CGTech List of Products and Services

In the railway industry, extending the lifespan of vehicle components and ensuring safety are crucial. Components that can withstand harsh operating environments require high machining precision and durability. Optimizing NC programs is essential to meet these demands. Vericut Force achieves reduced machining time, extended tool life, and improved component quality by optimizing NC programs. 【Usage Scenarios】 - Manufacturing of railway vehicle components - Machining of components requiring high precision - Situations where tool life needs to be extended 【Benefits of Implementation】 - Reduced machining time - Extended tool life - Improved component quality

• Milling machine

In the shipbuilding industry, there is a demand for reduced processing time and improved tool life in the manufacturing of large structures. As the size of structures increases, the efficiency of NC programs becomes essential for cost reduction and productivity improvement. Inadequate NC programs can lead to increased processing time, premature tool wear, and even machine failures. Vericut Force addresses these challenges by optimizing NC programs, shortening processing time, and extending tool life. 【Usage Scenarios】 - Processing of large hull components - Machining of complex-shaped parts - Multi-axis machining 【Benefits of Implementation】 - Reduced processing time - Extended tool life - Cost reduction - Improved productivity

• Milling machine

In the robotics industry, precise movements and efficient operations are required. Especially for robots that perform complex movements and precise tasks, optimizing NC programs is essential for improving performance and reducing costs. Inappropriate programming can lead to delays in operation and damage to tools. The NC program optimization solution, Force, analyzes cutting conditions and optimizes NC programs to streamline robot operations. 【Application Scenarios】 - Parts processing by robots - Robot motion simulation - Reduction of robot cycle time 【Benefits of Implementation】 - Reduction in processing time - Extension of tool life - Improvement in robot performance

• Milling machine

In the energy industry, there is always a demand for reducing manufacturing costs. Particularly in the production of power generation equipment and related components, shortening processing time directly leads to cost reduction. Optimizing NC programs significantly contributes to cost savings by reducing processing time and extending tool life. Vericut Force quickly and easily optimizes NC programs to meet the cost reduction needs of the energy industry. 【Usage Scenarios】 - Manufacturing of power generation turbine blades - Machining of components for energy-related equipment - Maintenance of plant equipment 【Benefits of Implementation】 - Reduction in processing time - Extension of tool life - Reduction in manufacturing costs - Streamlining of NC programs

• Milling machine

In the precision machinery industry, high product quality is essential. Optimizing NC programs is important for enhancing machining accuracy and reducing the occurrence of defective products. Vericut Force contributes to quality improvement by physically analyzing NC programs and deriving optimal cutting conditions. [Usage Scenarios] - High-precision parts machining - Machining of complex shapes - Manufacturing of products with high quality requirements [Effects of Implementation] - Improvement in machining accuracy - Reduction of defective products - Assurance of stable quality

• Milling machine

In the semiconductor manufacturing industry, there is a constant demand for improvements in product quality and production efficiency. Particularly in the machining of complex-shaped parts, the optimization of NC programs becomes a crucial factor that affects yield. Inappropriate NC programs can lead to machining defects and tool damage, ultimately resulting in a decrease in yield. Vericut Force contributes to yield improvement by quickly and easily optimizing NC programs and reducing machining time. [Usage Scenarios] - Machining of complex-shaped parts in semiconductor manufacturing - Reduction of machining time through NC program optimization - Cost reduction through extended tool life [Effects of Implementation] - Reduction of machining time - Extension of tool life - Improvement of yield

• Milling machine

In the machine tool industry, there is a constant demand for reducing machining time and improving tool life. Optimizing NC programs addresses these challenges and contributes to increased productivity. Vericut Force achieves a reduction in machining time and an extension of tool life by analyzing cutting conditions and optimizing NC programs. 【Usage Scenarios】 * Reduction of machining time through the efficiency of NC programs * Cost reduction through extended tool life * Improvement in the quality of machining 【Effects of Implementation】 * Significant savings in cycle time * Enhanced performance of cutting tools * Prevention of undesirable cutting conditions such as overloads

• Milling machine

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

• Milling machine

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

• Milling machine

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

• Milling machine

In the automotive industry, there is always a demand for increased productivity and reduced lead times. Particularly in parts processing, the efficiency of NC programs is crucial. Inadequate NC programs can lead to increased processing times, reduced tool life, and higher costs. Vericut Force quickly and easily optimizes NC programs, significantly shortening processing times. 【Usage Scenarios】 - Reduction of processing time in the prototyping and mass production of automotive parts - Cost reduction through the efficiency of NC programs - Extension of tool life 【Effects of Implementation】 - Shortened processing times - Extended tool life - Cost reduction through the optimization of NC programs

• Milling machine

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

• simulator

In the watch manufacturing industry, high precision and reliability are required in the processing of precision parts. Especially for watch components that require complex shapes and fine machining, even slight errors can greatly affect the quality of the product. Tool damage and processing defects in CNC machining not only lead to increased costs but can also harm the brand image. Vericut ensures processing accuracy by simulating the entire CNC machining process, deriving the "correct" result in a single operation. 【Usage Scenarios】 - Machining of precise gears and cases - Machining of complex-shaped components - Utilization of multi-axis machining machines 【Benefits of Implementation】 - Improvement in processing accuracy - Reduction of tool damage and processing defects - Cost reduction - Stabilization of quality

• simulator

In the defense industry, the machining of highly confidential components requires high precision and reliability. Especially for parts that use complex shapes or special materials, it is crucial to minimize the risk of machining errors and ensure consistent quality. Vericut addresses these challenges through CNC machining simulation. By faithfully reproducing G-code NC programs and conducting pre-validation of machining processes, it reduces the risk of confidential information leakage and enables the efficient production of high-quality products. 【Usage Scenarios】 * Machining of highly confidential components * Machining verification during the prototyping stage * Multi-axis machining and complex machining 【Benefits of Implementation】 * Reduction of machining errors * Protection of confidential information * Cost reduction

• simulator

In the energy industry, the durability of components used in harsh environments, such as plants and power generation equipment, is crucial. To withstand high loads and maintain stable performance over long periods, high precision in CNC machining is essential. Issues such as non-operational machines, damaged tools, costly collision troubles, discarded parts, prolonged test runs, and wasted materials can drain valuable time and costs. Vericut ensures machining accuracy by simulating the entire CNC machining process, leading to the "correct" result in a single operation. 【Application Scenarios】 * Machining of turbine blades * Machining of generator components * Machining of plant equipment parts 【Benefits of Implementation】 * Improved component durability through enhanced machining accuracy * Cost reduction by minimizing defective products * Shortened test run times

• simulator

In the electronics industry, there is a demand for miniaturization of products and high-precision processing. As components become more complex, the accuracy of processing has become a crucial factor that influences product performance. Processing defects can reduce product yield and lead to increased costs. Vericut supports the assurance of processing accuracy and the manufacturing of products according to design by simulating the entire CNC processing. 【Usage Scenarios】 * Precision machining of small electronic components * Manufacturing of complex-shaped parts through multi-axis processing * Processing verification during the prototyping stage 【Benefits of Implementation】 * Improvement in processing accuracy * Reduction in the number of prototypes * Cost reduction

• simulator

In the machine tool industry, there is a constant demand for reducing processing time and minimizing defective products. Especially in today's world, where high-precision processing is required, the occurrence of processing errors can lead to significant losses. Vericut aims to ensure processing accuracy by simulating the entire CNC machining process, striving to derive the "correct" result in a single operation. 【Usage Scenarios】 * Multi-axis machining * Lathe and composite machine processing * Multi-surface machining 【Benefits of Implementation】 * Reduction in processing time * Decrease in defective products * Prevention of tool damage

• simulator

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

• simulator

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

• simulator

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

• simulator

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

• simulator

In the 3D printing industry, there is a demand for increased efficiency and quality improvement in the post-processing stage after printing. In particular, accurate code conversion and smooth data integration are crucial for the finishing of printed objects and collaboration with CNC machining. Inadequate data conversion can compromise product accuracy and lead to rework. The Vericut Icam post-processor optimizes the post-processing stage after 3D printing, maximizing the efficiency and precision of the manufacturing process. This reduces cumbersome tasks and enhances productivity. 【Usage Scenarios】 - Post-processing of products created with a 3D printer - Finishing processes through CNC machining - Integration between CAM systems and CNC machines 【Benefits of Implementation】 - Improved product accuracy through precise code conversion - Reduced process time through smooth data integration - Optimal machining tailored to the characteristics of CNC machines - Machining simulation using digital twins

• simulator

In the robotics industry, efficient manufacturing through the collaboration of CNC machining and robots is required. Particularly in the processing of complex-shaped parts and in low-volume, high-variety production, the accuracy of CNC programs and smooth data integration with robots are crucial. Inadequate programming or data integration can lead to processing errors and delays in the workflow. The Vericut Icam post-processor enables seamless integration with existing CAD systems and CNC machines, maximizing the efficiency and accuracy of the manufacturing process. This reduces cumbersome tasks and enhances productivity. 【Usage Scenarios】 - Transporting and processing parts with robots - Data integration between CNC machines and robots - Automation of processes in low-volume, high-variety production 【Benefits of Implementation】 - Increased productivity through the collaboration of CNC machining and robots - Reduced processing time - Decreased errors

• simulator

In the precision machinery industry, there is a demand for high precision in products and a reduction in manufacturing lead times. Particularly in the machining of complex-shaped parts, the optimization of NC programs is essential for balancing quality and productivity. Inadequate NC programs can lead to increased machining time and a decrease in product accuracy. The Vericut Icam post-processor enables smooth integration with existing CAD systems and CNC machines, maximizing the efficiency and precision of the manufacturing process. This reduces cumbersome tasks and enhances productivity. 【Usage Scenarios】 - High-speed, high-precision machining of precision parts - Machining of complex-shaped parts - Small-batch production of various types 【Effects of Implementation】 - Reduction in machining time - Improvement in product accuracy - Reduction of in-process defects

• simulator

In the shipbuilding industry, the precision and efficiency of CNC machining are crucial for the manufacturing of large structures. Particularly in the processing of hulls and large components, accurate NC programs capable of handling complex shapes and large sizes are required. Inaccurate code can lead to defective parts and increased manufacturing time. The Vericut Icam post-processor enables smooth integration with existing CAD systems and CNC machines, maximizing the efficiency and accuracy of the manufacturing process. This reduces cumbersome tasks and enhances productivity. 【Usage Scenarios】 - CNC machining of large hull components - Machining of complex-shaped parts - Utilization of multi-axis machining machines 【Effects of Implementation】 - Reduction of machining time - Decrease in defective products - Improvement in productivity

• simulator

In the semiconductor manufacturing industry, high precision and efficiency in microfabrication are required to enhance product quality and improve yield. Particularly in the processing of parts with complex shapes and fine structures, the accuracy of NC programs is crucial. Inaccurate programs can lead to defective products and increased processing time. The Vericut Icam post-processor enables smooth integration with existing CAD systems and CNC machines, maximizing the efficiency and accuracy of the manufacturing process. This reduces cumbersome tasks and improves productivity. 【Usage Scenarios】 - Manufacturing of microfabricated parts - Processing of complex-shaped parts - Multi-axis machining 【Effects of Implementation】 - Reduction in processing time - Decrease in defective products - Improvement in productivity

• simulator

In the machine tool industry, the compatibility between various CAM systems and CNC machines is a crucial factor that influences the efficiency and precision of the machining process. Due to the challenges of data conversion between different systems and the need for customization to match the characteristics of CNC machines, the introduction of an optimal post-processor is required. The Vericut Icam post-processor addresses these challenges and enables the optimization of CNC machining. 【Usage Scenarios】 - Companies using various CAM systems and CNC machines - Companies wanting to perform optimal code conversion for each type of CNC machine - Companies aiming to improve machining accuracy by utilizing digital twins 【Benefits of Implementation】 - Smooth integration between CAM systems and CNC machines - Improved machining accuracy through customization tailored to the characteristics of CNC machines - Machining simulation and optimization using digital twins

• simulator

In the energy industry, high precision and efficiency are required in the manufacturing of components that support critical infrastructure such as power generation equipment and transmission networks. Particularly for components used in harsh environments, the accuracy of processing affects the reliability of the products. The Vericut Icam post-processor addresses these challenges through the optimization of CNC machining. 【Application Scenarios】 - Manufacturing of turbine blades, pump components, valves, etc. - Precision machining using CNC machine tools - Quality control and cost reduction 【Benefits of Implementation】 - Reduction in processing time - Decrease in defective products - Improvement in productivity

• simulator

In the medical device industry, the safety and reliability of products are the top priorities. In CNC machining, precise processing according to design is required, and even slight errors are not tolerated. Inaccurate machining can lead to product malfunctions and risks to patients. The Vericut Icam post-processor improves the accuracy of CNC machining and ensures the safety of medical devices. 【Application Scenarios】 - Manufacturing of medical devices such as implants and surgical instruments that require high precision - Machining of medical parts with complex shapes - Reducing risks associated with errors in CNC programs 【Benefits of Implementation】 - Improved product quality due to enhanced machining accuracy - Reduction of rework and reprocessing due to errors - Ensuring patient safety

• simulator

In the mold industry, the precision and reliability of CNC machining are crucial for quality assurance. Since molds require high precision, even slight errors can significantly impact product quality. The Vericut Icam post-processor maximizes the efficiency and accuracy of the machining process through smooth integration with existing CAD systems and CNC machines, helping to address challenges in quality assurance. 【Usage Scenarios】 - Verification of NC programs in mold machining - Quality confirmation through machining simulation - Optimization of machining time 【Benefits of Implementation】 - Reduction of machining defects - Stabilization of quality - Cost reduction

• simulator

In the automotive industry, there is a demand for the efficient manufacturing of high-quality parts. The precision and efficiency of CNC machining are directly linked to product quality and productivity. The Icam post-processor enables smooth integration between existing CAD/CAM systems and CNC machines, maximizing the efficiency and accuracy of the manufacturing process. This reduces cumbersome tasks and enhances productivity. 【Usage Scenarios】 - CNC machining of automotive parts - Reduction of machining time - Streamlining of process management 【Effects of Implementation】 - Optimization of machining time - Reduction of defective products - Improvement of productivity

• simulator

In the aerospace industry, high-quality components and efficient manufacturing processes are essential. In particular, parts related to aircraft safety require high precision and reliability. The Vericut Icam post-processor optimizes data conversion between CAM systems and CNC machines, improving machining accuracy. This contributes to the reduction of defective products, cost savings, and shorter delivery times. 【Usage Scenarios】 - Manufacturing of aircraft components - Machining of complex-shaped parts - Production of parts requiring high precision 【Benefits of Implementation】 - Improved machining accuracy - Reduction of defective products - Decreased manufacturing costs - Shortened delivery times

• simulator

In the watch manufacturing industry, there is a demand for the efficient production of high-quality products. Particularly for watch components where design is emphasized, machining precision and surface finishing are crucial. The optimization of NC programs is essential for enhancing these elements. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. It supports the reduction of machining time, the minimization of material waste, and the realization of high-quality products in the watch manufacturing field. 【Usage Scenarios】 - Machining of high-precision watch components - Manufacturing of complex-shaped parts - Efficiency improvement through multi-axis machining 【Benefits of Implementation】 - Reduction of machining time - Minimization of material waste - Realization of high-quality products

• simulator

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

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

• simulator

In the electronics industry, there is a simultaneous demand for miniaturization and high performance of products. Therefore, optimizing NC programs to reduce processing time, minimize material waste, and enable rapid market introduction of components is crucial. The Vericut Optimizer addresses these challenges. 【Usage Scenarios】 * Precision machining of small electronic components * Manufacturing of complex-shaped parts through multi-axis machining * Efficiency improvement of NC programs in prototyping and mass production 【Benefits of Implementation】 * Reduction in processing time * Decrease in material costs * Shortening of product market introduction time

• simulator

In the precision machinery industry, the miniaturization and high precision of products are advancing, making the optimization of NC programs crucial. Particularly in micro-machining, there is a demand for reduced processing time, extended tool life, and high machining accuracy. Inappropriate NC programs can lead to machining defects and premature tool wear, potentially resulting in decreased productivity. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. It optimizes NC programs output from CAM systems, improves machining efficiency, reduces material waste, and accelerates the time to market for parts. 【Usage Scenarios】 - Manufacturing of micro-machined parts - Manufacturing of parts requiring high precision machining - Manufacturing of complex-shaped parts through multi-axis machining 【Benefits of Implementation】 - Reduction of processing time - Extension of tool life - Improvement of machining accuracy - Reduction of material waste

• simulator

In the machine tool industry, there is always a demand for reducing machining time and extending tool life. Particularly in the machining of complex-shaped parts, optimizing NC programs is essential for improving productivity. Inappropriate NC programs can lead to increased machining time and premature tool wear. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. This significantly improves machining efficiency, reduces material waste, and accelerates the time to market for parts. 【Usage Scenarios】 * Multi-axis machining (3-axis, 4-axis, 5-axis) 【Benefits of Implementation】 * Reduction in machining time * Extension of tool life * Reduction of material waste

• simulator

In the energy industry, efficiency and quality in the manufacturing of components are crucial. Particularly for high-precision parts used in power generation equipment and plants, there is a demand for reduced processing time and improved quality. Optimizing NC programs addresses these challenges and contributes to cost reduction and enhanced product reliability. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. Even if you are satisfied with your CAM verification software, the Vericut Optimizer is the optimal choice. 【Use Cases】 - Machining of power generation turbine blades - Manufacturing of plant equipment components - Production of renewable energy-related parts 【Benefits of Implementation】 - Reduction in processing time - Minimization of material waste - Improvement in component quality - Cost reduction

• simulator

In the medical device industry, the safety and reliability of products are the top priorities. Deficiencies in NC programs can lead to processing defects and equipment malfunctions, potentially jeopardizing patient safety. The Vericut Optimizer enhances processing accuracy and reduces potential risks by optimizing NC programs. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. Even if you are satisfied with your current CAM verification software and have no intention of purchasing Vericut, the Vericut Optimizer is the optimal choice. 【Usage Scenarios】 - Manufacturing of medical device parts - Processing of implants and surgical instruments - Improvement of quality control and safety 【Benefits of Implementation】 - Improved processing accuracy - Reduction of defective products - Assurance of patient safety

• simulator

In the mold industry, high-precision processing that affects product quality is essential. Particularly for molds that require complex shapes and fine processing, optimizing NC programs becomes crucial. Inappropriate NC programs can lead to decreased processing accuracy, tool damage, and increased processing time. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. It optimizes NC programs output from CAM systems, achieving improved accuracy and efficiency in mold processing. 【Usage Scenarios】 - High-precision mold processing - Processing of complex shapes - Multi-axis processing (3-axis, 4-axis, 5-axis) 【Benefits of Implementation】 - Improved processing accuracy - Extended tool life - Reduced processing time - Decreased material waste

• simulator

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

• simulator

In the aerospace industry, there is a trend towards increasing complexity and high quality of parts, which demands a reduction in processing time and effective use of materials. Particularly for parts that use expensive materials and require high precision, optimizing NC programs is crucial. Inappropriate NC programs can lead to increased processing time, premature tool wear, and material waste. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. It optimizes NC programs output from CAM systems, improving processing efficiency. 【Usage Scenarios】 - Manufacturing aerospace components - Manufacturing parts that require high-precision processing - Multi-axis machining (3-axis, 4-axis, 5-axis) 【Benefits of Implementation】 - Reduction in processing time - Decrease in material waste - Extension of tool life - Acceleration of time-to-market for parts

• simulator

In the aerospace industry, there is a trend towards increasing complexity and high quality of parts, which demands a reduction in processing time and effective use of materials. Particularly for parts that use expensive materials and require high precision, optimizing NC programs is crucial. Inappropriate NC programs can lead to increased processing time, premature tool wear, and material waste. The Vericut Optimizer is an NC program optimization solution that can operate independently without using Vericut. It optimizes NC programs output from CAM systems, enhancing processing efficiency. 【Usage Scenarios】 - Manufacturing aerospace components - Manufacturing parts that require high-precision machining - Multi-axis machining (3-axis, 4-axis, 5-axis) 【Benefits of Implementation】 - Reduction in processing time - Decrease in material waste - Extension of tool life - Acceleration of time-to-market for parts

• simulator

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

• Milling machine
• lathe
• Other machine tools