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Nanoparticle Disruption Probe Sonicator

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MOQ : 1 Number

Nanoparticle Disruption Probe Sonicator Specification

Usage
Molten Aluminum Nanoparticle Processing

Material
Titanium / Niobium

Dimension (L*W*H)
400 x 250 x 300 mm (Approx)

Power
500 Watts

Voltage
230 Volt (v)

Frequency
20 KHz

Temperature
Ambient to 99C

Application
Nanoparticle dispersion, cell disruption, emulsification, homogenization, sample preparation

Display
Digital LCD

Amplitude Range
20% to 100%

Weight
12 kg (Approx)

Volume Capacity
25 mL to 500 mL

Ultrasonic Output
Adjustable

Cooling System
Optional external cooling

Probe Diameter
6 mm

Timer Range
0 - 99 minutes

Nanoparticle Disruption Probe Sonicator Trade Information

Minimum Order Quantity
1 Number

Supply Ability
10 Per Month

Delivery Time
1 Week

About Nanoparticle Disruption Probe Sonicator

For meeting the specific needs of industries, we provide advanced technology Nanoparticle Disruption Probe Sonicator This is available with pneumatic/motorized up down along with rotary system with probe rotation. In addition, it is designed with strong and easy furnace fitting and speedy motor to ensure the capacity of 3000W.

Product details

Frequency	35 KHz
Probe Material	Titanium / Niobium
Probe Rotation Speed	Max 500 RPM
Throat Depth	11 Inch
Voltage	230 V
Automation Type	Semi-Automatic
Model Name/Number	ULP-3000
Country of Origin	Made in India
Warranty	1 Year
Phase	Single
Capacity	3000W
Brand	Johnson Plastosonic
Usage/Application	Molten Aluminum Nanoparticle Processing

Precision Control for Advanced Applications

With its adjustable ultrasonic output and amplitude range of 20% to 100%, this probe sonicator provides users with meticulous control over sample processing. The digital LCD display offers real-time feedback, simplifying parameter adjustments and enhancing repeatability. Its robust design and wide compatibility make it a trusted tool for nanoparticle dispersion, cell disruption, and sample homogenization within various research and industrial contexts.

Versatile Performance for Molten Aluminum Nanoparticle Processing

Specially crafted for handling molten aluminum nanoparticle processing, the sonicator uses high-quality titanium/niobium material for the probe, ensuring durability and chemical resistance. The device efficiently accommodates a variety of sample volumes, making it suitable for both small-scale experimentation and larger batch processing. Optional external cooling helps maintain sample stability during extended operations.

FAQ's of Nanoparticle Disruption Probe Sonicator:

Q: How does the Nanoparticle Disruption Probe Sonicator facilitate nanoparticle dispersion?

A: The probe sonicator utilizes high-frequency ultrasonic waves (20 KHz) and adjustable amplitude settings to break down and evenly disperse nanoparticles in solvents, ensuring uniform distribution and efficient processing, particularly in molten aluminum systems.

Q: What materials are used in the probe, and why are they suitable for processing molten aluminum?

A: The probe is constructed from titanium or niobium, both known for their strength, chemical tolerance, and ability to withstand high temperatures, making them ideal for aggressive environments such as molten aluminum nanoparticle processing.

Q: When should I use the optional external cooling system?

A: The external cooling system is recommended during extended sonication or when processing temperature-sensitive samples, since it helps maintain the sample at a consistent temperature, thereby preventing thermal degradation.

Q: Where is this sonicator commonly used?

A: This model is frequently utilized in research and industrial laboratories across India, particularly where precise nanoparticle dispersion, cell disruption, or emulsification is required, with specific relevance to applications involving molten aluminum.

Q: What is the process for adjusting the ultrasonic output and amplitude?

A: The digital LCD display panel allows users to set the desired ultrasonic power output and adjust the amplitude between 20% and 100%, providing tailored control over the sample processing based on application needs.

Q: How does sample volume capacity enhance usage flexibility?

A: Accommodating volumes from 25 mL to 500 mL, the sonicator can be used for both small-scale laboratory tests and larger processing runs, supporting a range of research and industrial applications efficiently.

Q: What benefits does this sonicator offer for sample preparation and homogenization?

A: The high-powered 500 Watts operation ensures rapid, thorough mixing and breakdown of samples, resulting in high-quality, reproducible homogenization and preparation outcomes, even with challenging materials like molten aluminum.

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