Structural Analysis - 企業ランキング(全4社)
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| 会社名 | 代表製品 | ||
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| 製品画像・製品名・価格帯 | 概要 | 用途/実績例 | |
| 【Service Content】 Structural analysis services for industrial machinery and equipment Proposals for improvements based on analysis results 【Software Owned】 Analysis Software: MSC.Marc, AutoPIPE, STAAD.Pro, Ansys.Fluent Pre/Post Processing: NX, FEMAP, MSC.Mentat 【Main Qualifications Obtained】 Computational Mechanics Engineer (Solid Mechanics Field): 6 Level 1, 10 Level 2 Computational Mechanics Engineer (Vibration Field): 3 Level 2 Computational Mechanics Engineer (Thermal Fluid Mechanics Field): 6 Level 1, 10 Level 2 | 【Purpose】 Predictive evaluation of stress, deformation, fatigue life, etc. 【Track Record】 Structural Analysis (Linear/Nonlinear) - Predicting causes of plastic deformation and failure from stress distribution - Rapid decision-making for countermeasures during damage occurrence - Compliance evaluation with standards such as ASME, JIS, KHK, NK, etc. - Cost reduction considerations (material changes, additional reinforcements) Buckling Analysis (Linear/Nonlinear) - Buckling evaluation of equipment Thermal Stress Analysis (Linear/Nonlinear) - Determining temperature distribution and predicting damage due to thermal stress Fatigue Analysis - Predicting fatigue life from stress transitions during operation Eigenvalue Analysis - Predicting the occurrence of resonance in the installation environment - Visualizing vibration modes and proposing effective seismic reinforcement plans Seismic Analysis (Modified Seismic Intensity Method, Response Spectrum Analysis, Time History Response Analysis) - Confirming margins against anticipated vibrations and considering countermeasures - Supporting the formulation of BCP (Business Continuity Plan) during disasters For more details, please request materials or view the PDF data from the download. | ||
| 【Service Content】 Structural analysis services for industrial machinery and equipment Proposals for improvements based on analysis results 【Software Owned】 Analysis Software: MSC.Marc, AutoPIPE, STAAD.Pro, Ansys.Fluent Pre/Post Processing: NX, FEMAP, MSC.Mentat 【Main Qualifications Obtained】 Computational Mechanics Engineer (Solid Mechanics Field): 6 Level 1, 10 Level 2 Computational Mechanics Engineer (Vibration Field): 3 Level 2 Computational Mechanics Engineer (Thermal Fluid Mechanics Field): 6 Level 1, 10 Level 2 | 【Purpose】 Predictive evaluation of stress, deformation, fatigue life, etc. 【Track Record】 Structural Analysis (Linear/Non-linear) - Predicting causes of plastic deformation and failure from stress distribution - Rapid decision-making for countermeasures upon damage occurrence - Compliance evaluation with standards such as ASME, JIS, KHK, NK, etc. - Cost reduction considerations (material changes, additional reinforcements) Buckling Analysis (Linear/Non-linear) - Buckling evaluation of equipment Thermal Stress Analysis (Linear/Non-linear) - Determining temperature distribution and predicting damage due to thermal stress Fatigue Analysis - Predicting fatigue life from stress transitions during operation Eigenvalue Analysis - Predicting the occurrence of resonance in the installation environment - Visualizing vibration modes and proposing effective seismic reinforcement plans Seismic Analysis (Modified Seismic Intensity Method, Response Spectrum Analysis, Time History Response Analysis) - Confirming margins against expected vibrations and considering countermeasures - Supporting the formulation of BCP (Business Continuity Plan) during disasters For more details, please request materials or view the PDF data from the download section. | ||
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宇部情報システム
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- 代表製品
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Structural Analysis Service
- 概要
- 【Service Content】 Structural analysis services for industrial machinery and equipment Proposals for improvements based on analysis results 【Software Owned】 Analysis Software: MSC.Marc, AutoPIPE, STAAD.Pro, Ansys.Fluent Pre/Post Processing: NX, FEMAP, MSC.Mentat 【Main Qualifications Obtained】 Computational Mechanics Engineer (Solid Mechanics Field): 6 Level 1, 10 Level 2 Computational Mechanics Engineer (Vibration Field): 3 Level 2 Computational Mechanics Engineer (Thermal Fluid Mechanics Field): 6 Level 1, 10 Level 2
- 用途/実績例
- 【Purpose】 Predictive evaluation of stress, deformation, fatigue life, etc. 【Track Record】 Structural Analysis (Linear/Nonlinear) - Predicting causes of plastic deformation and failure from stress distribution - Rapid decision-making for countermeasures during damage occurrence - Compliance evaluation with standards such as ASME, JIS, KHK, NK, etc. - Cost reduction considerations (material changes, additional reinforcements) Buckling Analysis (Linear/Nonlinear) - Buckling evaluation of equipment Thermal Stress Analysis (Linear/Nonlinear) - Determining temperature distribution and predicting damage due to thermal stress Fatigue Analysis - Predicting fatigue life from stress transitions during operation Eigenvalue Analysis - Predicting the occurrence of resonance in the installation environment - Visualizing vibration modes and proposing effective seismic reinforcement plans Seismic Analysis (Modified Seismic Intensity Method, Response Spectrum Analysis, Time History Response Analysis) - Confirming margins against anticipated vibrations and considering countermeasures - Supporting the formulation of BCP (Business Continuity Plan) during disasters For more details, please request materials or view the PDF data from the download.
Structural Analysis Service*
- 概要
- 【Service Content】 Structural analysis services for industrial machinery and equipment Proposals for improvements based on analysis results 【Software Owned】 Analysis Software: MSC.Marc, AutoPIPE, STAAD.Pro, Ansys.Fluent Pre/Post Processing: NX, FEMAP, MSC.Mentat 【Main Qualifications Obtained】 Computational Mechanics Engineer (Solid Mechanics Field): 6 Level 1, 10 Level 2 Computational Mechanics Engineer (Vibration Field): 3 Level 2 Computational Mechanics Engineer (Thermal Fluid Mechanics Field): 6 Level 1, 10 Level 2
- 用途/実績例
- 【Purpose】 Predictive evaluation of stress, deformation, fatigue life, etc. 【Track Record】 Structural Analysis (Linear/Non-linear) - Predicting causes of plastic deformation and failure from stress distribution - Rapid decision-making for countermeasures upon damage occurrence - Compliance evaluation with standards such as ASME, JIS, KHK, NK, etc. - Cost reduction considerations (material changes, additional reinforcements) Buckling Analysis (Linear/Non-linear) - Buckling evaluation of equipment Thermal Stress Analysis (Linear/Non-linear) - Determining temperature distribution and predicting damage due to thermal stress Fatigue Analysis - Predicting fatigue life from stress transitions during operation Eigenvalue Analysis - Predicting the occurrence of resonance in the installation environment - Visualizing vibration modes and proposing effective seismic reinforcement plans Seismic Analysis (Modified Seismic Intensity Method, Response Spectrum Analysis, Time History Response Analysis) - Confirming margins against expected vibrations and considering countermeasures - Supporting the formulation of BCP (Business Continuity Plan) during disasters For more details, please request materials or view the PDF data from the download section.
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宇部情報システム
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