Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
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16~30 item / All 58 items
We will utilize our long-standing accumulated know-how to conduct contract analysis tailored to our customers' needs.
Our experienced engineers will respond appropriately. - There is no manpower or time to carry out analysis tasks. - We want to introduce CAE into our operations, so we would like support including training. - We are struggling with technical challenges such as modeling and analysis methods. Please feel free to consult with us.
Press analysis that can be used with surprisingly simple operations, requiring no FEM knowledge. Reduces the need for trial runs with actual machines, lowering the time and cost for creating press molds.
【Easy Operation】 Preparation for executing analysis involves only the operation of setting up a blank and assembling the process. 【High-Speed Calculation】 The calculation speed is extremely fast due to unique methods in addition to general computational acceleration. 【From Rough to Detailed】 In shell element analysis, a rough understanding of phenomena occurring in the forming process is obtained. This is followed by solid element analysis, which accurately predicts the details of the molding process. 【Springback and Springforward】 Calculations are performed not only for springback due to forming but also for springback caused by trimming and cutting processes. Springforward calculations are also performed to determine mold shapes that take springback deformation into account. 【Trimming Optimization】 A function to properly adjust the material extraction of the blank. By inputting the initial shape of the blank and the target shape after forming, an appropriate blank shape is calculated. 【CAD Interface】 The mold shape required for forming utilizes CAD data. In addition to industry-standard formats like Para Solid and Step, it can also read Siemens NX and Dassault CatiaV5.
Top-class FEA solution for Windows environment
Femap is a highly regarded, CAD-independent, Windows-native pre/post-processor for advanced engineering finite element analysis (FEA).
Observation using optical microscopy and ultra-low acceleration FE-SEM! Detailed structural analysis and elemental analysis are possible.
By mechanically polishing commercially available rectangular Li-ion batteries and observing them with optical microscopy and ultra-low acceleration FE-SEM, detailed structural analysis and elemental analysis can be performed. The materials introduce the overall structure of the Li-ion battery and detailed structural observations of the Li-ion battery using SEM and ultra-low acceleration FE-SEM through photographs. [Analysis Overview] ■ Overall structure of the Li-ion battery and SEM observation ■ Detailed structural observation of the Li-ion battery using ultra-low acceleration FE-SEM *For more details, please refer to the PDF materials or feel free to contact us.
We will identify and observe the defective areas of power devices such as diodes, MOS-FETs, and IGBTs.
We perform optimal preprocessing for power devices such as diodes, MOS FETs, and IGBTs of all sizes and shapes, and identify and observe defective areas through backside IR-OBIRCH analysis and backside emission analysis. ■ Preprocessing for analysis - Backside polishing - We accommodate various sample forms. Si chip size: 200um to 15mm square ■ Defective area identification - Backside IR-OBIRCH analysis and backside emission analysis - IR-OBIRCH analysis: Supports up to 100mA/10V and 100uA/25V Emission analysis: Supports up to 2kV * We address a wide range of defect characteristics such as low-resistance shorts, micro leaks, and high voltage breakdown failures. ■ Pinpoint cross-sectional observation of leak areas - SEM/TEM - We select SEM or TEM observation based on the predicted defects and can conduct physical observation and elemental analysis of leak defect areas with precision.
By conducting fracture surface analysis using a microscope or FE-SEM, it is possible to estimate the fracture phenomenon!
Metal materials used as mechanical components can break depending on their usage and environment. By conducting fracture surface analysis using a microscope or FE-SEM (Field Emission Scanning Electron Microscope), it is possible to estimate the fracture phenomena. This document presents a case study of a fracture that occurred in a pinion shaft made of SNCM420 (nickel-chromium-molybdenum steel). [Contents] ■ Overview ■ Inspection Case ■ Evaluation *For more details, please refer to the PDF document or feel free to contact us.
TEM (Transmission Electron Microscope) meets a wide range of requirements for observing failure sites of electronic components, length measurements, elemental analysis, crystal structure analysis, and material evaluation.
TEM can perform not only high-magnification observation but also elemental analysis using EDS and EELS, as well as analysis of crystal structure, surface orientation, lattice constants, and more through electron diffraction.
Supports new registrations, updates, and deletions! With a simple UI design, anyone can easily use it.
"DataXfer" is a tool for linking Biostar2 with third-party systems. It allows for new registrations, changes, and deletions of data from a third-party database to Biostar2. By setting up automatic synchronization, users can experience Suprema's authentication without the need for registration work in Biostar2, thus reducing the workload for both users and installation contractors. 【Features】 ■ Synchronization Function (New Registration, Changes, Deletions) - By having a database, DataXfer can handle differences. - Therefore, it supports not only registration but also updates and deletions. ■ Schedule - In addition to manual execution of synchronization, it has a scheduling function, allowing it to always maintain a current state according to operational needs. *For more details, please refer to the PDF document or feel free to contact us.
We provide one-stop IT solutions for manufacturing.
We will comprehensively support your company's design, manufacturing, installation, operation, maintenance, and improvement through numerical analysis technologies such as structural analysis, fluid analysis, and heat transfer analysis that have supported the IHI Group's manufacturing.
Pre-processing of SiC devices → Identification of leakage points → Physical analysis/component analysis handled seamlessly!
Our company conducts "Backside Emission Analysis of SiC Devices." SiC is a power device with less energy loss compared to conventional Si semiconductors and is attracting attention. However, due to its different physical properties from Si semiconductors, new methods are required for failure analysis. In a case study of backside emission analysis of SiC MOSFETs, an overseas SiC MOSFET was subjected to ESD, creating a G-(D,S) leakage, and numerous emissions indicating the leakage points were detected through emission analysis. When the emission points were observed using TEM, destruction of the SiO2 film and damage to the SiC crystal were noted. *For more details, please refer to the PDF document or feel free to contact us.
It is possible to carry out multi-phase reactions with various residence times.
Unlocking the Power of Flow Chemistry Asynt's fReactor allows for multi-phase reactions to be conducted at various residence times. With a total capacity of just 10ml, it is ideal for experimental evaluation in flow chemistry. Additionally, the fReactor is flexible and very user-friendly. Five modules that form separate reaction zones provide a good residence time distribution. These five modules are placed on a metal base plate over a standard laboratory hot stirrer. By mixing each zone, this container offers great flexibility in residence time for both single-phase and multi-phase reactions. Multiple ports enable flexibility in reactions, sampling, or integration of sensors within the reactor. *For more details, please feel free to contact us.
Perform sequencing using the cancer panel! Analysis possible from diverse DNA samples.
We would like to introduce our "Cancer Panel Sequence Analysis." Using the cancer panel, we can perform high-depth sequencing of all exons, including tumor suppressor genes and hotspot mutations. Analysis is possible from a variety of samples, including Formalin-Fixed Paraffin-Embedded (FFPE) DNA. Please feel free to contact us when you need our services. 【Platform】 ■ HiSeq / MiSeq system ■ Ion Torrent / Proton *For more details, please refer to the related links or feel free to contact us.
The EMS rheometer "Reobox," which uses the remote electromagnetic drive method (EMS method), is a system that allows for viscous analysis in small quantities and in a sealed environment.
The Reobox Plus enables sealed measurements that are difficult with other viscometers and rheometers by remotely controlling and detecting the measurement probe using the patented technology "EMS (Electromagnetic Remote Rotational Drive) Method." 【Equipment and Remote, Independent, Non-contact, Small Volume】 - Measurement is possible simply by placing the measurement cell on the device. - No need for equipment cleaning after each measurement. - Disposable measurement cells can handle biohazards such as blood and plasma. - Sealed measurement containers can accommodate volatile and odorous samples. - Approximately 0.5mL or less. 【Various Measurement Probes Can Be Selected According to Applications】 - For ultra-low viscosity range (0.5~100mPa·s) - For low viscosity range (10~100mPa·s) - For medium to high viscosity range (100~25,000mPa·s / 1,000~1,000,000mPa·s) 【Compact Design and High Expandability】 - The measurement unit is in the world's smallest size class at 10x10x10cm. - The measurement unit and control unit can be separated by up to 2 meters (for installation within a draft chamber). - Capable of viscosity measurements in high-temperature and high-pressure environments (such as supercritical fluid viscosity measurements). - Also suitable for inline measurements (such as measuring the time-dependent changes in viscosity of inks and culture media).
![[Case Study] Rotor Dynamics Stability Analysis <Behavior of the Dewatering Tank>](https://image.mono.ipros.com/public/product/image/f64/221079031/IPROS_15760246514119438000.jpg?w=280&h=280)
Rotor dynamics using Simcenter Nastran!!!
◆◆Publication Content◆◆ ○ Stability analysis of the spin basket using rotor dynamics (Simcenter Nastran) ○ Keywords: Rotor dynamics, spin basket, washing machine, vibration, dangerous speed ○ Case Summary When spinning in a washing machine, the spin basket experiences intense vibration before stabilizing its rotation. This occurs as it passes through a dangerous speed, which is an essential factor for considerations such as noise reduction. In this analysis example, the spin basket was modeled, and the motion from a stationary state to a steady rotational state (5 revolutions per second) was calculated over time. ● For other features and details, please download the catalog.
