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Last Updated: Aggregation Period:Jan 21, 2026~Feb 17, 2026
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soft Product List

361~390 item / All 427 items

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Optimization of Container Ship Shape

Optimization of Container Ship Shape

Partial parametric modeling adopted! Deformation of the hull shape is defined.

One of the representative companies in China's shipping industry, MARIC (Marine Design & Research Institute of China), first utilized CAESES for a project focused on the optimization of hull shapes for container ships. In their research, MARIC engineers selected a baseline with excellent performance and attempted to reduce hull resistance at speeds of 18 knots and 27 knots. The constraints here were the length between perpendiculars, width, and draft, which were fixed values, while the variation in displacement was limited to ±0.5%. *For more detailed information, please refer to the related links. You can download the PDF for more details or feel free to contact us.*

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  • Other analyses
  • soft

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Parametric modeling of turbine blade cooling structures

Parametric modeling of turbine blade cooling structures

Introduction to CAESES parametric modeling of blades with cooling structures for optimization!

In gas turbines and steam turbines, the design and optimization of blade cooling structures is a very important issue for designers. The first stage of the turbine can achieve high thermal efficiency as it withstands high temperatures, which opens up infinite possibilities for structural design and fine-tuning to prevent turbine damage under high temperatures and high centrifugal forces. One efficient method to solve this design problem is shape optimization, which involves automatically varying the design parameters of the cooling structure. *For more detailed information, please refer to the related link. For further details, you can download the PDF or feel free to contact us.*

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  • Structural Analysis
  • Turbine
  • soft

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A New Approach to the Design of sCO2 Axial Flow Turbines

A New Approach to the Design of sCO2 Axial Flow Turbines

Introducing a design case of a supercritical carbon dioxide axial flow turbine for waste heat recovery (WHR) in a 10MW class power plant!

In conventional thermal and nuclear power plants, steam and combustion gases are used as working fluids to drive turbines and generate electricity. In this case, we will introduce a design method for axial flow turbines using supercritical carbon dioxide (sCO2) as the working fluid, which reaches a supercritical state under relatively mild conditions using CAESES. The supercritical state exhibits properties that are intermediate between gas and liquid, and due to its high density and heat capacity, it has the potential to improve cycle efficiency compared to using gases below the critical point. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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  • Turbine
  • soft

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ZyliQ

ZyliQ

We will automate the creation of the Clinical Study Report (CSR).

Our company acts as the sales agent for the US-based company Symbiance's application software ZYLiQ in Japan, providing presentations, order taking, delivery, implementation support, and user support services in Japanese. We can also issue various documents such as invoices and delivery notes in the format specified by our customers.

  • Document and Data Management
  • soft

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PTC Creo ジェネレーティブ・デザイン・ソリューション

PTC Creo ジェネレーティブ・デザイン・ソリューション

AIベースの最適化エンジンによる高精度・高速な形状生成を実現。設計リードタイムの短縮に貢献

『PTC Creo Generative Designソリューション』は、AIベースの最適化エンジンにより、 高精度かつ高速に最適化された形状を生成できる設計支援ソリューションです。 トポロジー最適化(GTO)と数値最適化(BMX)を組み合わせることで、 設計者の意図を保ちながら、軽量化・高剛性化・設計品質向上が図れます。 3DCAD「Creo」環境に統合された直感的な操作性と即時再計算機能により、 生成された結果をそのままCADモデルに変換できるなど、高い実用性も特長です。 【特長】 ■AIベースの最適化エンジンによる高精度かつ高速な形状生成 ■設計意図を反映した最適設計が可能。設計リードタイムの短縮にも貢献 ■CADモデルへの変換が容易でそのまま設計に活用可能 ■質量約23%削減、材料使用量約10~15%削減に貢献したユーザー事例あり ★2025年11月27日にオンライン(事前登録制)にて、  Webセミナー「リアルDX改革者が語る4つの重大要素とは?」を開催します。  参加をご希望の方は、下記リンク先よりお申込みください。

  • 3D CAD
  • soft

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[Presentation of Materials] SOLIDWORKS Automation & Efficiency Tools

[Presentation of Materials] SOLIDWORKS Automation & Efficiency Tools

For those struggling with SolidWorks analysis software [3D CAD]

♦Achieved the highest level of Platinum certification logo for SOLIDWORKS product support (as of March 1, 2023) ♦Two Elite AEs We continue to grow as a flexible one-stop engineering team that can quickly respond to customer needs. ♦Do you have any of the following concerns? - Purchased SOLIDWORKS products but unable to receive adequate support, using them only in limited ways. - Tried to implement it, but it does not fit the workflow of the company. - Continually spending time and effort without seeing any results. ●SOLIDWORKS Utility Pack Products 1) Drawing Printing 2) Bulk Input of User Defined Properties 3) File Name Changes 4) Delete All Properties by Specified Folder 5) Part Count 6) Move Command *For more details, please refer to the PDF document or feel free to contact us.

  • 3D CAD
  • soft

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Optimization of the performance of the AIPOD battery pack water cooling plate.

Optimization of the performance of the AIPOD battery pack water cooling plate.

Under the restriction of a pressure loss dp of less than 25 kPa for the water-cooled plate, the temperature difference across the section is reduced by 13.403%!

Using the general-purpose optimization software AIPOD, we will optimize the performance of the water cooling plate for battery packs used in new energy vehicles. Under unsteady low-temperature heating conditions and steady flow resistance conditions, when the minimum temperature of the cross-section rises by 5°C, the temperature difference in the Z-direction of the battery cell's 1/2 cross-section decreases, but the pressure loss in the flow path must be less than 25 kPa. The water cooling plate model used here is created with the parametric modeling software CAESES, and only the flow path area inside the water cooling plate will be the target for optimization, while other components and conditions will remain unchanged. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.

  • Other analysis software
  • soft

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Design and Optimization of VOITH Linear Jet

Design and Optimization of VOITH Linear Jet

Maintains high efficiency across the entire speed range of the vessel. Reduces cavitation, noise, and vibration.

The VOITH company's linear jet design, which is a challenging ship system characterized by complex shape features, combinations of multiple parts, and large-scale CFD calculation models, provides high customer satisfaction products by establishing and operating a fully automated design system using CAESES. The VOITH Linear Jet (VLJ) combines the simplicity of a propeller with the high-speed performance of a water jet. One of the most important challenges in the design of this product is to delay the occurrence of cavitation while maintaining high efficiency over a wide operating range. *For more detailed information, please refer to the related links. For more details, you can download the PDF or feel free to contact us.*

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  • Software (middle, driver, security, etc.)
  • Other analyses
  • soft

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[Free Event] CFD Solution Seminar 2022

[Free Event] CFD Solution Seminar 2022

In addition to introducing the CFD integrated environment Fidelity and high-precision solvers, we will present our product range and solutions related to various fields.

We will hold an online event, "CFD Solution Seminar 2022," over two days on November 16 and 17, 2022. In this seminar, we will introduce our new CFD integrated environment, Fidelity, and present our product lineup and solutions related to various fields. We will showcase numerous ways to utilize Cadence software, incorporating our latest hot topics such as the analysis of liquid hydrogen, aerodynamic optimization of drones, Joule heating analysis of electronic devices, and digital twin creation for data centers. We encourage you to participate. 【Seminar Overview】 ■ Date and Time: November 16 (Wednesday) 14:00-16:05 November 17 (Thursday) 14:00-15:40 ■ Organized by: Cadence Design Systems, Inc. ■ Cost: Free ■ Venue: Online (Zoom Webinar) ■ How to Participate ・Those who register will receive Zoom access information by 17:00 the day before each event. ■ Registration Deadline: November 15 (Tuesday) 16:00 *For more details, please refer to the PDF document or feel free to contact us.

  • Technical Seminar
  • soft

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Parametric model of end wall contouring

Parametric model of end wall contouring

We will also introduce modeling approaches, the construction of more complex models, and application examples!

In the end wall section of power generation devices that convert the kinetic energy of fluids, such as turbines and compressors, into rotational motion, a secondary flow known as "cross flow" occurs due to the interaction between adjacent blades. To improve the performance of the device, it is crucial to reduce this cross flow and the resulting flow losses. The end wall contouring introduced here is a shape profile that adds irregularities to the end wall to suppress losses caused by cross flow, and it is modeled parametrically using CAESES. With the addition of these shape features and modeling techniques, it has become possible to modify the hub shape, thereby minimizing undesirable secondary flow losses. *For more detailed information, you can view the related links. For further details, please download the PDF or feel free to contact us.*

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  • Structural Analysis
  • soft

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Tire tread pattern optimization

Tire tread pattern optimization

A system for automatic optimization has been built using CAESES and commercial CFD analysis tools, resulting in significant improvements to the tire tread pattern!

The development of advanced automotive systems such as electric vehicles, autonomous driving systems, and safety enhancement systems will significantly increase the number of electronic devices added to the vehicle body, including sensors, radars, and cameras. It is crucial for these devices to function reliably while minimizing exposure to water to prevent damage and corrosion. One effective approach to achieve this is to reduce water splashes on the vehicle's body and underbody. This case study introduces simulation-driven optimization to investigate the impact of tire tread patterns on water splashes. *For more detailed information, please refer to the related links. You can download the PDF for more details or feel free to contact us.*

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  • Other analysis software
  • soft

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Acquisition of design parameters for geometry based on neural networks.

Acquisition of design parameters for geometry based on neural networks.

A method devised to understand design parameters from geometry for ship shape optimization!

In parametric modeling using CAESES, shape control is performed using the created model and the functions that serve as design parameters. However, there may be situations where the values of the design parameters are unknown, and there may be cases where one wishes to obtain design parameters from an already created model. The case introduced here is part of a project undertaken by a graduate student at Hamburg University of Technology. The method devised to determine design parameters from geometry for ship shape optimization is expected to be applicable in many other applications as well. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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  • Other analyses
  • soft

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DIRECT! EXTREME

DIRECT! EXTREME

Ideal for transferring large data such as CAD data (design drawings) and point cloud data. It can also be used for communication with overseas bases and business partners.

By using the ultra-high-speed, large-capacity data transfer cloud service "DIRECT! EXTREME," you can significantly reduce the effort and time required for file transfers. ● Since it is a cloud plan, it is suitable for projects and short-term use. ● It is optimal for data transmission and reception with overseas bases and business partners, unaffected by transfer speed delays due to distance. <Three Key Points> 1. Speed Thanks to a proprietary UDP protocol (*) and on-the-fly functionality, reliable ultra-high-speed data transfer is possible (when using the client software Virtual Director X). Two transfer modes are available: high-speed mode and normal mode. (*) The proprietary UDP communication protocol is a patented technology of TBS Television, Inc. 2. Large Capacity Data transfer of up to 2TB per file is possible. Sending data by folder is also available (when using the client software Virtual Director X). 3. Security It supports the acquisition of all action log histories, a checksum function to ensure the integrity of transferred data, SSL encryption of communication paths, and AES encryption of data.

  • Other services
  • Document and Data Management
  • soft

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CAE software 'Simerics MP+' strong in electric pumps

CAE software 'Simerics MP+' strong in electric pumps

Simulate the flow characteristics of volumetric pumps such as gear pumps and vane pumps! A CAE software specialized for gear pumps, which other CAE software struggles with!

Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsation and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The greatest strength is the ability to automatically create meshes even for clearances in the µm range, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automotive and construction machinery, such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. Especially, please see the actual mesh creation and movement in a demo presentation!!

  • Thermo-fluid analysis
  • soft

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Optimization of thermal design for electric vehicle battery packs

Optimization of thermal design for electric vehicle battery packs

The parametric model created with CAESES can robustly output various complex shapes for use in optimization calculations!

The battery is one of the most important components in electric vehicles (EVs), and its performance and lifespan have a significant impact on the vehicle's driving range, safety, and even energy efficiency. In particular, the operating temperature of the battery is directly related to the charging and discharging efficiency and degradation rate, making proper temperature management essential. If the temperature is not adequately controlled, issues such as accelerated degradation due to overheating, reduced safety, or, conversely, decreased output and charging efficiency in low-temperature environments may arise. Therefore, the thermal design of the battery pack is a crucial factor in maximizing the performance of EVs and ensuring long-term durability. In this case study, we constructed a parametric battery model with flexible deformation and conducted optimization calculations aimed at minimizing the maximum temperature. *For more details, please refer to the related links. For further information, feel free to download the PDF or contact us.*

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Simerics MP+ is also used for motor cooling analysis.

Simerics MP+ is also used for motor cooling analysis.

Not only applicable to hydraulic circuits such as engines and transmissions, but also has numerous applications in the analysis of oil cooling, water cooling, and air cooling circuits for motors and batteries!

PumpLinx is a fluid analysis software designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid analysis software Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsation and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque Recently, there has been an increase in projects for oil cooling analysis of motors for automobiles, and when solving the VOF method with other CFD software, we have received inquiries such as: - Analysis time is too long - It is difficult to create fine calculation meshes - The solution diverges and does not converge Development source's SAE presentation paper on motor oil cooling: https://saemobilus.sae.org/content/2020-01-0168/

  • Thermo-fluid analysis
  • Contract Analysis
  • simulator
  • soft

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Strong CAE software for gear pumps, 'Simerics MP+'

Strong CAE software for gear pumps, 'Simerics MP+'

Simulate the flow characteristics of volumetric pumps such as gear pumps and vane pumps! A CAE software specialized for pumps that other CAE software struggles with!

Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variations of flow fields (velocity vectors, pressure), flow rate, fluid forces, and torque The biggest strength is the ability to automatically create meshes even for clearances in the µm range, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automotive and construction machinery, with examples such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. Especially, the actual mesh creation and movement should definitely be demonstrated in a demo!

  • Thermo-fluid analysis
  • soft

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Strong CAE software for gear pumps, 'Simerics MP+'

Strong CAE software for gear pumps, 'Simerics MP+'

Simulate the flow characteristics of volumetric pumps such as gear pumps and vane pumps! A CAE software specialized for gear pumps, which other CAE software struggles with!

Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsation and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The biggest strength is the ability to automatically create meshes even for clearances in the micrometer range, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automotive and construction machinery, with examples such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. Especially, the actual mesh creation and movement should definitely be demonstrated in a demo!

  • Thermo-fluid analysis
  • soft

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CAE software 'Simerics MP+' strong in gear pumps.

CAE software 'Simerics MP+' strong in gear pumps.

Simulate the flow characteristics of volumetric pumps such as gear pumps and vane pumps! A CAE software specialized for pumps that other CAE software struggles with!

Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The greatest strength is the ability to automatically create meshes even for clearances in the µm range, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automotive and construction machinery applications, such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. Especially, the actual mesh creation and movement should definitely be demonstrated in a demo!

  • Thermo-fluid analysis
  • soft

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DataHub v10 New Features

DataHub v10 New Features

Supports historical data! Data can now be written to major time series historical databases.

We would like to introduce the new features of 'DataHub v10' that we handle. It is now possible to write data to major time-series historical databases such as InfluxData, Amazon, and AVEVA. Additionally, the functionality to create alarm notifications via email, SMS, social media, and OPC A&E has been enhanced based on changes to DataHub points. 【New Features】 ■ External Historians ■ Tunneling Historical Data ■ Store & Forward for Cloud Connectivity ■ Alarms and Notifications ■ Importing Settings ■ Enhanced WebView Functionality *For more details, please refer to the PDF document or feel free to contact us.

  • Software (middle, driver, security, etc.)
  • Other network tools
  • Document and Data Management
  • soft

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Strong CAE software for oil pumps 'SimericsMP+'

Strong CAE software for oil pumps 'SimericsMP+'

Simulating the flow characteristics of positive displacement pumps such as gear pumps and vane pumps! A CAE software specialized for pumps that other CAE software struggles with!

SimericsMP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variations of flow fields (velocity vectors, pressure), flow rate, fluid forces, and torque The greatest strength is the ability to automatically create meshes even for clearances in the micrometer range, which is difficult for other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automobiles and construction machinery, with examples such as vane pumps for power steering and CVTs, and trochoid pumps for engine lubrication. *There is a lot of information that cannot be posted online. Particularly, we encourage you to see the actual mesh creation and movement through a demonstration!

  • Thermo-fluid analysis
  • soft

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CAE software "Simerics MP+" strong in electric pumps.

CAE software "Simerics MP+" strong in electric pumps.

Simulate the flow characteristics of volumetric pumps such as gear pumps and vane pumps! A CAE software specialized for gear pumps, which other CAE software struggles with!

PumpLinx is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variations of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The biggest strength is the ability to automatically create meshes even for clearances in the µm range, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements for oil pumps used in automobiles and construction machinery, with examples such as vane pumps for power steering and CVTs, and trochoid pumps for engine lubrication. *There is a lot of information that cannot be posted online. Particularly, the actual mesh creation and movement should definitely be demonstrated in a demo!

  • Thermo-fluid analysis
  • soft

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CAE software "Simerics MP+" strong in automotive oil lubrication.

CAE software "Simerics MP+" strong in automotive oil lubrication.

Fluid analysis software for volumetric pumps such as gear pumps and vane pumps! A CAE software specialized for pumps that other CAE software struggles with!

PumpLinx is a fluid analysis software designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid analysis software Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsation and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The biggest strength is the ability to automatically create meshes with clearances in the µm range, which is difficult for other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automotive and construction machinery, with examples such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. Especially, we encourage you to see the actual mesh creation and movement in a demonstration!

  • Thermo-fluid analysis
  • soft

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Strong CAE software for vane pumps 'Simerics MP+'

Strong CAE software for vane pumps 'Simerics MP+'

Simulate the flow characteristics of volumetric pumps such as vane pumps! A CAE software specialized for pumps that other CAE software struggles with!

PumpLinx is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsation and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The greatest strength is the ability to automatically create meshes for clearances in the µm range, which is difficult for other general-purpose fluid analysis software!! Recently, there has been an increase in applications for oil pumps used in automobiles and construction machinery, with examples including vane pumps for power steering and CVTs, as well as trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. In particular, we encourage you to see the actual mesh creation and movement through a demo presentation!!

  • Thermo-fluid analysis
  • soft

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Strong CAE software for oil pumps: 'Simerics MP+'

Strong CAE software for oil pumps: 'Simerics MP+'

Simulating the flow characteristics of positive displacement pumps such as gear pumps and vane pumps! A CAE software specialized for pumps that other CAE software struggles with!

Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsation and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The biggest strength is the ability to automatically create meshes even for clearances in the µm range, which is difficult for other general-purpose fluid analysis software!! Recently, there has been an increase in applications for automotive and construction machinery oil pumps, with examples such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. Especially, we encourage you to see the actual mesh creation and movement through a demo presentation!

  • Thermo-fluid analysis
  • Contract Analysis
  • simulator
  • soft

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Strong CAE software for vane pumps: 'Simerics MP+'

Strong CAE software for vane pumps: 'Simerics MP+'

Simulate the flow characteristics of volumetric pumps such as vane pumps! A CAE software specialized for pumps that other CAE software struggles with!

Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The biggest strength is the ability to automatically create meshes even for clearances in the µm range, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automotive and construction machinery applications, such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. Especially, the actual mesh creation and motion should definitely be demonstrated in a demo presentation!!

  • Thermo-fluid analysis
  • soft

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CAE software "SimericsMP+" strong in automotive oil lubrication.

CAE software "SimericsMP+" strong in automotive oil lubrication.

Fluid analysis software for positive displacement pumps such as gear pumps and vane pumps! A CAE software specialized for pumps that other CAE software struggles with!

SimericsMP+ is a fluid analysis software designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid analysis software Simerics MP and utilizes all the functionalities of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The biggest strength is the ability to automatically create meshes for clearances in the µm range, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automobiles and construction machinery, such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be published online. Especially, the actual mesh creation and motion should definitely be demonstrated in a demo!

  • Thermo-fluid analysis
  • soft

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