Technical documentation on ultrasonic sound pressure measurement.

Technology for stirring, emulsifying, dispersing, and grinding at the nanoscale using techniques to control nonlinear phenomena of ultrasound.

The Ultrasonic System Research Institute has developed an effective stirring (emulsification, dispersion, grinding) technology utilizing "technology to control nonlinear phenomena of ultrasound (acoustic flow)." This technology controls ultrasound (cavitation, acoustic flow) by utilizing (evaluating) the ultrasonic propagation characteristics (analysis results) of indirect containers through surface inspection, ultrasonic tanks, and other items. Furthermore, it realizes effective ultrasonic (cavitation, acoustic flow) propagation states tailored to the structure, material, and acoustic properties of specific target objects, by controlling the oscillation of ultrasound in accordance with the interactions between glass containers, ultrasound, and target objects. In particular, the dynamic characteristics of harmonics through acoustic flow control enable responses at the nano level. It has been applied and developed from examples of dispersing metal powders to nanosize. November 2023: Developed ultrasonic oscillation control technology to control nonlinear phenomena. January 2024: Developed technology to measure, analyze, and evaluate the interactions of ultrasonic vibrations. February 2024: Developed surface treatment technology using megahertz ultrasound. April 2024: Developed optimization technology for resonance phenomena and nonlinear phenomena.

• Concrete admixture
• Non-destructive testing
• others

Ultrasonic control technology based on the classification of nonlinear phenomena in which ultrasonic vibrations propagate.

The Ultrasonic System Research Institute has developed a classification method for the phenomenon of ultrasonic vibration propagation by analyzing measurement data of ultrasonic propagation states using bispectral analysis. The method developed in this instance estimates the linear and nonlinear resonance effects based on the dynamic characteristics (changes in nonlinear phenomena) of the main frequencies (power spectrum) related to the ultrasonic propagation state. From previous data analysis, we have been able to classify effective utilization methods into the following four types: 1: Linear type 2: Nonlinear type 3: Mixed type 4: Variable type There are numerous successful cases of device development and control settings based on each of the above types. This technology will be offered as a consulting service. Ultrasonic propagation characteristics: 1) Detection of vibration modes (changes in autocorrelation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response) 4) Detection of interactions (analysis of power contribution rates) Note: The following tools will be used for analysis. Note: "R" is a free statistical processing language and environment.

• Other Software

Proposal for a cleaning method optimized with fine bubbles and megahertz ultrasonic waves.

The Ultrasonic System Research Institute conducts improvements to ultrasonic cleaning machines (consulting available) using original products: ultrasonic systems (sound pressure measurement analysis, oscillation control). For the current ultrasonic cleaning machines, we propose and implement improvement methods based on sound pressure measurement and analysis. Specifically, we will discuss the level of improvement through measurement and verification of ultrasonic cleaning machines using our original product: Ultrasonic Tester NA (recommended type), which allows for easy measurement and analysis of ultrasonic waves. Depending on the level of improvement, we will suggest the use of our original product: Ultrasonic Oscillation System (1 MHz, 20 MHz), which allows for easy control of ultrasonic oscillation. Based on the conditions of the water tank, cleaning solution, items to be cleaned, and cleaning level, we will propose a degassing fine bubble generation liquid circulation device. Ultrasonic propagation characteristics: 1) Detection of vibration modes (changes in self-correlation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response) 4) Detection of interactions (analysis of power contribution rates)

• Non-destructive testing
• Scientific Calculation and Simulation Software
• others

Optimization of Ultrasonic Propagation State Based on Acoustic Pressure Measurement Analysis - Optimal Control of Resonance Phenomena and Nonlinear Phenomena -

Methods to Improve the Current Ultrasonic Cleaning Machine (Development of Optimization Technology for Ultrasonic Tanks and Liquid Circulation) The Ultrasonic System Research Institute has developed technology to control the propagation state of ultrasonic waves by analyzing the effects of the structure, strength, and manufacturing conditions of the ultrasonic tank, as well as by setting the method of liquid circulation within the tank. This technology allows for the analysis and evaluation of the dynamic characteristics of complex ultrasonic vibrations in relation to various factors, enabling the setting of the circulation pump method to adjust the effects of cavitation and acceleration according to specific objectives. Note: The settings regarding the relationship between the tank, circulating liquid, and air are proprietary knowledge. This technology can also be applied to tanks that do not have an overflow structure. As a specific response, we can address the issues of ultrasonic attenuation caused by the current tank by adjusting the settings of the liquid circulation pump. In particular, for precise cleaning at the nano level, we propose additional measures for oscillation control using megahertz ultrasonic oscillation probes.

• pump
• Turbid water and muddy water treatment machines
• Water treatment technology and systems

Let's take this opportunity to learn ultrasonic cleaning, which enables the removal of complex shapes and fine dirt, from scratch!

The Ultrasonic System Research Institute will conduct an ultrasonic seminar as follows: While confirming actual cases through videos, let's deepen our understanding of the basics of ultrasonic cleaning and the cleaning (surface treatment) of new materials and new processing! Instructor: Kazuyuki Saiki Representative, Ultrasonic System Research Institute Mechanical Engineering, System Technology Date: [Month] [Day], 2024, 13:00 - 16:00 Target: Only one company Tuition Fee: 33,000 yen (including tax), which includes the cost of materials. Venue: Online course Online conditions and number of participants to be discussed separately. Regarding the content We will propose themes, cleaning levels, and technical content tailored to your needs.

• Other measuring instruments
• Scientific Calculation and Simulation Software
• others

A technology for stably utilizing fine bubbles with a spherical size of 20μm or less—nano-level cleaning method that controls ultrasonic acoustic flow.

The Ultrasonic System Research Institute has developed an ultrasonic cleaning machine utilizing fine bubbles, based on measurement, analysis, and evaluation techniques related to ultrasonic propagation phenomena, which can also be used for ultrasonic processing, stirring, and chemical reactions. Recommended System Overview 1: An ultrasonic transducer subjected to surface modification treatment using ultrasonic waves and fine bubbles. 2: An ultrasonic dedicated tank subjected to surface modification treatment using ultrasonic waves and fine bubbles. 3: A degassing and fine bubble (microbubble) generation liquid circulation system. 4: An optimization control system for ultrasonic waves and liquid circulation controlled by a control device. 5: An acoustic pressure management system using an ultrasonic tester. Note: The tank, transducer, and tools can be adjusted for acoustic characteristics through aging treatment. *Features This is an effective cleaning device using a dedicated ultrasonic tank. Due to the efficient use of ultrasonic waves, the strength and durability of a standard tank become insufficient. (The standard tank is modified for surface treatment using ultrasonic waves and fine bubbles.) Ultrasonic waves (cavitation and acoustic flow) are controlled according to the target and purpose of cleaning, stirring, and surface modification.

• pump
• Drainage and ventilation equipment
• Water Treatment

Development technology of original ultrasonic systems - consulting support based on the measurement and analysis of surface acoustic waves, optimizing know-how for low and high harmonics.

The Ultrasonic System Research Institute (located in Hachioji City, Tokyo) has developed a new ultrasonic nonlinear sweep oscillation control technology utilizing the nonlinear vibration phenomenon of surface acoustic waves. Regarding complex vibration states: 1) Linear phenomena and nonlinear phenomena 2) Interactions and the acoustic characteristics of various components 3) Sound, ultrasound, and surface acoustic waves 4) Low frequency and high frequency (harmonics and subharmonics) 5) Oscillation waveforms and output balance 6) Oscillation control and resonance phenomena ... Based on sound pressure measurement data, we optimize a new evaluation method for surface acoustic waves using a statistical mathematical model. Ultrasonic cleaning, processing, stirring, ... surface inspection, ... nanotechnology, ... applied research ... various responses are possible.

• Non-destructive testing
• Other measuring instruments
• others

Technology for evaluating the dynamic characteristics of original ultrasonic probes—self-correlation, bispectrum, impulse response characteristics, power contribution rate.

Technology for Evaluating the Dynamic Characteristics of Ultrasonic Probes We offer consulting services for this technology. If you are interested, please contact us via email. By utilizing the acoustic properties (surface elastic waves) of various materials (glass containers, etc.), we have confirmed the effects of ultrasonic stimulation on structures, machine tools, and various manufacturing lines, even in a 5000-liter water tank with ultrasonic output below 20W. This was developed as a method for controlling and applying nonlinear phenomena through an engineering (experimental and technical) perspective on elastic wave motion and an ultrasonic model from abstract algebra. The key point is the technology for utilizing surface elastic waves on ultrasonic element surfaces. By confirming the propagation characteristics of ultrasound based on the conditions of the target object (material, shape, structure, size, quantity, etc.), it is important to address it as an original nonlinear resonance phenomenon. Note 1: Propagation characteristics of ultrasound Propagation characteristics of ultrasonic probes: 1) Detection of vibration modes (changes in self-correlation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response characteristics) 4) Detection of interactions (analysis of power contribution rates)

• Vibration and Sound Level Meter
• Scientific Calculation and Simulation Software
• others

Nonlinear propagation control technology considering the interaction of ultrasound - Optimization technology for ultrasound -

The Ultrasonic System Research Institute has developed "nonlinear ultrasonic propagation control technology" that takes into account the acoustic characteristics of ultrasonic systems (measuring and analyzing ultrasonic interactions) through the manufacturing technology of sound pressure measurement analysis devices (ultrasonic testers) and megahertz ultrasonic oscillation control probes. With the technology developed this time, it has become possible to achieve dynamic control of ultrasound tailored to specific purposes, based on the measurement and analysis of various interactions involving the target objects, ultrasonic equipment, and tools, through "ultrasonic oscillation (oscillators, transducers, etc.)." Note: Autocorrelation, bispectrum, power contribution rate, impulse response. In particular, by detecting and confirming the interactions between ultrasound and target objects concerning harmonics, effective control for cleaning complex shapes and precision parts (liquid circulation, tools, methods of securing cleaning objects, etc.) becomes clear. Therefore, appropriate selection of ultrasonic frequencies and combinations of transducers with different ultrasonic frequencies can be determined based on the target objects. This is an effective ultrasonic utilization technology tailored to specific purposes for processing, cleaning, surface modification, and promoting chemical reactions.

• Other measuring instruments
• Scientific Calculation and Simulation Software
• others

We provide consulting services based on sound pressure measurement and analysis of ultrasonic equipment.

**Analysis and Evaluation of Ultrasonic Sound Pressure Data** 1) Regarding time series data, we will analyze and evaluate the statistical properties of the measurement data (stability and changes of ultrasonic waves) through feedback analysis using a multivariate autoregressive model. 2) The effects of the oscillation part due to ultrasonic oscillation will be analyzed and evaluated as response characteristics of the ultrasonic vibration phenomenon concerning the surface state of the target object through impulse response characteristics and autocorrelation analysis. 3) The interaction between the oscillation and the target object (cleaning items, cleaning solution, water tank, etc.) will be evaluated through the analysis of power contribution rates. 4) Concerning the use of ultrasound (cleaning, processing, stirring, etc.), we will analyze and evaluate the dynamic characteristics of ultrasound based on the nonlinear phenomena (results of bispectral analysis) of the target object (propagation of surface elastic waves) or the ultrasound propagating in the target liquid, which are the main factors of the ultrasonic effect. This analysis method is realized based on previous experience and achievements by adapting the dynamic characteristics of complex ultrasonic vibrations to the analysis methods of time series data. Note: The following tools will be used for the analysis. Note: OML Note: TIMSAC Note: "R," a free statistical processing language and environment.

• others

It is a technology that enables ultrasonic control tailored to specific purposes.

Ultrasonic System Technology 1: Development technology for dedicated water tanks 2: Improvement technology for ultrasonic transducers 3: Measurement technology for ultrasonic propagation conditions 4: Control technology for ultrasonic (acoustic flow) We provide system technology related to the above. This technology enables ultrasonic control tailored to specific purposes. * Know-how for improving ultrasonic transducers... * * Know-how for designing ultrasonic water tanks... * * Know-how for measuring ultrasonic propagation conditions... * * Know-how for controlling ultrasonic (acoustic flow)... * We offer the above. For more details, please contact the Ultrasonic System Research Institute via email.

• Non-destructive testing
• others

Application of megahertz ultrasonic oscillation control technology

The Ultrasonic System Research Institute has developed ultrasonic system technology that enables control of ultrasonic propagation states from 1 to 100 MHz by utilizing a megahertz ultrasonic oscillation control probe for ultrasonic equipment. This is a new application technology based on the measurement, analysis, evaluation, and techniques of ultrasonic propagation states, applicable to precision cleaning, processing, stirring, welding, plating, and more. By utilizing the acoustic properties (surface elastic waves) of various materials, ultrasonic stimulation of several tons of objects can be controlled with an ultrasonic output of less than 20W, even in a 1000-liter water tank. It was developed as an application method for nonlinear phenomena through an engineering (experimental and technical) perspective on elastic wave phenomena and an abstract algebraic ultrasonic model. The key point is the use of tools (elastic bodies: metal, glass, resin). By confirming the ultrasonic propagation characteristics depending on the conditions of the target object, it is important to address it as an original nonlinear resonance phenomenon (Note 1). Note 1: Original Nonlinear Resonance Phenomenon This occurs due to the generation of harmonics resulting from original oscillation control, which is realized at high amplitudes through resonance phenomena, leading to the resonance phenomenon of ultrasonic vibrations.

• Other analytical equipment
• Scientific Calculation and Simulation Software
• others

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We have introduced the commercial aroma diffuser "Majesta Fragrance" to a cabaret club in Tokyo. The selected scent is "Royale," which offers a sense of calm and elegance. It spreads naturally throughout the floor, creating a high-quality space that satisfies the five senses. Majesta Fragrance is available for a free trial installation exclusively in the Kanto area. If you are interested in enhancing your store's scent experience, please feel free to contact us.

We have released a catalog for a trial version of a conceptual skills course designed to efficiently develop logical thinking and problem-solving skills in a short period. The course is structured in three levels, from basic to practical and applied, supporting skill enhancement directly related to work through video viewing, exercises, and detailed feedback. There is also a free trial version available, lasting about 10 to 20 minutes, allowing you to easily check the course content and approach. It is ideal for promotion and advancement exam preparation, as well as for developing the next generation of leaders, with a proven track record in many companies. For detailed materials or to apply for the trial version, please use the link below. Feel free to take advantage of it!

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