Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
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Comprehensive management of all plans and executions from procurement to production and logistics.
This is a web-based production management solution that encompasses essential production planning functions, production performance management functions, and cost management functions (optional), allowing for centralized management of all information related to production.
In-plane analysis program for arbitrary shape plane frameworks.
The reinforced concrete cross-section verification program "RC Cross-Section Calculation" and the arbitrary shape frame analysis program "FRAME (In-Plane)" will be newly supported as web server applications and provided as part of the C-1 for SaaS family of products.
Enhancing the stack-up design process of printed circuit boards with high-precision field solvers, loss planning environments, and a complete library of dielectric materials.
The issue of stack-up is one of the main causes of board respins that everyone wants to avoid. Among the many stack-up tools available, only Z-planner Enterprise can enhance the stack-up design process with high-precision field solvers, loss planning environments, and a complete library of dielectric materials, all of which interface seamlessly with widely used signal integrity software. As edge rates become increasingly faster, accurate calculations of loss and impedance using real dielectric material data are essential for correctly designing the stack-up from the outset. 【Features】 • Integration of HyperLynx field solver • Unlimited number of layers and impedance groups • Advanced stack-up wizard • Compare stack-ups from various fabs against specifications and ensure DFX rules are applied • Consideration of glass properties to mitigate shifts caused by glass weaving • Import stack-ups from the manufacturing department with detailed manufacturing properties added *For more details, please download the PDF or contact us.
Design optimization support tool for utilizing composite materials in product lightweighting.
The composite material design support software HyperSizer was commercialized in 1996 based on a composite material model program developed by NASA. It aims to assist in the lightweighting of products that are cost-effective through optimal material selection, arrangement, and structure of composite materials. In today's world, where further lightweighting of products is required, the consideration of composite materials is indispensable. It works in conjunction with structural analysis software such as Abaqus and Femap with NX Nastran to optimize composite products. ■ Manufactured by Collier Research Corporation in the United States.
A single 3D product definition ensures consistency between 3D design and 2D tolerances and annotation information.
CATIA 3DMaster Designer (M3D) enables direct design definition on 3D models (also known as model-based definition), eliminating duplicate work through the generation, updating, and interpretation of 2D drawings. The Semantic Tolerancing Advisor guides designers to create consistent 3D definitions of products in compliance with standards such as ISO, ANSI/ASME, and JIS. Additionally, support is provided for master definitions to remain in 3D. Since specifications, tolerances, and annotations can be preserved in international 3D data exchange standards like STEP, 3DMaster Designer can create product and manufacturing information 100% in 3D.
![[Customer Case] Press processing company reduces trial time by one-third.](https://image.mono.ipros.com/public/product/image/c33/2001454770/IPROS79578523933194371371.jpeg?w=280&h=280)
A case where the number of tryouts was reduced from 20 to 6, and the time spent on process evaluation was also shortened.
We would like to introduce a case where the design and development process was significantly streamlined at India Steel Summit, a mold manufacturer based in Greater Noida, India. By conducting robustness analysis to ensure stability during engineering, we determined a strategy to achieve the desired part accuracy while ensuring reproducibility of results. Utilizing "AutoForm-Compensator," we not only corrected springback predictions but also performed draw shell operations on molds from the second process onward during engineering, avoiding issues caused by sheet lifting and pad forming. By digitizing springback prediction corrections, we were able to conduct preliminary review work during the engineering phase before adjusting the actual molds during tryouts. **Results** - The introduction of digital springback prediction corrections significantly streamlined the design and development process. - The number of tryouts was reduced from 20 to 6. - The time spent on process evaluation was shortened from several months to several weeks. *For more details on this case, please refer to the related links. Feel free to contact us for more information.*
![[Customer Case] Achieving "One Shot" in Prototype Mold Production for Small Lots and Diverse Products](https://image.mono.ipros.com/public/product/image/819/2001454694/IPROS96360536955301882565.jpeg?w=280&h=280)
Achieved "one-shot trial" in about 70% of the total! Realized an average reduction of 4 days in construction time and a decrease in man-hours.
We would like to introduce a case study on the implementation of "AutoForm-Compensator" for correcting mold shapes based on the calculation results of springback. At Saitama Body Co., Ltd., which specializes in prototype production and parts manufacturing for four-wheeled and two-wheeled vehicles, the correction of anticipated springback has become a challenge in the production of molds for prototypes using high-strength steel sheets ranging from 590MPa to 1200MPa, which have been on the rise in recent years. Currently, after modeling in CAD, the correction for anticipated springback is incorporated into the mold model, which is modified and created based on simulation analysis results, all executed within AutoForm's simulation to reduce labor hours. [Case Overview] - The increase in high-strength and ultra-high-strength steel sheets has made the correction of anticipated springback a challenge. - The speed of correction is crucial for small-lot, diverse prototype molding. - A significant reduction in lead time and labor hours has been achieved with "one-shot trials" in about 70% of the presses. - Satisfaction with analysis speed, with expectations for further improvement in analysis accuracy. *For more detailed information about the case, please refer to the related links. Feel free to contact us for more details.
