Ultrasonic Dispersion machine for carbon black
Brand Name:RPS-SONIC
Certification:CE
Model Number:SONO-20-P3000
Minimum Order Quantity:1 set
Delivery Time:2-3days
Payment Terms:L/C, T/T, D/P, D/A
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Hangzhou Zhejiang China
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Ultrasonic Dispersion machine for carbon black
What is the ultrasonic dispersion Machine ?
Carbon black is a fine, powdery form of carbon with the following
key characteristics:
1. Production process
It is typically produced by the incomplete combustion or thermal decomposition of hydrocarbons. In industrial settings, heavy petroleum products like oil or coal tar are heated to high temperatures in a furnace with limited oxygen supply. This process causes the hydrocarbon molecules to break down, and carbon atoms aggregate to form carbon black particles.
An ultrasonic dispersion machine for carbon black is a specialized
piece of equipment with the following characteristics and
functions:
1. Working principle
Ultrasonic vibration: It generates high-frequency ultrasonic waves,
usually in the range of 20 kHz - 100 kHz. These ultrasonic waves
create alternating high-pressure and low-pressure regions in the
liquid medium where carbon black is dispersed.
Cavitation effect: In the low-pressure areas, tiny bubbles form,
and then rapidly collapse when they enter the high-pressure zones.
This cavitation generates intense local shockwaves and microjets,
which break up agglomerates of carbon black particles, allowing
them to be more evenly distributed in the surrounding liquid.
2. Structure
Generator: Produces electrical signals at ultrasonic frequencies,
which are then transmitted to the transducer.
Transducer: Converts the electrical energy from the generator into
mechanical ultrasonic vibrations. It is often made of piezoelectric
materials that can deform in response to the applied electrical
field, generating the required vibrational energy.
Probe or horn: Amplifies the ultrasonic vibrations and transmits
them directly into the carbon black suspension. The shape of the
probe is designed to efficiently transfer energy into the medium
for optimal dispersion.
3. Applications
Ink production: Carbon black is a common pigment in inks. The
ultrasonic dispersion machine ensures that carbon black particles
are finely and uniformly dispersed, improving the color
consistency, fluidity, and print quality of the ink.
Coating manufacturing: For coatings where carbon black is added to
impart color, anti-corrosion, or UV protection properties, this
machine helps to avoid particle settling, resulting in more
homogeneous and stable coatings.
Rubber and plastic compounding: Carbon black is widely used as a
filler and reinforcing agent in rubber and plastics. Ultrasonic
dispersion promotes better integration of carbon black within the
polymer matrix, enhancing the mechanical properties of the final
products.
Ultrasonic emulsifiers are increasingly used in the cosmetic industry for their ability to create stable emulsions and enhance product formulations. Here’s an overview of their applications and benefits:
What is an Ultrasonic Emulsifier?
An ultrasonic emulsifier uses high-frequency sound waves to create intense agitation in a liquid. This process helps to break down particles and droplets, allowing for the uniform mixing of oil and water phases, which is essential for emulsions.
Applications in the Cosmetic Industry
Emulsion Formation
Creams and Lotions: Ultrasonic emulsifiers are often used to
produce stable creams and lotions by effectively blending oil and
water phases.
Serums: They can help create high-performance serums with fine
particle sizes for better absorption.
Product Stability
Enhanced Stability: The high shear forces generated by ultrasonic
waves help reduce particle size, leading to more stable emulsions
with a longer shelf life.
Minimized Separation: This technology reduces the likelihood of
phase separation in emulsions.
Incorporation of Active Ingredients
Better Dispersion: Ultrasonic emulsifiers allow for the even
distribution of active ingredients, such as vitamins, oils, and
botanical extracts, enhancing their efficacy.
Nanoemulsions: They can produce nanoemulsions, which improve the
bioavailability of active compounds.
Preparation of Suspensions
Uniform Distribution: Ultrasonic emulsifiers are also used to create uniform suspensions of solid particles in liquid formulations, such as exfoliating scrubs.
Cosmetic Manufacturing
Scalability: These emulsifiers can be scaled for both small batch and large-scale production, making them suitable for various manufacturing needs.
Benefits of Ultrasonic Emulsifiers
Efficiency: The emulsification process can be faster compared to
traditional methods, saving time in production.
Quality: Products typically have improved texture and stability.
Energy Savings: Ultrasonic emulsification often requires less
energy than conventional mechanical mixing.
Considerations
Equipment Cost: Initial investment in ultrasonic equipment can be
high, but the benefits may outweigh the costs in the long run.
Formulation Expertise: Proper formulation knowledge is essential to
achieve the desired product characteristics.
Conclusion
Ultrasonic emulsifiers are a valuable tool in the cosmetic industry, offering efficient and effective methods for creating stable, high-quality emulsions and enhancing the overall performance of cosmetic products. Their ability to improve formulation stability and ingredient efficacy makes them increasingly popular among manufacturers.
Parameter:
| Item | sono-20-1000 | sono-20-2000 | sono-20-3000 | sono-15-3000 |
| Frequency | 20khz±0.5 | 20khz±0.5 | 20khz±0.5 | 15khz±0.5 |
| Power | 1000w | 2000w | 3000w | 3000w |
| Voltage | 110 or 220V | |||
| Max temp | 300℃ | |||
| Max pressure | 35Mpa | |||
| Itensity of sound | 20W/cm² | 40W/cm² | 60W/cm² | 60W/cm² |
| Capacity | 10L/min | 15L/min | 20L/min | 20L/min |
| Material of probe | Titanium | |||
What are the common applications of ultrasonic dispersion machines for carbon black in different industries?
Ultrasonic dispersion machines for carbon black have extensive
applications in various industries. Some of the common applications
are as follows:
Rubber Industry
Improving Mechanical Properties: In the production of tires and
other rubber products, the proper dispersion of carbon black is
crucial. Ultrasonic dispersion machines break down carbon black
aggregates into smaller particles, achieving a more uniform
dispersion in the rubber matrix. This enhances the reinforcement
effect of carbon black, improving the tensile strength, wear
resistance, and tear resistance of rubber products作者:Jaesun Choi;A.
Isayev.
Enhancing Processability: Ultrasonic treatment can reduce the
viscosity of rubber compounds containing carbon black, making the
mixing and processing easier. For example, it can lower the die
pressure during extrusion, improving production efficiency and
product quality作者:Jaesun Choi;A. Isayev.
Ink and Coating Industry
Achieving Uniform Color: Carbon black is a commonly used pigment in
inks and coatings. Ultrasonic dispersion machines ensure the even
dispersion of carbon black in the ink or coating matrix, resulting
in a more uniform color and better color reproduction. This is
particularly important in high-quality printing inks and coatings.
Improving Gloss and Stability: The uniform dispersion of carbon
black can also enhance the gloss and stability of inks and
coatings. It prevents carbon black particles from settling or
aggregating during storage, ensuring the consistency of product
quality.
Plastic Industry
Enhancing Electrical and Thermal Conductivity: In some plastic
products, such as conductive plastics and heat-dissipating
plastics, carbon black is added to improve electrical and thermal
conductivity. Ultrasonic dispersion machines help to evenly
distribute carbon black in the plastic matrix, effectively
improving the conductive and heat-dissipating properties of
plastics.
Improving Mechanical Properties: Similar to the rubber industry,
the uniform dispersion of carbon black in plastics can also enhance
their mechanical properties, such as tensile strength, impact
strength, and hardness.
Electronics Industry
Manufacturing of Conductive Pastes: In the production of electronic
components, such as printed circuit boards and touch screens,
conductive pastes containing carbon black are often used.
Ultrasonic dispersion machines ensure the fine dispersion of carbon
black in the conductive paste, improving its conductivity and
adhesion, and thus improving the performance and reliability of
electronic components.
Production of Carbon Nanotube Composites: Carbon nanotubes and
carbon black are often used together in the preparation of
high-performance composites. Ultrasonic dispersion machines play an
important role in the dispersion of carbon nanotubes and carbon
black, helping to improve the mechanical, electrical, and thermal
properties of composites.
Can you explain the difference between homogenization and emulsification?
Homogenization and emulsification are both processes used to mix substances, but they serve different purposes and involve distinct mechanisms. Here’s a breakdown of the differences:
Homogenization
Definition: Homogenization is the process of making a mixture uniform in composition by breaking down larger particles into smaller, more evenly distributed particles.
Purpose: The primary goal is to achieve a consistent texture and prevent separation of components. This is often used in food and cosmetic products.
Mechanism: During homogenization, a mixture is subjected to high pressure or mechanical forces, which break down particles and reduce their size. This results in a uniform dispersion of solid particles or droplets throughout the liquid.
Applications: Commonly used in dairy products (like milk), sauces, and creams to ensure a smooth texture. In cosmetics, it helps create uniform lotions and creams.
Emulsification
Definition: Emulsification is the process of mixing two immiscible liquids (typically oil and water) to form a stable emulsion.
Purpose: The main objective is to combine oil and water phases into a stable mixture where one liquid is dispersed in the other. This is crucial for products like creams, lotions, and other emulsified formulations.
Mechanism: Emulsification involves the use of emulsifiers (surfactants) that lower the surface tension between the oil and water, allowing the two phases to mix. Mechanical agitation or ultrasonic waves may also be applied to create smaller droplets of one liquid dispersed in another.
Applications: Widely used in cosmetics (creams, lotions), food products (mayonnaise, dressings), and pharmaceuticals.
Key Differences
Feature Homogenization Emulsification
Purpose Create uniformity in particle size Combine immiscible
liquids into a stable emulsion
Mechanism Reduces particle size through pressure/force Uses
emulsifiers to mix oil and water
Product Types Liquids with solid particles, creams Oil-in-water or
water-in-oil emulsions
Stability Aims for consistent texture Aims for stable suspension of
two liquids
Conclusion
While both processes aim to create stable mixtures, homogenization focuses on particle size reduction for uniformity, whereas emulsification specifically targets the stable mixing of two immiscible liquids. Understanding these differences is crucial when formulating products in the cosmetic, food, and pharmaceutical industries.
Working video for reference:
Ultrasonic Dispersion machine for carbon black
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