as a single nano grinding mill, and not all milling procedures can produce nanoparticles.

Jet Milling
Jet milling using superheated steam produces nanoparticles while also drying the feedstock. Steam, which has a higher pressure than air, can be encountered into the grinding reservoir at a higher pressure, resulting in higher jet velocities and more energy inside the milling reservoir. A restricted particle size array is ensured by the integrated internal classifier.

Fluidized bed jet mills utilizing high end steam can achieve nanoparticles in a variety of pigments and minerals, while this approach may not be ideal for heat-sensitive materials.
nano mill roller

CHOOSING THE APPROPRIATE TECHNIQUE FOR YOUR MATERIAL

Both dry and wet milling have their benefits and drawbacks. After grinding, nanoparticles tend to clump together, making them critical to distribute. This is addressed by wet milling, which encapsulates each nanoparticle in a liquid slurry.

Wet milling, similarly, has the potential to introduce pollutants into the finished product. Jet milling is a dry method for achieving the preferred particle size without the use of milling media; nevertheless, jet milling methodologies demand more energy. On the other hand, wet mills can also be modified to limit the possibility of grinding chamber and milling media wear.

Besides, a brand or product needs to be dry powdered, it must go through an energy profound drying process following wet milling. Dry milling processes, such as fluidized jet milling with intensive steam, can eliminate this phase, potentially saving time and money.

Hence, not all milling procedures are suitable for all materials, therefore knowledge and experience are essential. Finally, a team of R&D Professionals, material scientists, and technical professionals from a reputable toll processor will assist you in evaluating the benefits and downsides of various milling procedures and determining the optimal process for your needs.

Last but not least Franli is the one-stop solution for those who are looking for different types of nano mill. There are varieties of nano milling methods that are present here, so avail it for better services. The customers put their trust in processing and manufacturing items that match their high-quality standards. The processes’ integrity is the foundation for that trust. Quality and process management certifications demonstrate their dedication to excellence and ensure that every product we touch satisfies stringent safety requirements.

Copyright Notice :
This article only represents the author’s point of view.
This article is published under the authorization of the author.
Source: Franli

This article address : Facts about our nano mill

Related Products

Pearl Mill(Vertical Bead Mill)
all

Vertical Bead Mill

Vertical Bead Mill has high viscosity material and low viscosity material. One for nano grinding material, another one for high viscosity material such as offset ink.

Contact ➔
Z Blade Mixer
all

Z Blade Mixer

The Z blade mixer is made for extensive mixing, kneading, and stabilizing strong and high viscous materials, such as bubble gum bases, bread, caramel mass, body wash platform, and glue.

Contact ➔
lab three roll mill
all

Triple roller mill

Three-roller mills are also called triple roller mills. In daily work, they can be divided into Lab triple roller mills and production triple roller mills. They are mainly used in ink, paint, paint and other industries.

Contact ➔

News

Grinding Media for Bead Mill | Zirconia Beads & Zirconium Silicate Beads

Bead mills mainly use grinding balls as media, and use impact, extrusion, and friction to achieve the final grinding effect, which mainly depends on the size and hardness of the grinding beads, the filling rate of the grinding beads, and the collision frequency adjustment between the grinding beads and the particles.

Overview of Laboratory Reactor

Laboratory reactors, also known as lab reactors, are essential tools in scientific research, product development, and process optimization. These reactors provide a controlled environment for conducting chemical reactions, mixing, dispersing, and homogenizing processes.

Ribbon Blender Mixer Equipment

A ribbon blender mixer, also known as a ribbon mixer or horizontal ribbon blender, is a powerful industrial machine designed for thorough and efficient blending of various materials.

Leave a Reply

Your email address will not be published. Required fields are marked *