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Example: Silent Design of Electromagnetic Field Reactor

By integrating various software such as CAD, magnetic field analysis, and acoustic analysis, a wide range of optimization can be achieved!

This example introduces how to integrate three software programs to reduce noise without compromising the electrical performance of a reactor. First, the general-purpose parameter optimization software "AMDESS" rewrites the VB script file of the 3D CAD software "SolidWorks" with trial dimensions, changing the model dimensions. Next, the electromagnetic field analysis software "JMAG" communicates with "SolidWorks" to import the CAD model, perform meshing and analysis, and "AMDESS" extracts responses from the analysis results of "JMAG." As a result, starting from 30 samples using Latin hypercube sampling, a 31% reduction in sound pressure was achieved through six updates of the response surface. 【Optimization Conditions】 ■ Design Variables: Core dimensions D1 to D4 ■ Objective Function: Minimization of reactor sound pressure ■ Constraint Functions: Inductance above initial value, core volume below initial value ■ Approximation Model: RBF *For more details, please refer to the PDF document or feel free to contact us.

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[Example] Modeling from Handwritten Images

Introducing an example of modeling from a handwritten image! It is also possible to combine it with a CAD model!

In "VOXELCON," not only images from CT scanners but also images created with general image editing software can be imported and used for modeling. Here, as an example, we will introduce a case where an image created with the Windows accessory "Paint" is combined with a model created in CAD to create a model and perform stress analysis. If you have any questions or concerns, please feel free to contact us. [Contents] ■ Overview ■ Analysis Model ■ Boundary Conditions ■ Analysis Results ■ Discussion *Detailed information about the case can be viewed through the related links. For more details, please feel free to contact us.

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Example: CAD Integration - Dimension Optimization Linked with SOLIDWORKS

By using the SOLIDWORKS API, we can automate dimension changes and reduce operations.

To change dimensions through dimensional optimization, there are two methods: one is to directly modify the CAD model and remesh it, and the other is to change the mesh itself (morphing). Many CAD systems support scripting languages for manipulating CAD models, allowing external programs to operate on CAD models using these scripts. Here, we will introduce an example of dimensional optimization using a VBA macro that links SolidWorks (SolidWorks Japan Co., Ltd.) with 'AMDESS'. [Contents] ■ Overview ■ Analysis Model ■ Optimization Conditions ■ Results ■ Discussion *Detailed information about the case study can be viewed through the related links. For more information, please feel free to contact us.

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Example: Injection Molding - Exploration of Gate Position Considering Warpage Measures and Robust Design

We will explore design proposals that achieve both anti-sledding measures and robustness in collaboration with 3D TIMON.

Robustness represents the strength (small variation) against changes in the environment or situation and is an important evaluation criterion that affects yield in actual production. "AMDESS" can provide virtual variations to the approximation model, allowing for the evaluation of this robustness. Here, we will introduce a case of gate position optimization where "AMDESS" and "3D TIMON" are linked, and robustness is evaluated after the usual optimization. [Contents] ■ Overview ■ Analysis Model ■ Optimization Conditions ■ Optimization Results ■ Variation Evaluation ■ Discussion *Detailed information about the case can be viewed through the related links. For more information, please feel free to contact us.

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Case Studies Volume 2 of Structural Optimization Design Software 'OPTISHAPE-TS'

We will introduce examples aimed at stress reduction, weight reduction, and control of natural frequencies, considering situations such as component interference! Detailed explanations of analysis models, optimization conditions, and discussions will be provided!

In this case study collection, we introduce problem-solving examples using the structural optimization design software 'OPTISHAPE-TS.' We include examples of shape optimization for arms considering layout constraints due to part interference, as well as shape optimization case studies using stress constraints from multiple parts. From the analysis model to optimization conditions, results, and discussions, we provide detailed explanations using diagrams. Please feel free to download and take a look. [Featured Examples] ■ Shape optimization considering interference with other parts ■ Shape optimization considering stress ■ Shape optimization to improve natural frequency ■ Stress reduction through optimization of fillet shapes *For more details, please refer to the PDF materials or feel free to contact us! *For those who are not members of Ipros, materials can also be downloaded from the related links below (within our company site).

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[Technical Column] The Theory of OPTISHAPE-TS

An explanation of the theory used in the optimization function! A column discussing "H1 Gradient Method."

Since the release of the initial version, we have frequently received questions from customers about the theories underlying our optimization. From the user's perspective, it is understandable to feel hesitant about using software without a clear understanding of the theoretical background. In this technical column, we will explain the theories used in the optimization features of OPTISHAPE-TS as clearly as possible. Please feel free to download and take a look. [Contents] ■ Episode 1: Introduction to Non-Parametric Optimization *For more details, please refer to the PDF document or feel free to contact us.

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The theory of OPTISHAPE-TS "Gradient Method in Finite-Dimensional Spaces"

An explanation of gradient methods when the design variables are a finite number of real numbers! Introduction to the column.

In the previous article, we explained the gradient method, which is one of the solutions to optimization problems. In this article, we will discuss the gradient method in finite-dimensional spaces, specifically when the design variables are a finite number of real numbers. Please feel free to download and take a look. [Contents] ■ Episode 15: What is H1 Gradient Method Part 8 "Gradient Method in Finite-Dimensional Spaces" *For more details, please refer to the PDF document or feel free to contact us.

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[Technical Column] The Theory of OPTISHAPE-TS: "Space"

An explanation of the concept of "space" in modern mathematics! Introduction to a technical column.

In the previous article, I provided an overview of the function space known as H1. As I mentioned briefly, there is a significant difference between the "space" that engineers think of and the "space" in modern mathematics. This time, I will explain the concept of "space" in modern mathematics. Please feel free to download and take a look. [Contents] ■ Episode 9: What is the H1 Gradient Method? Part 2 "Space" *For more details, please refer to the PDF document or feel free to contact us.

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[Technical Column] The Theory of OPTISHAPE-TS: "What is Gradient Method?"

Based on the formulation of optimization problems, let's briefly explain what the gradient method is!

In the previous articles, we explained the "H1" in the H1 gradient method. I hope you have deepened your understanding of the concept of function spaces. From this time onward, I would like to explain the remaining "gradient methods" over several articles. To begin with, this article will discuss an overview of gradient methods. Please feel free to download and take a look. [Contents] ■ Episode 14 What is H1 Gradient Method Part 7 "What is Gradient Method" *For more details, please refer to the PDF document or feel free to contact us.

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The theory of OPTISHAPE-TS: The relationship between three functions and H1.

A subtle relationship with three functions commonly encountered in the field of engineering! Introducing in a column.

In the previous session, we explained norms and inner products in function spaces. Finally, to help you gain a deeper understanding of the concept of function spaces, we will discuss the subtle relationships with three functions that frequently appear in the field of engineering (for example, control engineering and vibration engineering). Please feel free to download and take a look. 【Contents】 ■ Episode 13: What is the H1 Gradient Method? Part 6 "The Relationship Between Three Functions and H1" *For more details, please refer to the PDF document or feel free to contact us.

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[Technical Column] The Theory of OPTISHAPE-TS: Infinite Dimensions and Function Spaces

To deepen your understanding of H1, we will explain norms and inner products in function spaces!

Last time, I explained the completeness of spaces. Since H1 is a function space, this time I will explain norms and inner products in function spaces to deepen your understanding of H1. Please feel free to download and take a look. [Contents] ■ Episode 12 What is the H1 Gradient Method? Part 5 "Infinite Dimensions and Function Spaces" *For more details, please refer to the PDF document or feel free to contact us.

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[Technical Column] Theory of OPTISHAPE-TS: Bead Optimization

You can change the characteristics of a structure without increasing the thickness of the thin plate! Introducing a widely used method.

This time, we will introduce bead optimization, which is one of the non-parametric optimizations of OPTISHAPE-TS. A bead refers to a small uneven shape applied to a thin plate structure. Since it can change the characteristics of the structure without increasing the thickness of the thin plate, the process of generating beads is a widely used method in various applications. [Contents] ■ Episode 19: Bead Optimization *For more details, please refer to the PDF document or feel free to contact us.

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The theory of OPTISHAPE-TS: Manufacturing constraints in H1 gradient method.

A method with a very high degree of freedom compared to parametric optimization! Introduction to a technical column.

This time, we will introduce the theory of manufacturing constraints in non-parametric shape optimization using OPTISHAPE-TS. Non-parametric optimization, including shape optimization, offers a much higher degree of freedom compared to parametric optimization, which results in unique shapes. Please download and check out the continuation of the column. [Contents] <Chapter 20: Manufacturing Constraints in H1 Gradient Method> ■ Limitations due to penalty terms in the H1 gradient method ■ Limitations based on the evaluation function *For more details, please refer to the PDF document or feel free to contact us.

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What is compliance in the theory of OPTISHAPE-TS?

An explanation of compliance in linear elastic analysis! Introduction to the technical column.

Non-parametric optimization of OPTISHAPE-TS (shape optimization, topology optimization, bead optimization) can commonly evaluate compliance in linear elastic analysis. For those who use it regularly, it may seem like a trivial matter to say, "Ah, compliance," but occasionally, I receive questions from others asking, "What is compliance?" In this article, I would like to explain compliance in a bit more detail. Please feel free to download and take a look. [Contents] ■ Episode 21: What is compliance? *For more details, please refer to the PDF document or feel free to contact us.

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Theory of OPTISHAPE-TS Compliance Sensitivity Part 1

About the problem with two-dimensional design variables! Introducing the linear elastic problem of a cantilever beam as an example.

In the previous article, we discussed compliance in linear elastic problems. By the way, some of you may have heard that "the sensitivity of compliance is the strain energy," but how is this derived? Therefore, starting from this time, I would like to take a few sessions to look at the derivation of the sensitivity of compliance. Please feel free to download and take a look. [Contents] ■ Episode 22: Sensitivity of Compliance Part 1 "Problems with Two-Dimensional Design Variables" *For more details, please refer to the PDF document or feel free to contact us.

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