Vericut: Shortening Machining Times in Moldmaking Industry
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Vericut Showcases Solutions for streamlining the Mold Industry at INTERMOLD KOREA 2025
Table of Contents
- Vericut Showcases Solutions for streamlining the Mold Industry at INTERMOLD KOREA 2025
- Vericut for Mold Manufacturing: Your Questions Answered
- What is Vericut and what solutions does it provide?
- How does Vericut’s digital-twin technology work?
- Why is Vericut focusing on machining time reduction for the mold industry?
- What is Vericut Force and what specific benefits does it offer?
- What is INTERMOLD KOREA and what was Vericut’s role in it?
- How does CNC simulation software, like Vericut, compare to customary CAM software, such as DELMIA?
- What are the broader implications of adopting CNC simulation and optimization software.
Cutting-edge software aims to enhance competitiveness in a challenging market.
Mold Industry Seeks Competitive edge with Specialized Solutions
The mold industry, a cornerstone of South Korea’s manufacturing sector, faces important headwinds due to recent domestic and international challenges. In response, efforts are underway to bolster the industry’s competitiveness through specialized solutions tailored for mold manufacturing.
Vericut Highlights CNC Simulation and Optimization at INTERMOLD KOREA 2025
Vericut, a solutions-oriented company established in 1988 and integrated into the sandvik Group in 2020, participated in the 27th International Mold & Related Industries Exhibition (INTERMOLD KOREA 2025).The event, held from March 11th to 14th at Ilsan KINTEX and hosted by the Korea Die & Mold Industry cooperative, served as a platform to showcase Vericut’s innovative offerings.
Vericut’s Digital-Twin Technology
The Vericut solution is a CNC simulation and machining speed optimization software. It employs sophisticated digital-twin technology that validates NC programs using G-code to replicate equipment movements. This provides verification of machining shapes, error and collision detection, over/under cut and electrode verification, overload removal, and machining time reduction.
Focus on Machining Time Reduction
Im Jae-young, CEO of Vericut, stated, 베리컷 소프트웨어는 처음에 항공기 위주로 개발돼 시뮬레이션과 최적화가 장점
. He further added, 최근 금형 산업의 경기가 좋지 않기 때문에 가공 시간 단축이나 원가절감에 대한 요구가 커지고 있는데, 베리컷은 가공시간 단축에 초점을 맞추고 베리컷 포스라는 기능을 소개하기 위해 이번 인터몰드 코리아
Vericut for Mold Manufacturing: Your Questions Answered
Everything you need to know about Vericut and its solutions for the mold industry.
What is Vericut and what solutions does it provide?
vericut is a CNC simulation and optimization software designed to verify NC programs and optimize machining processes. It’s a solution-oriented company that was founded in 1988 and became a part of the Sandvik Group in 2020. Vericut’s primary goal is to detect errors, prevent collisions, and optimize machining efficiency before actual production begins, saving time and reducing costs.
- CNC simulation software that checks NC programs for collisions and errors before machining.
- Offers solutions for vericut Force Optimization
How does Vericut’s digital-twin technology work?
Vericut utilizes digital-twin technology to create a virtual replica of the CNC machining habitat. This involves:
- Validating NC programs using G-code to mimic equipment movements.
- Verifying machining shapes and detecting any errors or collisions.
- Checking for over/under cuts and electrode accuracy.
- Eliminating overloads.
- Reducing overall machining time.
By simulating the entire CNC process,digital-twin technology helps identify potential issues before they occur in the physical world.
Why is Vericut focusing on machining time reduction for the mold industry?
The mold industry in South Korea, and globally, faces numerous challenges, including increased competition and economic headwinds. Im Jae-young, CEO of Vericut, acknowledges the rising demand for cost reduction and minimized machining time within the mold industry. Vericut addresses these concerns by:
- Focusing on features like Vericut force, designed to optimize cutting speeds and feed rates.
- Originally designed for the aerospace industry,Vericut brings established simulation and optimization advantages to mold manufacturing.
- Vericut helps to reduce errors and machine downtime.
By reducing production time and costs, the mold industry can improve its competitiveness.
What is Vericut Force and what specific benefits does it offer?
Vericut Force is a module within Vericut designed to optimize the speeds by analyzing the cutting conditions and material properties.By constantly adjusting the feed rates, Vericut Force can:
- Reduce machining time while maintaining the desired surface finish.
- Extend tool life by preventing overloads and excessive wear.
- Improve part quality by ensuring consistent cutting conditions.
Vericut force, therefore, helps manufacturers achieve greater efficiency, lower costs, and improved part quality.
What is INTERMOLD KOREA and what was Vericut’s role in it?
INTERMOLD KOREA is the International Mold & Related Industries Exhibition. In 2025 (the 27th iteration of the event),it was held from March 11th to 14th at Ilsan KINTEX and was hosted by the Korea Die & Mold Industry cooperative. Vericut participated in INTERMOLD KOREA 2025 to:
- Showcase its CNC simulation and optimization software.
- Highlight the benefits of their solutions for the mold manufacturing industry.
- Introduce the Vericut Force feature, emphasizing machining time reduction.
The event served as a platform for Vericut to connect with industry professionals and demonstrate how its technology can enhance competitiveness and efficiency in mold manufacturing.
How does CNC simulation software, like Vericut, compare to customary CAM software, such as DELMIA?
While both CNC simulation software and CAM (computer-Aided Manufacturing) software are involved in the CNC machining process, they serve different purposes and offer unique benefits. Here’s a comparison, including a mention of DELMIA as a CAM software example:
| Feature | CNC Simulation Software (e.g., Vericut) | CAM Software (e.g., DELMIA) |
|---|---|---|
| Primary Function | Verifies and optimizes NC programs by simulating the machining process. | Generates NC programs and machine toolpaths from CAD models. |
| Focus | Error detection, collision avoidance, machining optimization, and G-code verification. | Toolpath creation, machine code generation, and process planning. |
| Digital Twin | Employs digital twins to replicate machine behavior and detect errors. | May include simulation capabilities, but the primary focus is on toolpath generation. |
| Optimization | Optimizes cutting speeds, feed rates, and toolpaths to reduce machining time and improve efficiency. | Optimizes toolpaths for efficient material removal and surface finish quality. |
| Integration | Integrates with CAM systems for seamless transfer of NC programs and simulation data. | Integrates with CAD and PLM systems for a seamless design-to-manufacturing process. |
| Key Benefits | Reduced errors,fewer collisions,optimized machining,extended tool life,and improved part quality. | Efficient toolpath generation, improved machine utilization, and streamlined manufacturing processes. |
What are the broader implications of adopting CNC simulation and optimization software.
By integrating CNC simulation and optimization software into manufacturing processes, companies can achieve transformative improvements that enhance operational efficiency and drive growth. The adoption of software in manufacturing processes lead to:
- Reduced production costs
- Enhanced part quality
- Minimized machine downtime
- Improved competitiveness