List of Analysis and prediction system products
- classification:Analysis and prediction system
181~225 item / All 1388 items
You can install scaffolding on the float! Enjoy the water space freely! Information on floating dock rentals.
- Bridge Materials
Just by "applying" it to metals, glass, concrete, etc., you can achieve high durability waterproofing and repairs! It can be painted over.
- Waterproof tape, adhesive, drain, protective panel
- Development of manufacturing technology for ultrasonic probes that can control ultrasonic propagation conditions above 900 MHz -
- Analysis and prediction system
- others
- Vibration and Sound Level Meter
Nonlinear Oscillation Control Technology for Ultrasonic Probes Based on Sound Pressure Measurement Analysis - Optimization Techniques for Resonance Phenomena and Nonlinear Phenomena -
The Ultrasonic System Research Institute has developed a technology to control nonlinear ultrasonic phenomena by optimizing various interactions through the oscillation control of two types of ultrasonic probes from two oscillation channels of a function generator. Note: Nonlinear (resonance) phenomenon The resonance phenomenon that occurs due to the generation of harmonics resulting from original oscillation control, leading to high amplitude ultrasonic vibrations. By optimizing the ultrasonic propagation characteristics of various materials according to their intended purpose, efficient ultrasonic oscillation control becomes possible. Through the measurement and analysis of sound pressure data from ultrasonic testers, this system technology allows for the control of dynamic changes in surface elastic waves according to their intended use. Ultrasonic Probe: Outline Specifications Measurement Range: 0.01 Hz to 200 MHz Oscillation Range: 0.5 kHz to 25 MHz Propagation Range: 1 kHz to over 900 MHz (confirmed by sound pressure data analysis) Materials: Stainless steel, LCP resin, silicon, Teflon, glass, etc. Oscillation Equipment: Example - Function generator
Development technology for ultrasonic probes and ultrasonic oscillation control systems - Aging treatment of piezoelectric elements.
- Scientific Calculation and Simulation Software
- Analysis and prediction system
- others
Development of ultrasonic sound pressure data analysis and evaluation technology considering interaction and response characteristics.
We are evaluating the characteristics of ultrasonic equipment according to the purpose of use. <<Analysis and Evaluation of Ultrasonic Sound Pressure Data>> 1) Regarding time series data, we analyze and evaluate the statistical properties of the measurement data (stability and changes of ultrasound) through feedback analysis using a multivariate autoregressive model. 2) The effects of the oscillation part due to ultrasonic oscillation are analyzed and evaluated in relation to the surface condition of the target object through impulse response characteristics and autocorrelation analysis as response characteristics of the ultrasonic vibration phenomenon. 3) We evaluate the interaction between the oscillation and the target object (cleaning items, cleaning solutions, water tanks, etc.) through the analysis of power contribution rates. 4) Regarding the use of ultrasound (cleaning, processing, stirring, etc.), we 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 past experiences and achievements by adapting the dynamic characteristics of complex ultrasonic vibrations to the analysis methods of time series data using ultrasonic measurement data.
An ultrasonic system that easily controls the oscillation of megahertz ultrasound—applying technology to evaluate the propagation characteristics of ultrasonic probes.
- Analysis and prediction system
- Other measuring instruments
- others
Original Ultrasonic Probe ver2 - Application of Surface Residual Stress Relaxation and Uniformity Treatment Technology through Nonlinear Oscillation Control of Ultrasound -
The Ultrasonic System Research Institute has developed a new "Ultrasonic <Oscillation/Control> System" utilizing the "oscillation/control" technology of its original product: ultrasonic probes, for applications such as component inspection, precision cleaning, nano-dispersion, and chemical reaction experiments. This is an application technology using original ultrasonic probes tailored to specific purposes. By measuring, analyzing, and evaluating ultrasonic sound pressure data, this system enables effective oscillation and control of ultrasonic waves. In particular, by combining multiple oscillation and control methods, it can control ultrasonic stimulation for high sound pressure levels and high frequencies due to nonlinear phenomena. It proposes new utilization methods of ultrasonic vibrations for inspecting the connection state and surface of components, as well as for precision cleaning and surface treatment of very small parts. The ultrasonic probes are "custom-made" based on the confirmed usage purposes. Ultrasonic Probe: Overview Specifications - Measurement Range: 0.01 Hz to 200 MHz - Oscillation Range: 1.0 kHz to 25 MHz - Propagation Range: 0.5 kHz to over 900 MHz (analysis confirmation of sound pressure data)
--- Ultrasonic System (Sound Pressure Measurement Analysis, Oscillation Control) ---
- Scientific Calculation and Simulation Software
- Analysis and prediction system
- others
- Optimization Technology for Cavitation and Acoustic Flow -
The Ultrasonic System Research Institute has developed a technology to utilize (control) "nonlinear phenomena related to the generation of harmonics in ultrasound" by analyzing ultrasonic sound pressure measurement data (bispectral analysis, etc.) according to specific purposes. With this technology, when using multiple ultrasonic transducers of different frequencies, it becomes possible to set (manage) the propagation state of ultrasound influenced by harmonics. Therefore, it enables the realization of appropriate or effective combinations of frequencies. This is very effective as it allows for the detection and confirmation of effective propagation states for cleaning, surface modification, and the promotion of chemical reactions. Furthermore, by combining the control of standing waves with liquid circulation control, dynamic control becomes possible to change the effects of cavitation and acceleration (acoustic flow) according to the intended purpose. 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 characteristics) 4) Detection of interactions (analysis of power contribution rates)
Dynamic control of ultrasound to achieve stress relaxation on metal surfaces.
- Vibration and Sound Level Meter
- Non-destructive testing
- Analysis and prediction system
On the main factors (interactions) of ultrasonic utilization.
The Ultrasonic System Research Institute has confirmed that the main factor in the utilization of ultrasound is interaction, based on its achievements and experience in sound pressure measurement analysis related to ultrasonic cleaning and stirring, as well as the development and manufacturing of ultrasonic oscillation control probes tailored to specific purposes in ultrasonic processing and surface treatment. Until now, it was believed that nonlinear phenomena were the main cause; however, due to the nonlinear phenomena of ultrasound, the propagation characteristics of the target objects—such as structure, material, surface condition, and propagation path—dynamically change, making it often difficult to evaluate simply. Therefore, upon examining the causes of this dynamic change, it was confirmed that the factors of dynamic change are the interaction between the propagating ultrasound and the target object. As the cleaning and processing levels reach the nanoscale and above, the generation of harmonics due to nonlinear phenomena also increases from several megahertz to several hundred megahertz. However, the above conditions are very unstable and difficult to reproduce. As a countermeasure, by implementing oscillation control that considers the interactions related to ultrasonic propagation, dynamic ultrasonic control (changes in sound pressure level and propagation frequency range) tailored to the intended use has been realized.
Development technology for dynamic control systems using ultrasound.
- Water Treatment
- Analysis and prediction system
- others
Control technology for chemical reactions through the control of nonlinear phenomena in ultrasound — Optimization technology for cavitation and acoustic flow —
The Ultrasonic System Research Institute has developed a technology to utilize (control) "nonlinear phenomena related to the generation of harmonics in ultrasound" by analyzing ultrasonic sound pressure measurement data (bispectral analysis, etc.) according to specific objectives. With this technology, when using multiple ultrasonic transducers with different frequencies, it becomes possible to set (manage) the propagation state of ultrasound influenced by harmonics. Therefore, it is possible to achieve appropriate or effective combinations of frequencies. This is very effective as it allows for the detection and confirmation of effective propagation states for cleaning, surface modification, and the promotion of chemical reactions. Furthermore, by combining the control of standing waves with the control of liquid circulation, dynamic control becomes possible to change the effects of cavitation and acceleration (acoustic flow) according to specific objectives. Through original measurement and analysis technology for ultrasonic propagation states, we have confirmed numerous effective cases related to the surface conditions of various components, including cleaning, stirring, surface modification, and chemical reactions.
Combination technology of function generator and ultrasonic probe
- Other measuring instruments
- Analysis and prediction system
- others
A new surface inspection technology using megahertz ultrasonic oscillation—ultrasonic probes utilizing components with iron plating on polyimide film.
The Ultrasonic System Research Institute has developed a new component inspection technology using megahertz ultrasonic oscillation based on its track record of analyzing ultrasonic data propagating on the surface of objects. This method applies the measurement and analysis technology of "sound pressure and vibration" through the control of original ultrasonic probe oscillation. We provide consulting and explanations of ultrasonic evaluation technology through the development of ultrasonic probes tailored to the purpose (vibration modes propagating on the surface of objects). This is an application of new ultrasonic oscillation control technology. By utilizing nonlinear phenomena related to megahertz ultrasonic propagation states that match the acoustic characteristics of the target object, it is possible to detect new features regarding the surface condition of the object. In particular, this fundamental technology serves as a new evaluation parameter for ultrasonic vibrations, utilized in surface inspection of substrate components and pre-evaluation of precision cleaning parts, leveraging the response characteristics derived from combinations of oscillation and reception. By measuring, analyzing, and evaluating the dynamic characteristics of ultrasonic waves related to the propagation phenomena of surface elastic waves, we have enabled effective use tailored to the purpose (evaluation) through the construction and modification of logical models.
Development of an ultrasonic probe utilizing the acoustic properties of Teflon rods (with iron cores).
- pump
- Analysis and prediction system
- others
Developed optimization and evaluation technology related to water tanks, ultrasound, and liquid circulation.
The Ultrasonic System Research Institute has developed a technology to optimize ultrasonic propagation systems that can control resonance and nonlinear phenomena based on various analysis results of ultrasonic propagation states using an original ultrasonic system (sound pressure measurement analysis and oscillation control). Furthermore, we have advanced the above technology and developed optimization and evaluation techniques related to water tanks, ultrasonic waves, and liquid circulation. Compared to previous control technologies, this technology utilizes new measurement and evaluation parameters (note) concerning the entire propagation path of ultrasonic vibrations, including various propagation tools, to achieve a dynamic propagation state of ultrasonic waves tailored to specific applications (cleaning, stirring, processing, etc.). This is a method and technology that can be applied immediately, and we offer it as a consulting service (with increasing achievements in ultrasonic processing, precision cleaning at the nano level, stirring, etc.). Note: Parameters include: Power spectrum, autocorrelation, bispectrum, power contribution ratio, impulse response characteristics, and others. Ultrasonic propagation characteristics: 1) Detection of vibration modes 2) Detection of nonlinear phenomena 3) Detection of response characteristics 4) Detection of interactions
It is a completely non-contact magnetic linear encoder that is resistant to dirt and difficult to malfunction.
- Analysis and prediction system
Quantifying battery outgassing in real time! Easily adaptable to new application fields.
- Analysis and prediction system
[JASIS2021 Exhibition] LUMOS II - Approaching the diffraction limit of light! High spatial resolution ATR mapping measurement
- Analysis and prediction system
Providing a new analysis method based on high-speed imaging and machine learning!
- Analysis and prediction system
Dual-use specifications! It can be directly connected to the MPA II equipped with a liquid transmission sample chamber!
- Analysis and prediction system
The best tool for life sciences and medicine, especially for tissue analysis.
- Analysis and prediction system
Analysis items such as moisture, protein, ash, and gluten content can be measured in just a few seconds!
- Analysis and prediction system
One packaging for ion chromatography functions! An analyzer that allows anyone to easily measure sugars.
- Measurement and Analysis Equipment
- Analysis and prediction system
- Other analytical equipment
Introducing the torque sensor. It is a rotary torque sensor. It is an amplifier-integrated torque sensor. The output is ±5V.
- Analysis and prediction system
Utilizing the know-how cultivated in the automotive industry, we provide highly reliable data. We contribute to reducing operational burdens through consistent support.
- Analysis and prediction system
Technology for controlling nonlinear phenomena of ultrasound.
- Scientific Calculation and Simulation Software
- Analysis and prediction system
- others
Development of optimization and evaluation technology related to water tanks, ultrasonic waves, and liquid circulation - Optimization technology for resonance phenomena and nonlinear phenomena.
The Ultrasonic System Research Institute has developed a technology to optimize ultrasonic propagation systems that can control resonance phenomena and nonlinear phenomena based on various analysis results of ultrasonic propagation states using an original ultrasonic system (sound pressure measurement analysis and oscillation control). Furthermore, we have advanced the above technology and developed optimization and evaluation techniques related to water tanks, ultrasonic waves, and liquid circulation. In contrast to previous control technologies, this technology utilizes new measurement and evaluation parameters (note) concerning the entire propagation path of ultrasonic vibrations, including various propagation tools, to achieve dynamic ultrasonic propagation states tailored to the purposes of ultrasonic applications (cleaning, stirring, processing, etc.). This is a method and technology that can be applied immediately, and we offer it as consulting services (with increasing achievements in ultrasonic processing, precision cleaning at the nano level, stirring, etc.). Note: The original technology product (ultrasonic sound pressure measurement analysis system) measures, analyzes, and evaluates dynamic changes in the propagation state of water tanks, transducers, target objects, and tools, among others. (Parameters: power spectrum, autocorrelation, response characteristics, etc.)
Drone operation and inspection services available! Free demo flights available! Industrial plants / solar panels / buildings / public infrastructure / bridges / dams / wind power generation.
- Analysis and prediction system
Drone operation and inspection services available! Free demo flight available! Ceiling cranes/tanks/chimneys (inside and outside)/underground passages/furnaces/inside pipes/attics/factories.
- Analysis and prediction system
Ultrasonic equipment diagnostic device 'ULTRAPROBE15000' that handles bearing diagnosis, leak testing, discharge testing, and valve/steam trap inspection all in one unit.
- Analysis and prediction system
[Registration Closed] 2/25 Domestic First Release [Web Seminar] Introduction of the New Automatic Greasing System "OnTrak SmartLube"
This is an announcement for the 5th online seminar. In previous seminars, we introduced applications such as leak testing and bearing diagnostics as ways to utilize ultrasonic technology for maintenance. This time, we will introduce a new product. It is designed for bearing diagnostics and combines an always-on monitoring system compatible with IoT and an automatic lubrication device. Using ultrasonic technology, it is a new type of automatic lubrication system that supplies only the necessary amount of lubricant when the bearing requires it. I believe that lubrication with grease is often performed on a time-based schedule. But is it really okay to use the same cycle every time? The timing and amount of lubrication should vary depending on the operating conditions and environment of the equipment. The product we are introducing this time is an item that can transition lubrication from "time-based" to "condition-based." If you are interested, please be sure to watch. Date and Time: February 25, 2021 (Thursday) from 1:30 PM to 2:15 PM Please proceed to the following URL to register. https://zoom.us/webinar/register/WN_G9crqno2Q8OQzQF-nmg85w
We will implement the optimal lubrication program. Please check the changes in sound and values while filling the grease.
- Analysis and prediction system
Ultra-lightweight and palm-sized simple ultrasonic diagnostic tool. The perfect device for patrol.
- Analysis and prediction system
[Reception Closed] Achieving energy savings and cost reduction using ultrasonic technology. Free entry and exit.
Thank you for your continued support. This is the Equipment Maintenance Group of Tohoku Enterprise Co., Ltd. Last time, we discussed "How to Utilize Ultrasonic Technology for Equipment Maintenance," providing an overview of general maintenance using ultrasonic technology. This time, we will introduce the theme of "Energy Saving and Cost Reduction." Currently, countries are working towards reducing greenhouse gas emissions, which has become a significant challenge for companies as well. Additionally, cost reduction is a common issue that all companies struggle with. In this presentation, we will focus on leak inspection and steam trap inspection, which are some of the applications that can be implemented using ultrasonic equipment diagnostic devices. Significant losses due to unnecessary waste in factories occur daily in ways that are not visible, but did you know that these losses can be avoided with ultrasound? By conducting leak inspections with ultrasonic diagnostic devices, you can see how much energy and costs are being wasted. We will also introduce a simple method for diagnosing steam traps, which are often not maintained regularly. If you are interested, please join us.
Sensors installed in hard-to-reach measurement locations (narrow spaces or hazardous areas).
- Analysis and prediction system
Ultrasonic equipment diagnostic device that records measurement results, allowing for verification and analysis in the office.
- Analysis and prediction system
[Reception Closed] Achieving energy savings and cost reduction using ultrasonic technology. Free entry and exit.
Thank you for your continued support. This is the Equipment Maintenance Group of Tohoku Enterprise Co., Ltd. Last time, we discussed "How to Utilize Ultrasonic Technology for Equipment Maintenance," providing an overview of general maintenance using ultrasonic technology. This time, we will introduce the theme of "Energy Saving and Cost Reduction." Currently, countries are working towards reducing greenhouse gas emissions, which has become a significant challenge for companies as well. Additionally, cost reduction is a common issue that all companies struggle with. In this presentation, we will focus on leak inspection and steam trap inspection, which are some of the applications that can be implemented using ultrasonic equipment diagnostic devices. Significant losses due to unnecessary waste in factories occur daily in ways that are not visible, but did you know that these losses can be avoided with ultrasound? By conducting leak inspections with ultrasonic diagnostic devices, you can see how much energy and costs are being wasted. We will also introduce a simple method for diagnosing steam traps, which are often not maintained regularly. If you are interested, please join us.
The digital ultrasonic equipment diagnostic device 'ULTRA PROBE 9000' is capable of compactly handling leak, bearing, discharge, and valve inspections.
- Analysis and prediction system
[Reception Closed] Achieving energy savings and cost reduction using ultrasonic technology. Free entry and exit.
Thank you for your continued support. This is the Equipment Maintenance Group of Tohoku Enterprise Co., Ltd. Last time, we discussed "How to Utilize Ultrasonic Technology for Equipment Maintenance," providing an overview of general maintenance using ultrasonic technology. This time, we will introduce the theme of "Energy Saving and Cost Reduction." Currently, countries are working towards reducing greenhouse gas emissions, which has become a significant challenge for companies as well. Additionally, cost reduction is a common issue that all companies struggle with. In this presentation, we will focus on leak inspection and steam trap inspection, which are some of the applications that can be implemented using ultrasonic equipment diagnostic devices. Significant losses due to unnecessary waste in factories occur daily in ways that are not visible, but did you know that these losses can be avoided with ultrasound? By conducting leak inspections with ultrasonic diagnostic devices, you can see how much energy and costs are being wasted. We will also introduce a simple method for diagnosing steam traps, which are often not maintained regularly. If you are interested, please join us.
Applicable for high-purity monitoring on liquid and gas transfer lines and gas sampling for environmental assessment.
- Analysis and prediction system
Applicable for high-purity monitoring on liquid and gas transfer lines and gas sampling for environmental assessment.
- Analysis and prediction system
ICP luminescence analysis enables qualitative and quantitative analysis of approximately 70 elements, primarily metal elements!
- Analysis and prediction system
Composition analysis of LIB cathode material active substances by ICP luminescence analysis.
This presentation introduces the composition analysis of cathode active materials using ICP emission analysis. The cathode material of lithium-ion batteries (LIB) is one of the important components that influence the battery's voltage and energy density, and the composition of the cathode material significantly affects the battery's performance. ICP emission analysis allows for qualitative and quantitative analysis of approximately 70 elements, primarily metal elements. It can be applied not only to the composition analysis of LIB cathode materials but also to the qualitative and quantitative analysis of additives and impurities contained in samples, as well as the quantitative analysis of substances regulated by the RoHS directive, among various other analyses.
By operating the vibro hammer with hydraulic power, work efficiency and safety are improved!
- Other measuring instruments
- Analysis and prediction system
PFA bottles that achieve cleanliness and sealing properties to meet the strict requirements for ultra-high purity acid storage.
- Analysis and prediction system
Reduced procurement costs for high-purity acids by distilling 1 ppb grade acids for trace metal analysis using ICP-MS to 10 ppt grade.
- Analysis and prediction system
Heating on a hot plate with extremely low leaching of trace elements is possible.
- Analysis and prediction system