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Vector Magnetic Characteristic Analysis 【Analysis Case Study Material 1】

An example of analysis using a model of non-oriented electrical steel sheet shaped into a ring is presented!

This document presents an analysis example using a model of isotropic electromagnetic steel plates shaped into a ring. It provides a detailed explanation of the ring model voltage source, as well as comparison results with measured values of the hysteresis curve. 【Contents】 ■1.1 Analysis Model and Objectives ■1.2 Analysis Conditions and Calculation Time ■1.3 Magnetic Field Distribution and Iron Loss Distribution Results ■1.4 Alternating Magnetic Flux and Rotating Magnetic Field Results ■1.5 Comparison Results with Measured Values of the Hysteresis Curve ■1.6 Current Waveform Results ■1.7 Interface Settings Screen *For more details, please refer to the PDF document or feel free to contact us.

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PM motor
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Document 'What is Vector Magnetic Characteristic Analysis'

Publication of an explanation of vector magnetic characteristic analysis technology for the realization of high-efficiency motors!

This document explains the vector magnetic characteristic analysis technology for achieving high-efficiency motors. This technology is supported by Professor Masato Enokizono (Emeritus Professor at Oita University, currently the representative of the Vector Magnetic Characteristic Technology Research Institute), and we have cited information from the Vector Magnetic Characteristic Technology Research Institute, which is headed by the professor. [Contents] 1. The target is the reduction of iron loss in electromagnetic steel sheets. 2. Iron loss is the sum of eddy current loss and hysteresis loss. 3. Vector magnetic characteristics of electromagnetic steel sheets. 4. Conventional measurements are scalar magnetic measurements. 5. Developed vector magnetic measurements. 6. Actual measurement results. 7. Database creation as magnetic characteristics. *For more details, please refer to the PDF document or feel free to contact us.

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Data 'Vector Magnetic Property Analysis Technical Column'

Publication on vector magnetic characteristic analysis technology for achieving high-efficiency motors!

This document is a technical column edited and compiled based on the content related to "Vector Magnetic Characteristic Analysis" mentioned in past newsletter columns. We would like to disseminate information about the importance of vector magnetic characteristic analysis technology for achieving high-efficiency motors. [Contents] ■1. Vector Magnetic Characteristic Analysis Technology - Prologue - ■2. Top Runner Method and IE4 ■3. Inverter Technology and Energy Saving ■4. Will Increasing Size Lead to IE3? ■5. Electrical Steel Sheets are Excellent ■6. Focus on the Vector Magnetic Characteristics of Electrical Steel Sheets *For more details, please refer to the PDF document or feel free to contact us.

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP 0

[Excel-based simulation software] Check out the operation feel in the video now! A free trial version is also available! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic field analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for genuine simulations with a familiar user experience. You can check the operation experience through videos for each work step! The video available here is "Step 0: Introduction" - taking the "Magnetic Torque Version" of the "μ-Excel" series as an example, we will introduce its features that gently guide you through 2D axisymmetric analysis using the finite element method via Excel macros. ▽▼▽ Please also check out other videos! ▼▽▼ ▼ Step 0: Introduction Step 1: Starting Excel Step 2: Model Creation Step 3: DXF Import Step 4: Mesh Creation Step 5: Execute Calculation Step 6: Add Materials Step 7: Display Results Step 8: Create Graphs Step 9: Save with Name Step 10: Surface Flux Calculation Step 11: Torque Calculation

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Magnetic field analysis/electromagnetic wave analysis
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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP2

[Excel-based simulation software] Check out the user experience in the video now! Free trial version available for download! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the operation experience through videos for each work step! The video available here is "Step 2 Model Creation" - taking the "Magnetic Torque Version" of the "μ-Excel" series as an example, we will introduce the steps to build a model using the included modeler with points, lines, and surfaces. ▽▼▽ Please also check out other videos! ▼▽▼ Step 0 Introduction Step 1 Starting Excel ▼Step 2 Model Creation Step 3 DXF Import Step 4 Mesh Creation Step 5 Execute Calculation Step 6 Add Materials Step 7 Display Results Step 8 Create Graphs Step 9 Save As Step 10 Surface Flux Calculation Step 11 Torque Calculation

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP3

[Excel-based simulation software] Check out the operation feel in the video now! Free trial download available! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the user experience through videos for each work step! The video available here is "Step3 DXF Import." - Taking the "Magnetization Torque Version" of the "μ-Excel" series as an example, we will introduce how you can import DXF files drawn in CAD, making model creation more efficient. - ▽▼▽ Please also check out other videos! ▼▽▼ Step0 Introduction Step1 Starting Excel Step2 Model Creation ▼Step3 DXF Import Step4 Mesh Creation Step5 Execute Calculation Step6 Add Materials Step7 Display Results Step8 Create Graphs Step9 Save with Name Step10 Surface Flux Calculation Step11 Torque Calculation

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP4

【Excel-based simulation software】Check out the operation feel in the video now! Free trial download available! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for genuine simulations with a familiar user experience. You can check the user experience through videos for each work step! The video available here is "Step 4: Mesh Creation." - Taking the "Magnetization Torque Version" of the "μ-Excel" series as an example, we will introduce the auto-mesh function, specification of mesh density, and periodic boundary condition functions during motor analysis. - ▽▼▽ Please also check out other videos! ▼▽▼ Step 0 Introduction Step 1 Starting Excel Step 2 Model Creation Step 3 DXF Import ▼Step 4 Mesh Creation Step 5 Execute Calculation Step 6 Add Materials Step 7 Display Results Step 8 Create Graphs Step 9 Save As Step 10 Surface Flux Calculation Step 11 Torque Calculation

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP7

[Excel-based simulation software] Check out the operation feel in the video now! Free trial version available for download! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the user experience through videos for each work step! The video available here is "Step 7 Result Display" - taking the "Magnetic Torque Version" of the "μ-Excel" series as an example, we will introduce the display of vector diagrams, contour maps, and magnetic flux lines, as well as the ability to create documents using cut and paste. ▽▼▽ Please also check out other videos! ▼▽▼ Step 0 Introduction Step 1 Starting Excel Step 2 Model Creation Step 3 DXF Import Step 4 Mesh Creation Step 5 Execute Calculation Step 6 Add Materials ▼Step 7 Result Display Step 8 Create Graphs Step 9 Save As Step 10 Surface Magnetic Flux Calculation Step 11 Torque Calculation

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP8

[Excel-based simulation software] Check out the operation feel in the video now! Free trial version available for download! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the user experience through videos for each work step! The video available here is "Step 8: Graph Creation." Using the "Magnetic Torque Version" of the "μ-Excel" series as an example, we will introduce the feature that stores result values at arbitrary coordinates in cells, enabling Excel's inherent spreadsheet and graph functions. ▽▼▽ Please also check out other videos! ▼▽▼ Step 0 Introduction Step 1 Starting Excel Step 2 Model Creation Step 3 DXF Import Step 4 Mesh Creation Step 5 Execute Calculation Step 6 Add Materials Step 7 Display Results ▼Step 8 Graph Creation Step 9 Save with Name Step 10 Surface Flux Calculation Step 11 Torque Calculation

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Vector Magnetic Property Analysis 【Analysis Case Study Material 5】

A comparison of the magnetic field and iron loss distribution of IPM (Interior Permanent Magnet) motors using vector magnetic characteristic analysis and conventional method analysis!

This document presents an analysis example aimed at comparing the magnetic field and iron loss distribution of IPM (Interior Permanent Magnet) motors using vector magnetic characteristic analysis and conventional method analysis. It provides a detailed explanation of the analysis model and objectives, as well as the results of magnetic flux lines, magnetic field distribution, and iron loss distribution. 【Contents】 ■5.1 Analysis Model and Objectives ■5.2 Analysis Conditions and Calculation Time ■5.3 Magnetic Flux Lines, Magnetic Field Distribution, Iron Loss Distribution Results ■5.4 Comparison with Conventional Methods ■5.5 Results of Angle θB and Aspect Ratio α Distribution ■5.6 Hysteresis Curve and Lissajous Waveform Results *For more details, please refer to the PDF document or feel free to contact us.

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Technical Document "Fundamentals of Electromagnetic Simulation"

Electromagnetic phenomena, Maxwell's equations, from analysis examples to finite element methods! Explained using illustrations and diagrams.

This document introduces the world of electromagnetic simulation, covering electromagnetic phenomena, Maxwell's equations, and examples of analysis using the finite element method. It is an excerpt from the analysis know-how video site "Analysis Know-How.com" by μ-EXCEL. The explanations are made easy to understand using illustrations and graphs. We encourage you to read it. 【Contents】 ■ Electromagnetic phenomena ■ Maxwell's equations ■ Vector operations ■ Numerical calculations ■ Finite element method ■ Motor analysis ■ Other analyses 【We have launched Analysis Know-How.com (https://mu-excel.com)!】 - In the "Home" menu, you can find a list of know-how collections. - By clicking the "View Details" button, you can access know-how points and videos. - In the "Category" menu, you can filter by genre and series. - Use "Search by Keyword" to further narrow down related videos. - In the "Blog," we will introduce updated videos as they are released. ★ You can download sample software from the link below. *For more details, please refer to the PDF document or feel free to contact us.

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Other environmental equipment
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Introduction to the electrostatic current version of μ-EXCEL.

Calculating the current density within the conductor and the resistance between the electrodes.

The electrostatic current version calculates the current density within the conductor and the resistance between the electrodes. It addresses a variety of themes such as thermistors, heating wires, printed circuit boards, and sensor electrodes. For more details, please refer to the "Introduction to 163 ex Electrostatic Current Version" on 【Analysis Know-How.com】. Key points are as follows: - The electrostatic current version checks the current distribution within the conductor. - It is a simple analysis, but there are various themes. - For thermistors, it examines the current density between the electrodes. - For heating wires in rear glass, it investigates how to ensure an even current flow. - For printed circuit boards, it estimates heat generation from the current density in the wiring. - For sensor electrodes, it estimates the material of the lower layer based on resistance values.

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【μ-EXCEL　磁場単位のまとめ】

磁場の単位にはMKSA系とCGS系があります磁束密度はテスラとガウス磁界強度はA/mとエルステッド

磁場の単位をまとめます、MKSA系とCGS系とわかりにくいので条件設定や結果を見るときに注意下さい詳細は【解析ノウハウ.com】の「153　磁場の単位」をご覧くださいポイントはこちら・磁場の単位のまとめ・μ-EXCELではCGS系を使います・解析条件では電流密度（A/m2）を与えます・材料追加でH（Oe）とB（Gauss）のBHカーブを定義・コンター表示のBの単位はGauss ・評価点・グラフのBの単位はGauss

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【μ-TM 誘導加熱の磁場・温度解析ソフト】

3次元誘導加熱解析ソフト、コイルの移動なども簡単に設定できます

解析に不慣れな設計・研究の方にも、手軽に操作できるソフトに仕上げています。簡単なコイル設定で、加熱コイルの移動もインターフェースで簡単に設定できます詳細は【解析ノウハウ.com】の「063　μ-TMの紹介」をご覧くださいポイントはこちら・誘導加熱・温度解析の専用ソフト・加熱コイルの有限要素分割は不要・複雑なコイル形状やコイルの移動が簡単・ウィザード形式で解り易い条件設定・３次元誘導加熱解析をもっと身近にさらに・お客様の問題に踏み込んだ、プロのコンサルティングをご提供・受託解析や、カスタム開発も、安価にご提供いたします

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Understanding phenomena with contour lines and vector representation on 【Analysis Know-How.com】.

The color represents size, and the vector indicates direction with an arrow! The color and length of the arrow also have meaning.

Contour lines represent size with color, while vectors represent direction with arrows. For details, please refer to "NO.021 Contour Lines and Vector Representation" on 【Analysis Know-How.com】. Key points are as follows: - Contour lines are also referred to as contour displays. - Temperature distribution and magnetic field strength are represented with color. - Vectors refer to arrows. - The direction of the magnetic field and the flow of heat are represented by the direction of the arrows. - The color and length of the arrows also have significance. - Additionally, there are representations using lines such as magnetic flux lines and equipotential lines.

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【解析ノウハウ.com】温度解析の伝達・輻射境界

温度解析モデルの最外周に外気との熱的境界を設定！温度が高いほど輻射境界の熱放出が大きくなります

外気への熱の流れには伝達と輻射の２つの境界条件があります詳細は【解析ノウハウ.com】の「No.158　温度解析の伝達・輻射境界」をご覧くださいポイントはこちら・温度解析モデルの最外周に外気との熱的境界を設定する・伝達と輻射境界が考慮できる、対流境界は出来ない・伝達境界では外気との温度差に比例した熱が流れる・輻射境界では温度差の４乗に比例した熱が流れる・切り替えスイッチについて・温度が高いほど輻射境界の熱放出が大きい

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【解析ノウハウ.com】アニメーションの作成

gifファイルも保存可能！時間的変化や動きのある解析でアニメーションが作成できます

非定常温度解析やモータ回転時の結果変化をアニメーション表示出来ます、gifファイルも保存できます詳細は【解析ノウハウ.com】の「035 アニメーションの作成」をご覧くださいポイントはこちら・時間的変化や動きのある解析でアニメーションが作成できる・非定常温度解析のアニメーション作成・回転するモータのアニメーション作成・Gifファイルが作成られる

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【解析ノウハウ.com】磁場の単位のまとめ

材料追加でH（Oe）とB（Gauss）のBHカーブを定義！解析条件では電流密度（A/m2）を与えます

磁場の単位をまとめます、MKSA系とCGS系とわかりにくいので条件設定や結果を見るときに注意下さい詳細は【解析ノウハウ.com】の「153　磁場の単位」をご覧くださいポイントはこちら・磁場の単位のまとめ・μ-EXCELではCGS系を使います・解析条件では電流密度（A/m2）を与えます・材料追加でH（Oe）とB（Gauss）のBHカーブを定義・コンター表示のBの単位はGauss ・評価点・グラフのBの単位はGauss

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Analysis Know-How.com: Frequency Characteristics of Impedance

Z (impedance) can be calculated from Z = RX / (R + X) C and the ex electrostatic field version, where R can be calculated from the ex electrostatic current version!

Impedance has frequency characteristics. In an equivalent circuit, it can be represented as a parallel circuit of the resistance R and the capacitance C. In an alternating current field, when the frequency is low, current flows through the R part, and as the frequency increases, current flows through the C part. For more details, please refer to "NO.161 Frequency Characteristics of Impedance" on [Analysis Know-How.com]. Here are the key points: - Impedance has frequency characteristics. - Resistance R can be derived from conductivity σ. - Reactance X = 1/ωC can be derived from permittivity ε. - Z (impedance) is given by Z = RX / (R + X). - C can be calculated from the electrostatic field version. - R can be calculated from the electrostatic current version.

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Introduction to the EX Eddy Current Version on 【Analysis Know-How.com】

Input the frequency of the excitation coil, the permeability and conductivity of the material! It can be defined as multiple conductors.

We calculate the magnetic field shielding effect due to eddy currents, as well as the distribution of eddy currents, heat generation distribution, and the amount of heat generated. When defined as multiple conductors, the eddy currents in each conductor can be calculated in a closed state. For more details, please refer to "NO.049 ex Eddy Current Number Introduction" on 【Analysis Know-How.com】. Here are the key points: - Input the frequency of the excitation coil, as well as the permeability and conductivity of the materials. - Eddy currents are closed within the conductors. - It can be defined as multiple conductors. - As a result, eddy currents flow in each conductor, reducing losses. - Displays the magnetic field, eddy current, and heat generation distribution. - Outputs the total amount of heat generated (loss amount).

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【解析ノウハウ.com】渦電流と表皮厚さ

表皮厚は非磁性体に比べて非常に薄くなる！周波数・導電率・透磁率によって変わります

渦電流は導体の表面を流れ、磁場の進入を防ぎます。また渦電流の流れる深さを表皮厚さと言い、周波数・導電率・透磁率によって変わります。一般的に磁性体の表皮厚は非磁性体に比べて非常に薄くなります。詳細は【解析ノウハウ.com】の「NO.050 渦電流と表皮厚さ」をご覧くださいポイントはこちら・磁場が時間変化すると導体に渦電流が流れる・導体の表面に流れる・流れる深さを表皮厚と言う・周波数、導電率、透磁率で表皮厚さが変わる・表面に薄く流れるので導体のメッシュは細かくする

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【解析ノウハウ.com】IHクッキングは誘導加熱解析で！

材料特性は磁場解析と温度解析用が必要！高周波コイルは加熱ON/余熱OFFが設定できます！

ＩＨクッキングは誘導加熱原理を使っています。高周波コイルで発生した磁場をお鍋の底に当てると渦電流が発生します、ここまでが磁場解析。渦電流は発熱を起こしお鍋の底からお水へ熱が伝わり温度が上昇します、ここは熱解析。誘導加熱は狙った場所を短時間で加熱できるので、様々なところに利用されています詳細は【解析ノウハウ.com】の「NO.019 ex誘導加熱版の紹介」をご覧くださいポイントはこちら・誘導加熱によりワークの温度変化を見ます・渦電流は磁場解析で求めるのでモデルに空間が必要・渦電流はワーク表面を薄く流れるので、メッシュを細かく・材料特性は磁場解析と温度解析用が必要・高周波コイルは加熱ON/余熱OFFが設定できる

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【解析ノウハウ.com】誘導加熱解析では磁気と熱特性が必要！

物性値の温度依存性も考慮可能！材料特性は伝熱ハンドブックにも出ています！

ＩＨクッキングは誘導加熱原理を使っています。高周波コイルで発生した磁場をお鍋の底に当てると渦電流が発生します、ここまでが磁場解析。渦電流は発熱を起こしお鍋の底からお水へ熱が伝わり温度が上昇します、ここは熱解析。なので、誘導加熱解析では磁気的材料特性と熱的材料特性が必要です詳細は【解析ノウハウ.com】の「NO.132 ex誘導加熱版の材料追加」をご覧くださいポイントはこちら・誘導加熱解析では渦電流解析で発熱量を求めます・この時、BHカーブ(Oe,Gauss)・導電率（S/m）が必要・その後、非定常温度解析を行います・この時、熱伝導率(W/mK)、熱容量(J/m3K)が必要・物性値の温度依存性も考慮できます・材料特性は伝熱ハンドブックにも出ています

Company：ミューテック
Price：Other

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【Analysis Know-How.com】Transient heat calculation for heating and cooling!

The flow rate of the cooling water is approximated by the heat transfer coefficient! Evaluated using animations and temperature history at evaluation points!

In the heat conduction version, you can define heating elements and cooling pipes. It is a simple analysis, but it allows for easy transient temperature analysis. For details, please refer to "NO.101 Introduction to the Heat Conduction Version: Seeking Temperature Distribution and Changes" on 【Analysis Know-How.com】. Here are the key points: - Transient temperature analysis is possible. - The flow rate of the cooling water is approximated by the heat transfer coefficient. - You can set the heating and non-heating of the heating elements. - Calculations are performed for time steps. - Evaluation is done through animations and temperature history at evaluation points.

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【解析ノウハウ.com】ヨークに働く電磁力を求めたければ！

指定したサーフェース群の電磁力を計算！磁束密度コンタから飽和を確認！

例えばリレーモデルでは、磁性材料特性とコイルの電流値を指定しアーマチャの吸引力と鉄芯の飽和を確認します詳細は【解析ノウハウ.com】の「NO.026 EX電磁力版の紹介」をご覧くださいポイントはこちら・指定したサーフェース群の電磁力を計算・ヒンジ周りのトルクも計算・コイルは電流密度で与える・磁束密度コンタから飽和を確認する・アーマチャの角度を変えて計算を繰り返す

Company：ミューテック
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【Analysis Know-How.com】Handling of permanent magnets in μ-EXCEL!

The finite element method automatically calculates the operating point of the magnet (permeability coefficient) based on the defined shape!

To define a permanent magnet in magnetic field analysis, the magnet's BH (demagnetization) curve is required. An image from the manufacturer's catalog is shown below, and we use the BH curve that connects the residual magnetic flux density Br and the coercive force Hc. The catalog also includes the JH curve (magnetization curve) and the maximum energy product BHmax. In the finite element method, the operating point of the magnet (permeance coefficient) is automatically calculated based on the defined shape. For more information on the "definition of permanent magnets," please refer to NO. 119 on "Analysis Know-How.com."

Company：ミューテック
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【解析ノウハウ.com】3次元電磁場解析ソフトμ-MFの紹介

μ-EXCELで基本特性を確認したら、より精密な３次元解析へ！3次元解析をウィザード（解析案内）が誘導！

静電磁場・渦電流からヒステリシス解析まで、3次元電磁場解析をウィザード（解析案内）が誘導します詳細は【解析ノウハウ.com】の「NO.115　3次元電磁場解析μ-MFの紹介」をご覧ください　=>https://mu-excel.com/other115.html ポイントはこちら・μ-MFは3次元電磁場解析ソフト・静電磁場・渦電流からヒステリシス解析まで・解析テーマごとのウィザード（解析案内）が誘導します・NASTRANメッシュをインポートし結果表示は標準装備・買取90万円から（レンタル：年間45万円、月額4万5千円から）・メッシュ作成ソフトは別途必要、Femap,Jupiter,Aircubeがお勧めさらに・お客様の問題に踏み込んだ、プロのコンサルティングをご提供・受託解析や、カスタム開発も、安価にご提供いたします

Company：ミューテック
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We will exhibit at the International Conference on Numerical Electromagnetics (COMPUMAG)!

We plan to exhibit the vector magnetic characteristic analysis software "μ-E&S".

The international conference COMPUMAG, focusing on electromagnetic field analysis, will be held in Kyoto from May 22 (Monday) to May 26 (Friday) at the National Kyoto International Conference Center. At this event, we will showcase the vector magnetic characteristic analysis software "μ-E&S" as a simulation utilizing data measured with the magnetic measurement equipment from Metron Giken. Motors for EVs and drones are increasingly being designed for higher torque, leading to higher rotational speeds (higher frequencies) and higher magnetic flux densities. Dynamic E&S is designed to meet this trend. It will include functions to calculate magnetic field waveforms in the high-frequency range and adapt to distorted magnetic flux waveforms in the high magnetic flux density range. We will explain this Dynamic E&S at the exhibition. We have uploaded materials from Professor Masato Enokizono, who proposed vector magnetic characteristics, below. The content is quite complex, so we hope you can review it in advance so we can discuss it directly. We look forward to seeing you!

Company：ミューテック
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Introduction to a top-class finite element solver.

A solution that incorporates high reliability, proven results, and the latest analytical technologies abundantly.

NASTRAN is an analysis program born from a space program where failure is not an option, and for over 40 years, it has maintained high reliability and a proven track record in meeting the stringent demands of various fields such as aerospace/defense, construction, automotive, shipbuilding, machinery, and electrical/electronics. Simcenter Nastran inherits this high reliability and proven track record while incorporating the latest analysis technologies, making it a solution suitable for the 21st century. 【Features】 - Supports large-scale problems and advanced nonlinear analysis - Flexible selection of the number of implementations based on analysis content - Operates on multiple operating systems such as Windows, UNIX, and Linux - Supports 64-bit modules, memory-shared parallel processing, and parallel processing on cluster machines 【Available Analyses】 - Linear static analysis: SOL101 - Eigenvalue analysis: SOL103 - Buckling analysis: SOL105 - Steady-state heat conduction analysis: SOL153 - Transient heat conduction analysis: SOL159 - Linear transient analysis: SOL109/112 - Frequency response analysis: SOL108/111 - Response spectrum analysis: SOL109/112, etc. *There are also various other modules available, so please contact us for more detailed information.

Company：エヌ・エス・ティ
Price：5 million yen-10 million yen

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[Example] Efficiency improvement of repetitive calculations using the super element function.

Reduce the computational load of large-scale models!! It can also be utilized for information security!!

**Case Overview** ■Product Name: Simcenter Femap with Nastran ■Industry: Mechanical Components The super-element feature of Simcenter Nastran reduces computational load by dividing large models for analysis or by simplifying parts of the model (external super-elements), thus making the analysis model smaller and shortening computation time when changes are made to other parts. In this case, we validated the analysis accuracy and evaluated the reduction in computation time by simplifying the unchanged boss section as an external super-element and analyzing it in conjunction with the mesh model of the blade section during the eigenvalue design of the fan blades. This method saves computation time, especially in design phases where performance evaluations and repeated calculations at the component level are common, and the more unchanged parts there are, the more significant the benefits. Additionally, by converting in-house component models into super-elements and providing them to other companies, the shapes can be treated as black boxes, thus enhancing information security. □ For other features and details, please refer to the catalog.

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