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ブロー成形シミュレーション Product List

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B-SIM Blow Molding Simulation for the Automotive Industry

B-SIM Blow Molding Simulation for the Automotive Industry

Blow molding simulation for achieving weight reduction.

In the automotive industry, lightweighting is a crucial challenge for improving fuel efficiency and reducing environmental impact. Blow molding technology can contribute to the production of lightweight and high-strength parts, but advanced simulation is essential for optimal shape design. B-SIM accurately reproduces time-dependent deformations and supports optimal shape design for lightweighting. 【Application Scenarios】 - Fuel tanks - Intake manifolds - Ducts 【Benefits of Implementation】 - Improved fuel efficiency through lightweighting - Reduction in the number of prototypes - Shortened design period

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B-SIM Blow Molding Simulation for Cosmetic Containers

B-SIM Blow Molding Simulation for Cosmetic Containers

High-precision simulation of blow molding for highly designed cosmetic containers.

In the cosmetics industry, there is a demand for highly designed containers that catch the consumer's eye. In particular, complex shapes and thin-walled molding can easily become manufacturing challenges, potentially leading to an increase in the number of prototypes and costs. B-SIM supports a wide range of processes from direct blow to injection and stretch blow, contributing to solving these challenges by accurately reproducing time-dependent deformation using the K-BKZ model. The parison and preform shapes can be input using the B-SIM template, and can also be imported from Ansys and STL files. It accurately reproduces blow molding with a variety of settings, including clamp position, temperature of the parison and preform, thickness distribution, friction and heat transfer with the mold, timing of the blow, and direction of mold movement. 【Application Scenarios】 - Prototyping of highly designed containers - Optimization of thickness distribution in thin-walled molding - Prediction and countermeasures for molding defects 【Benefits of Implementation】 - Reduction in the number of prototypes - Cost reduction - Manufacturing of high-quality containers

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Aerospace Blow Molding Simulation B-SIM

Aerospace Blow Molding Simulation B-SIM

Support for lightweight design, high-precision reproduction of time-dependent deformation.

In the aerospace industry, there is a demand for component designs that achieve both lightweight and high strength. Particularly for components with complex shapes, it is crucial to accurately predict material behavior during the molding process and to conduct optimal designs. Inadequate designs can lead to insufficient strength of components and increased manufacturing costs. B-SIM supports lightweight design by accurately reproducing time-dependent deformations using the K-BKZ model. 【Application Scenarios】 - Design of aircraft components - Design of rocket components - Design of drone components 【Benefits of Implementation】 - Component designs that balance lightweight and strength - Reduction in the number of prototypes - Shortening of design periods

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Medical Blow Molding Simulation B-SIM

Medical Blow Molding Simulation B-SIM

High-precision reproduction of time-dependent deformation using the K-BKZ model.

In the medical industry, precision molding prioritizes product quality and safety as the most critical issues. Particularly for medical device components that require complex shapes and thin-walled molding, it is essential to minimize the risk of molding defects and to make accurate predictions during the design phase. B-SIM contributes to improving product reliability by simulating time-dependent deformations with high precision. 【Application Scenarios】 - Design of medical containers - Prediction of molding defects in precision parts - Reduction of prototype iterations 【Benefits of Implementation】 - Reduced risk of molding defects - Improved quality during the design phase - Cost reduction

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B-SIM Blow Molding Simulation for Home Appliance Manufacturers

B-SIM Blow Molding Simulation for Home Appliance Manufacturers

Simulate blow molding to reduce the number of prototypes and achieve cost reduction.

In the home appliance industry, improving product quality and reducing costs are important challenges. In blow molding, optimizing mold design significantly impacts product quality and cost. It is necessary to reduce the number of prototypes and eliminate material waste. B-SIM addresses these challenges through blow molding simulation. 【Usage Scenarios】 - Container design for home appliances - Reduction of prototype iterations - Reduction of material costs 【Benefits of Implementation】 - Improved quality through optimized mold design - Shortened prototype development time - Cost reduction

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B-SIM Blow Molding Simulation for Sports Equipment

B-SIM Blow Molding Simulation for Sports Equipment

Achieving improved durability of sports equipment through simulation.

In the sports industry, the durability of products affects performance and safety. In particular, product designs that can withstand impacts and repeated use are required. Insufficient durability can increase the risk of product failure and injury. The blow molding simulation program B-SIM accurately reproduces time-dependent deformation and assists in designing products to enhance durability. 【Application Scenarios】 - Design of sports equipment (helmets, protectors, etc.) - Simulation before impact testing - Balancing product lightweighting and durability 【Effects of Implementation】 - Improved product durability - Reduction in the number of prototypes - Shortened design period

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B-SIM Blow Molding Simulation for Agriculture

B-SIM Blow Molding Simulation for Agriculture

Improving the water retention of soil amendments. High precision reproduction of time dependence.

In the agricultural sector, improving soil moisture retention is a crucial factor that affects crop growth. This is especially important in arid regions or when there is a desire to reduce the effort of watering. The performance of soil amendments becomes vital in these cases. The shape and composition of soil amendments can significantly alter moisture retention, necessitating appropriate design. The blow molding simulation program B-SIM accurately simulates time dependency and large deformations in the design of soil amendment shapes, allowing for the exploration of optimal shapes. 【Application Scenarios】 - Design of soil amendment shapes - Product development aimed at improving moisture retention - Cost reduction 【Benefits of Implementation】 - Enhanced moisture retention through optimal shape design - Reduction in the number of prototypes - Shortened product development time

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