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Simulation Software Product List

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Webinar on Cutting Process Simulation Just Before the JIMTOF2020 Event

Webinar on Cutting Process Simulation Just Before the JIMTOF2020 Event

We will introduce how simulation can be utilized to solve challenges in cutting processes, along with demonstrations and case studies. *You will hear plenty of successful examples!

This year's JIMTOF will be held online, and CTC has decided to participate in order to share information about the cutting simulation software we handle (AdvantEdge FEM, Production Module). In this seminar, we will introduce how cutting simulation can help solve customer challenges through demonstrations and case studies. Additionally, we will be collecting questions from everyone and will address them during the seminar, so please feel free to ask any questions you may have or anything that piqued your interest during the presentation. Agenda: 1. AdvantEdge FEM demonstration and case studies Confirmation of changes in cutting resistance and stress by altering the rake angle in 2D analysis. 2. Production Module demonstration and case studies Optimization of feed rates through smoothing of cutting loads on tool paths in conjunction with NX CAM. 3. Information on upcoming events. 4. Summary and Q&A session throughout the seminar.

  • Other cutting tools
  • Technical Seminar
  • 3D CAD
  • Simulation Software

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Introduction of new features in cutting process simulation

Introduction of new features in cutting process simulation

Enhanced cutting simulation supports a wide range of machining! Assisting in solving various challenges related to cutting!

We will explain the features and operations of the new versions of AdvantEdge FEM and the Production Module. In AdvantEdge FEM, it is now possible to define the movements of both the tool and the workpiece separately. This allows for the modeling of a wide range of phenomena, not only machining processes such as skiving and spinning tools but also processes like roll forming and impact analysis on metal sheets. In the Production Module, the shape of the workpiece during machining can now be output as a voxel mesh, which can be used for deformation analysis along with cutting force mapping files. 【Announcement of the Cutting CAE Conference】 The annual Cutting CAE Conference, where users utilizing cutting CAE present case studies, is scheduled to be held online on January 20, 2021. Along with the Cutting CAE Conference, we encourage you to consider participating in the webinar at this time. We sincerely look forward to your participation.

  • Other processing machines
  • Other cutting tools
  • Technical Seminar
  • Simulation Software

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[Video] Semiconductor Process & Device Simulator "NovaTCAD"

[Video] Semiconductor Process & Device Simulator "NovaTCAD"

Crosslight's TCAD integrates 2D/3D process simulators and device simulators. Free trial available!

■ A video demonstrating the automatic processing of simulations using NovaTCAD is currently available on the YouTube link below! ■ If you would like a trial version, please use the "Trial Version Application Form." (For details about the product, please refer to the product introduction materials.)

  • Other analyses
  • Simulation Software

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Support for Small and Medium Enterprises! Key Points for Utilizing Subsidies such as Support for Innovation.

Support for Small and Medium Enterprises! Key Points for Utilizing Subsidies such as Support for Innovation.

It is possible to introduce cutting simulation software along with the introduction of machine tools necessary for business operations in development and manufacturing! *There are many successful adoption cases!

Online Seminar on Utilizing Subsidies for Small and Medium Enterprises, such as Support for Strategic Foundation Technology Advancement (Sapo-in) The Ministry of Economy, Trade and Industry has a program to support research and development and prototype development for small and medium enterprises called the Strategic Foundation Technology Advancement Support Program (Sapo-in). In this seminar, we will invite a lecturer from the Osaka Science and Technology Center, which has a wealth of experience in application support for this program, to discuss the overview of the system and key points for application. It is also applicable for the introduction of the cutting simulation software AdvantEdge, so we encourage you to participate and consider utilizing it. We sincerely look forward to your participation. Program 14:00 Introduction to Cutting Simulation Itochu Techno-Solutions Corporation CAE Solutions Sales Department Mikio Hirota 14:10 Overview of the Strategic Foundation Technology Advancement Support Program (Sapo-in) and Key Points for Application ~ Based on the Achievements of the Osaka Science and Technology Center ~ Osaka Science and Technology Center Technology Promotion Department, Research Officer Mr. Yoshihiro Matsumoto 14:40 Q&A Session

  • Other cutting tools
  • Technical Seminar
  • 3D CAD
  • Simulation Software

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Utilization of subsidies such as support for small and medium-sized enterprises for the introduction of cutting simulation.

Utilization of subsidies such as support for small and medium-sized enterprises for the introduction of cutting simulation.

It is possible to introduce cutting simulation software along with the introduction of machine tools necessary for business operations in development and manufacturing! *There are many successful adoption cases!

Online Seminar on Utilizing Subsidies for Small and Medium Enterprises, including Support for Strategic Foundation Technology Advancement (Sapo-in) The Ministry of Economy, Trade and Industry has a program called the Strategic Foundation Technology Advancement Support Project (Sapo-in Project) that supports research and development and prototype development for small and medium enterprises. In this seminar, we will invite a lecturer from the Osaka Science and Technology Center, which has a wealth of experience in application support services with many successful adoptions, to discuss the overview of the system and key points for applications. The introduction of the cutting simulation software AdvantEdge is also applicable, so we encourage you to participate and consider utilizing this opportunity. We sincerely look forward to your participation. Program 14:00 Introduction to Cutting Simulation Itochu Techno-Solutions Corporation CAE Solutions Sales Department Mikio Hirota 14:10 Overview of the Strategic Foundation Technology Advancement Support Project (Sapo-in Project) and Key Points for Applications ~ Based on the Achievements of the Osaka Science and Technology Center ~ Osaka Science and Technology Center Technology Promotion Department, Research Officer Mr. Yoshihiro Matsumoto 14:40 Q&A Session

  • Other cutting tools
  • Technical Seminar
  • 3D CAD
  • Simulation Software

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PICS3D(Fabry-Perot Edition)

PICS3D(Fabry-Perot Edition)

Device simulation program specialized for semiconductor lasers in two dimensions (formerly LASTIP)

<Main Features> ■ Simulation software for semiconductor lasers based on a two-dimensional structural model ■ Calculations can be executed more lightly as effects in the resonator direction are not included ■ Convergence is smoother as the finite element calculation mesh is also set in two dimensions <Diverse Physical Models and Functions> ■ Light output-current (L-I) characteristics ■ Current-voltage (I-V) characteristics ■ Two-dimensional potential, electric field, and current distribution ■ Two-dimensional distribution of electron and hole density ■ Band diagrams under various bias conditions ■ Two-dimensional distribution of occupancy and density of deep level traps in semiconductors ■ Two-dimensional optical field distribution of multiple transverse modes ■ Two-dimensional local optical gain distribution ■ Mode-dependent refractive index dependence on bias current ■ Mode-dependent gain and refractive index change dependence on bias current ■ Dependence of spontaneous emission spectrum on current ■ Far-field distribution ■ Time evolution (transient model) and temperature dependence (uniform temperature) of all the above quantities ■ For other features and details, please download the catalog or contact us. ■ If you wish to try a trial version, please contact us using the information below.

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3D Architecture Designer Professional Office Pack

3D Architecture Designer Professional Office Pack

Office layout and simulation software that can design a single office room, one floor, multi-story levels, and an entire office building in 3DCG.

We can create office structural drawings (floor plans), layout diagrams with office furniture and equipment arranged, high-quality 3D images of office building entrances and exteriors, indoor and outdoor walkthrough movies, and PowerPoint presentation materials. In addition to manufacturer-made office furniture and supplies, we also include over 21,000 3D materials such as home furniture and equipment increasingly used in refresh spaces, parts like ornamental plants, and textures like flooring and wallpaper. By simply arranging these with a mouse, you can complete the image of the office space, making it accessible even for sales representatives who have not learned specialized design or CAD operations. Moreover, the aggregation and numbering functions for the arranged furniture can be utilized for creating estimates and planning relocation, and the information from the created office space can be transferred to existing systems or other tools. Furthermore, the office image can be output as a 360-degree panoramic image to share on social media, viewed through applications like IeCloud (3D data sharing app) and Megasoft VR solutions (separate product), or uploaded to the metaverse via GLB files.

  • Office furniture
  • Simulation Software

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Presentation of Materials: Molecular Simulation and Machine Learning for Daily Consumer Goods

Presentation of Materials: Molecular Simulation and Machine Learning for Daily Consumer Goods

Physics-based simulation and machine learning software for a wide range of users, from beginners to experts in computational chemistry.

Schrödinger provides a powerful and user-friendly integrated software solution for the research and development of consumer goods. Schrödinger's platform is designed for a wide range of users, from beginners to experts in computational chemistry, offering a simple workflow to build, simulate, and analyze real systems using advanced physics-based modeling and machine learning technology. Here, we introduce Schrödinger's applications for consumer goods research and development. ■ Food and Beverage ■ Cosmetics and Personal Care ■ Cleaning Agents ■ Packaging Materials ■ Materials Informatics

  • Embedded OS
  • Cosmetic materials and raw materials
  • Cosmetic synthesis and fermentation
  • Simulation Software

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Shipbuilding Vericut Optimizer

Shipbuilding Vericut Optimizer

Optimize NC programs to improve processing efficiency in shipbuilding.

In the shipbuilding industry, there is a demand for the efficiency of NC programs in the processing of large structures. Particularly in the processing of large components, reducing processing time, minimizing material waste, and improving accuracy are crucial. The Vericut Optimizer optimizes NC programs without using Vericut, addressing these challenges. 【Usage Scenarios】 - Processing of large hull blocks - Machining of complex-shaped components - Efficiency improvements through multi-axis machining 【Benefits of Implementation】 - Reduction in processing time - Minimization of material waste - Acceleration of time-to-market for components

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Vericut 9.6 for Machine Tools

Vericut 9.6 for Machine Tools

Performance evaluation through the fusion of AI and precision machining.

In the machine tool industry, improving product quality and productivity is always a critical issue. Particularly in parts processing that requires complex shapes and high precision, optimizing machining programs and validating them through machining simulations is essential. Inadequate programs or insufficient validation can lead to processing defects or machine damage. CGTech's Vericut 9.6 conducts simulations with G-code NC programs and supports performance evaluation for multi-axis machining, including high-precision 5-axis processing. 【Usage Scenarios】 - Performance evaluation of machine tools - Validation of machining programs - Reduction of machining time - Reduction of processing defects 【Benefits of Implementation】 - Improvement in processing quality - Increase in productivity - Cost reduction - Improvement in machine utilization rate

  • Milling machine
  • lathe
  • Other machine tools
  • Simulation Software

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Vericut 9.6 for the Defense Sector

Vericut 9.6 for the Defense Sector

Fusion of AI and precision machining for confidentiality and quality improvement.

In the defense sector, maintaining a high level of confidentiality while ensuring product quality is the top priority. Particularly in the machining of parts with complex shapes, the accuracy of NC programs is essential. Errors in the program can lead to leaks of confidential information or degradation of product performance. CGTech's Vericut 9.6 aims to faithfully simulate G-code NC programs, enhancing machining accuracy while protecting confidential information. 【Usage Scenarios】 * Machining of highly confidential parts * Use of multi-axis machining centers * Manufacturing of parts with complex shapes 【Benefits of Implementation】 * Reduced risk of information leakage through verification of G-code NC programs * Cost reduction through optimization of machining time * Improved quality through comparison of cutting models and design models

  • Milling machine
  • lathe
  • Other machine tools
  • Simulation Software

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Vericut 9.6 for Electronic Devices

Vericut 9.6 for Electronic Devices

Supporting the miniaturization of electronic devices with AI and precision machining.

In the electronics industry, there is a demand for miniaturization of products and high-precision processing. In particular, optimizing processing is essential to achieve complex shapes within limited space. If processing precision is low, it may lead to a decline in product performance and a deterioration in yield. Vericut 9.6 supports high-precision product manufacturing by optimizing processing steps through AI-driven simulation. 【Use Cases】 - Processing of enclosures for small electronic devices - Manufacturing of precision parts - Achieving complex shapes through multi-axis processing 【Benefits of Implementation】 - Reduction in processing time - Decrease in defective products - Improvement in product accuracy

  • Milling machine
  • lathe
  • Other machine tools
  • Simulation Software

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Vericut 9.6 for the Energy Industry

Vericut 9.6 for the Energy Industry

Improving energy efficiency through the fusion of AI and precision machining.

In the energy industry, there is a demand for the optimization of manufacturing processes and improvement of quality. Particularly in the precision machining of components such as turbines and generators, high accuracy and reliability are essential. Vericut 9.6 performs simulations with G-code NC programs, achieving optimization and efficiency in machining. With AI support features and an intelligent knowledge hub, it streamlines the machining process and contributes to improved energy efficiency. 【Use Cases】 * Machining of turbine blades * Manufacturing of generator components * Multi-axis machining of high-precision parts 【Benefits of Implementation】 * Reduction in machining time * Extension of tool life * Improvement in quality

  • Milling machine
  • lathe
  • Other machine tools
  • Simulation Software

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Vericut 9.6 for Shipbuilding

Vericut 9.6 for Shipbuilding

Pioneering the future of shipbuilding with AI and precision machining.

In the shipbuilding industry, as the trend towards larger sizes continues, the precision of parts and processing efficiency are becoming increasingly important. Particularly in the manufacturing of massive structures, even slight errors can significantly impact the overall quality. Vericut 9.6 enhances processing accuracy by faithfully simulating G-code NC programs and reduces unnecessary processes. It also features AI support functions to assist in optimizing complex machining processes. 【Usage Scenarios】 - Machining of large ship parts - Machining of complex-shaped parts - Utilization of multi-axis machining machines 【Effects of Implementation】 - Reduction in processing time - Decrease in defective products - Cost reduction

  • Milling machine
  • lathe
  • Other machine tools
  • Simulation Software

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Optimization of Tool Life by Force for Molds

Optimization of Tool Life by Force for Molds

Extend tool life in mold processing with Vericut Force.

In the mold industry, high-precision machining and the longevity of tools are required simultaneously. Early wear and damage to tools can lead to decreased productivity and increased costs, making proper tool management essential. Vericut Force contributes to extending tool life by optimizing NC programs and reducing the load on tools. 【Usage Scenarios】 - Maximizing tool life in mold machining - Achieving high-precision mold machining - Reducing machining time 【Benefits of Implementation】 - Reduced frequency of tool changes - Increased productivity - Cost reduction

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  • Milling machine
  • Simulation Software

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Vericut 9.6 for Heavy Industry

Vericut 9.6 for Heavy Industry

Improving the durability of heavy industry through the fusion of AI and precision machining.

In the heavy industry sector, the durability and reliability of products are the most important issues. To manufacture products that can withstand use in harsh environments, improving machining accuracy is essential. Vericut 9.6 supports the optimization of machining and quality improvement by simulating machine tools using G-code NC programs. This contributes to enhancing product durability. 【Application Scenarios】 * Machining of large machine parts * Manufacturing of parts requiring high precision * Multi-axis machining and complex processing 【Effects of Implementation】 * Reduction in machining time * Extension of tool life * Improvement in product quality

  • Milling machine
  • lathe
  • Other machine tools
  • Simulation Software

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Improving Processing Safety with Vericut for Medical Devices

Improving Processing Safety with Vericut for Medical Devices

We will enhance the safety of CNC machining in medical device manufacturing with Vericut.

In the medical device industry, the safety and reliability of products are the top priorities. The precision of CNC machining directly affects the performance of medical devices and patient safety. Machining defects and tool breakage can lead to product defects and unexpected accidents. Vericut reduces these risks through CNC machining simulation. 【Usage Scenarios】 * CNC machining of medical device parts * Manufacturing of complex-shaped parts * Production of parts requiring high precision 【Benefits of Implementation】 * Improvement in machining accuracy * Reduction of tool breakage and collision risks * Enhanced product reliability

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Aerospace-oriented NC program optimization by Force

Aerospace-oriented NC program optimization by Force

Vericut Force optimizes NC programs in the aerospace field.

In the aerospace industry, there is a demand for high-quality parts and a reduction in manufacturing costs. Particularly in the machining of parts with complex shapes, the optimization of NC programs is crucial. Inadequate NC programs can lead to increased machining time, reduced tool life, and a decline in part quality. Vericut Force optimizes NC programs, supporting reduced machining time, improved tool life, and the production of high-quality parts. 【Usage Scenarios】 * High-precision machining of aerospace parts * Machining of complex-shaped parts * Multi-axis machining 【Benefits of Implementation】 * Reduction in machining time * Extension of tool life * Achievement of high-quality part manufacturing

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  • Milling machine
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Vericut 9.6 for molds

Vericut 9.6 for molds

Improving the precision of mold processing through the fusion of AI and precision machining.

In the mold industry, there is a constant demand for improving the precision of molds, which directly affects product quality. Particularly for molds that require complex shapes and high precision, reducing machining errors is crucial. Vericut 9.6 conducts machining simulations using G-code NC programs, contributing to the improvement of mold machining accuracy through pre-inspection of overcutting/undercutting by comparing cutting models with design models, and optimizing NC programs considering tool load. 【Usage Scenarios】 - High-precision mold machining - Complex shape mold machining - Multi-axis machining 【Benefits of Implementation】 - Improved machining accuracy - Reduction of defective products - Shortened machining time

  • Milling machine
  • lathe
  • Other machine tools
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Vericut 9.6 for Medical Devices

Vericut 9.6 for Medical Devices

Improving the safety of medical device manufacturing with AI and precision machining.

In the medical device industry, the safety and reliability of products are the top priorities. CNC-machined medical device parts require high precision and quality, as they directly impact patient safety. Even a slight mistake in machining can lead to product malfunction or risks to patients. Vericut 9.6 reduces these risks by simulating G-code NC programs at the stage of machining to verify accuracy. 【Usage Scenarios】 - Safety verification in CNC machining of medical device parts - Interference checks in machining complex-shaped parts - Cost reduction through optimization of machining time 【Benefits of Implementation】 - Improved product reliability by reducing machining errors - Shortened development time by reducing the number of prototypes - Mitigation of cost increases due to machining defects

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Speeding up with Vericut Optimizer for the automotive industry

Speeding up with Vericut Optimizer for the automotive industry

We will optimize the NC program to improve the processing efficiency of automotive parts.

In the automotive industry, there is a constant demand for shortening product development cycles and reducing costs. In particular, optimizing NC programs during the prototyping and mass production stages is essential for reducing machining time, minimizing material waste, and enabling early market entry of parts. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. This allows for the streamlining of NC programs without changing the existing CAM environment, contributing to enhanced competitiveness in automotive parts manufacturing. 【Usage Scenarios】 - Optimization of NC programs in the prototyping and mass production of automotive parts - Cost reduction through shortened machining time - Minimization of material waste 【Effects of Implementation】 - Reduction in machining time - Decrease in material costs - Shortened time to market for parts

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Improving Machining Accuracy with Vericut for the Automotive Industry

Improving Machining Accuracy with Vericut for the Automotive Industry

Improving the quality and efficiency of automotive parts processing with CNC simulation.

In the automotive industry, there is a demand for high-quality parts and efficient manufacturing processes. Particularly for parts related to safety, high machining precision is essential. However, machining defects and tool breakage can lead to losses in time and costs. Vericut ensures machining accuracy by simulating the entire CNC machining process, deriving the "correct" result in a single operation. 【Usage Scenarios】 * Prototyping and mass production of automotive parts * 5-axis machining, complex machining, multi-surface machining * Quality control, process improvement 【Benefits of Implementation】 * Improved machining precision * Reduction of defective products * Cost reduction

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Maximizing Mold Life with Vericut for Molds

Maximizing Mold Life with Vericut for Molds

Vericut achieves efficiency and quality improvement in mold processing.

In the mold industry, the lifespan of molds is a crucial factor directly linked to productivity and cost. Early wear or damage to molds can lead to production interruptions, increased repair costs, and a decline in the quality of the final product. Vericut aims to prevent these issues through CNC machining simulation and extend the lifespan of molds. 【Usage Scenarios】 * Verification of machinability during the mold design phase * Extension of tool life through optimization of NC programs * Prevention of mold damage through anomaly detection during machining 【Benefits of Implementation】 * Reduction of mold manufacturing costs * Improvement of production efficiency * Achievement of high-quality molds

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Yield Improvement with Vericut for Semiconductors

Yield Improvement with Vericut for Semiconductors

Improving semiconductor manufacturing yield with CNC simulation.

In the semiconductor manufacturing industry, there is a demand for the efficient production of high-quality products. In particular, high-precision processing is essential, as even slight errors can significantly affect yield. Issues in CNC machining, such as tool breakage, processing defects, and material waste, are major factors contributing to yield reduction. Vericut ensures processing accuracy by simulating the entire CNC machining process, preventing these problems before they occur. 【Usage Scenarios】 * CNC machining processes in semiconductor manufacturing * Processing verification during the prototyping stage * Optimization of NC programs before mass production 【Benefits of Implementation】 * Improved yield through reduced processing defects * Extended tool life * Reduced material waste * Shortened test run times

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Optimization of Micromachining by Force for Medical Devices

Optimization of Micromachining by Force for Medical Devices

Optimizing NC programs for precision machining of medical devices with Vericut Force.

In the medical device industry, the precision of micro-machining is crucial for ensuring product quality and safety. Particularly for precision components such as implants and surgical instruments, there is a demand for reduced machining time and improved tool life. Inadequate NC programming can lead to machining defects and premature tool wear, potentially resulting in increased costs. Vericut Force addresses these challenges by optimizing NC programs and improving machining time and tool life. 【Application Scenarios】 - Micro-machining of medical device components - Implant manufacturing - Surgical instrument manufacturing 【Benefits of Implementation】 - Reduced machining time - Extended tool life - Improved machining accuracy

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Machining Optimization with Vericut 9.6 for the Automotive Industry

Machining Optimization with Vericut 9.6 for the Automotive Industry

Innovating the manufacturing of automotive parts through the fusion of AI and precision machining.

In the automotive industry, there is a demand for the efficient manufacturing of high-quality parts. Particularly for parts with complex shapes or those requiring high precision, reducing machining time and improving quality are important challenges. Vericut 9.6 addresses these challenges by performing machining simulations using G-code NC programs. Its AI integration feature optimizes the machining process and contributes to increased productivity. 【Use Cases】 - Reducing machining time in the prototyping and mass production of automotive parts - Efficient manufacturing of complex-shaped parts through multi-axis machining - Reducing machining defects and improving quality 【Benefits of Implementation】 - Maximizing machining time - Extending tool life - Improving machining precision

  • Milling machine
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Vericut 9.6 for Watch Manufacturing

Vericut 9.6 for Watch Manufacturing

Improving the quality and efficiency of watch parts through the fusion of AI and precision machining.

In the watch manufacturing industry, there is a demand for the efficient production of high-quality watch components. Particularly for parts that require complex shapes and fine processing, balancing machining accuracy and productivity is crucial. Machining defects and process delays can lead to a decline in product quality and increased costs. Vericut 9.6 addresses these challenges through AI-powered simulation and optimization features. 【Usage Scenarios】 - Machining of complex-shaped watch components - Optimization of tool paths in fine processing - Simulation of multi-axis machining 【Benefits of Implementation】 - Reduction in machining time - Improvement in machining accuracy - Extension of tool life - Reduction of defective products

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Lightweighting and Reliability Improvement with Vericut for Aerospace Applications

Lightweighting and Reliability Improvement with Vericut for Aerospace Applications

Vericut streamlines CNC machining in the aerospace industry and supports lightweight design.

In the aerospace industry, lightweight components and high reliability are required. In particular, improving machining accuracy is essential for enhancing aircraft fuel efficiency and ensuring safety. Even slight errors in CNC machining or tool damage can lead to a decline in component quality and increased costs. Vericut supports machining accuracy and lightweight design by simulating the entire CNC machining process. It derives the "correct" result in a single machining operation, reducing unnecessary material and rework. 【Use Cases】 - Manufacturing of aircraft components - Manufacturing of rocket components - Manufacturing of drone components 【Benefits of Implementation】 - Reduced machining time - Minimized material waste - Extended tool life - Stable supply of high-quality components

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  • Simulation Software

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Aerospace Version Vericut 9.6

Aerospace Version Vericut 9.6

Improving aircraft safety with AI and precision machining.

In the aerospace industry, the precision of part machining is extremely important to ensure the safety and reliability of aircraft. In particular, accurate manufacturing without machining errors is required for structural and engine components of aircraft. Vericut 9.6 addresses these challenges by simulating machine tools using G-code NC programs and detecting collisions and machining defects in advance. Vericut supports a wide variety of machine tools, including multi-axis machining such as high-efficiency, high-precision 5-axis machining, as well as lathes, composite machines, and multi-surface machining machines. 【Use Cases】 * Manufacturing of aircraft parts * Machining of complex shapes with high collision risk * Machining of parts requiring high precision 【Benefits of Implementation】 * Reduction of machining errors * Improvement of aircraft safety * Reduction of manufacturing costs

  • Milling machine
  • lathe
  • Other machine tools
  • Simulation Software

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Improved Durability with Vericut Optimizer for Heavy Industry

Improved Durability with Vericut Optimizer for Heavy Industry

Improving processing efficiency and durability of heavy industrial products through NC program optimization.

In the heavy industry sector, the long-term reliability and safety of products are the top priorities. To manufacture products that can withstand harsh environments, it is necessary to balance processing accuracy and durability. Optimizing NC programs contributes to reducing processing time, extending tool life, and improving product quality, ultimately leading to enhanced product durability. The Vericut Optimizer addresses these challenges without changing the existing CAM environment. 【Use Cases】 - Machining of parts subjected to high loads - Manufacturing of products that can withstand long-term use - Machining of parts that require strict quality standards 【Benefits of Implementation】 - Cost reduction through shorter processing times - Cost reduction through extended tool life - Improvement in product quality - Reduction in defective products

  • simulator
  • Simulation Software

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