Product Introduction
Industrial Ultrasonic transducers are highly reliable and efficient. They are designed to operate at high frequencies, which makes them ideal for cleaning and welding applications. The ultrasonic waves generated by the transducer are capable of penetrating deep into different materials, allowing for thorough cleaning and welding. The efficiency of these devices ensures that production processes are faster, more efficient, and ultimately cost-effective.
Moreover, Industrial Ultrasonic transducers are easy to operate and require minimal maintenance. They are highly automated and can be easily integrated with other manufacturing equipment to create a seamless production process. This means that operators can focus their attention on other important aspects of the manufacturing process, reducing the risk of human error and increasing overall productivity.
In addition to being efficient and easy to operate, Industrial Ultrasonic transducers are also eco-friendly. They use less energy compared to other manufacturing equipment, making them a sustainable choice for businesses. This not only helps to save energy costs but also reduces the carbon footprint of different industries.
In conclusion, Industrial Ultrasonic transducer is an essential device for various industries. It is efficient, reliable and eco-friendly, making it an ideal choice for any business looking to improve their production process. The transducer's impact on the manufacturing process is immense, and its continued developments ensure that businesses can continue to rely on it for years to come.
Product Parameters
|
Classification |
Model |
Frequency (KHz) |
Resonant Impedance (Ω) |
Static Capacitance (PF) |
Insulation Resistance (MΩ) |
Power (W) |
|
Ultrasonic Cleaning Series |
Q120W-20K |
20±1 |
≤20 |
4800±10% |
≥100 |
120W |
|
Q100W-28K/40K |
28±/40±1 |
≤20 |
8000±10% |
≥100 |
100W |
|
|
Q80W-28K/40K |
28±/40±1 |
≤20 |
7000±10% |
≥100 |
80W |
|
|
Q60W-28K/40K |
28±/40±1 |
≤20 |
5000±10% |
≥100 |
60W |
|
|
Q60W-68K |
68±1 |
≤20 |
3800±10% |
≥100 |
60W |
|
|
Q60W-120K |
120±1 |
≤20 |
3800±10% |
≥100 |
60W |
|
|
Q50W-40K |
40±1 |
≤20 |
4000±10% |
≥100 |
50W |
|
|
Q40W-40K |
40±1 |
≤30 |
3000±10% |
≥100 |
40W |
|
|
Q30W-40K |
40±1 |
≤30 |
1800±10% |
≥100 |
30W |
|
|
Q15W-50K |
50±1 |
≤100 |
1100±10% |
≥100 |
15W |
|
|
Ultrasonic Medical and Beauty Series |
M50W-80D |
40±1 |
≤20 |
4000±10% |
≥100 |
50W |
|
M50W-60D M15W-63D |
35±1 1000±50 |
≤20 ≤20 |
4000±10% 3500±10% |
≥100 |
50W 15W |
|
|
M30W-40K |
40±1 |
≤20 |
2200±10% |
30W |
||
|
M15W-40D |
3000±100 |
≤20 |
5000±10% |
15W |
||
|
Ultrasonic Welding Series / Emulsifying Series |
H3000W-15K |
14.9±0.1 |
≤20 |
13500±10% |
≥5000 |
3000W |
|
H2000W-20K |
19.9±0.1 |
≤20 |
10000±10% |
≥5000 |
2000W |
|
|
H800W-28K |
27.8±0.2 |
≤20 |
1600±10% |
≥5000 |
800W |
|
|
H500W-35K |
34.8±0.2 |
≤20 |
3000±10% |
≥5000 |
500W |
|
|
R80W-20K |
20±1 |
≤20 |
4200±10% |
≥5000 |
80W |
Product Applications
One of the most common applications of ultrasonic transducers in industry is cleaning and sterilizing. Ultrasonic transducers produce high-frequency waves that create tiny bubbles in a liquid solution. These bubbles are very effective in removing dirt and debris from surfaces, and they are also capable of killing bacteria and other harmful microorganisms. Ultrasonic transducers are widely used in the healthcare and food industries to sanitize and clean equipment and surfaces.
Another application of ultrasonic transducers in industry is sensing and imaging. Ultrasonic transducers can be used to detect changes in the thickness or density of materials, and they can also be used to generate images of objects that are hidden from view. For example, ultrasonic transducers are commonly used in the automotive industry to detect flaws in engine parts and other mechanical components.
Ultrasonic transducers are also used in the construction industry for non-destructive testing. They are used to test the strength and integrity of materials without causing any damage. Ultrasonic transducers can be used to detect cracks and other defects in concrete, steel, and other building materials.
In addition, ultrasonic transducers are commonly used in the manufacturing industry for quality control. They can be used to check the thickness of materials in the production process and to detect defects in finished products. Ultrasonic transducers are also used to test the integrity of welds and other joints in metal structures.
In conclusion, Industrial Ultrasonic transducers have a wide range of applications in various industries. They are versatile, efficient, and effective in many different tasks, from cleaning and sterilizing to imaging and monitoring. Ultrasonic transducers provide numerous benefits and are an essential part of modern industrial technology.
FAQ
Q: What is the maximum power of industrial ultrasonic transducer?
A: The maximum power of industrial ultrasonic transducers depends on various factors such as frequency, size, and application. However, generally speaking, industrial ultrasonic transducers can deliver high power output in the range of several kilowatts to even tens of kilowatts.
These powerful transducers are used in various industrial applications, such as welding, cutting, cleaning, and sonochemistry. They are highly efficient in converting electrical energy into mechanical vibrations, which can be used to perform precise and ultrafast operations.
Moreover, technological advancements have led to the development of more powerful and efficient ultrasonic transducers that can operate at higher frequencies and deliver even more energy. This has opened up new opportunities for industrial applications that require high power output and precise control.
Overall, the maximum power of industrial ultrasonic transducers is constantly evolving, and with new innovations, we can look forward to even more powerful and efficient transducers in the future.
Q: How many types of ultrasonic transducer ?
A: There are many different types of ultrasonic transducers that have been developed and utilized for a variety of applications. Some of these types include piezoelectric transducers, capacitive transducers, magnetostrictive transducers, and acoustic lenses.
Piezoelectric transducers are one of the most commonly used types of ultrasonic transducers. They work by converting electrical energy into mechanical vibrations through the use of piezoelectric materials, such as quartz or lead zirconate titanate (PZT).
Capacitive transducers function by measuring changes in capacitance as a result of an applied force or pressure. These types of transducers are commonly used in devices such as pressure sensors and accelerometers.
Magnetostrictive transducers use the magnetostrictive effect to generate ultrasonic waves. They are often used in non-destructive testing applications, as they are highly accurate and can penetrate deep into a material.
Acoustic lenses work by focusing ultrasound waves to a specific point. They are commonly used in medical imaging and industrial applications, such as cleaning and cutting.
Overall, the development of different types of ultrasonic transducers has greatly expanded the range of applications for ultrasonic technology, making it an increasingly important tool in many different fields.
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