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Main Authors: Mercado-Colmenero, J. M., Garcia-Molina, D. F., Gutierrez-Jimenez, B., Martin-Donate, C.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.20732
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author Mercado-Colmenero, J. M.
Garcia-Molina, D. F.
Gutierrez-Jimenez, B.
Martin-Donate, C.
author_facet Mercado-Colmenero, J. M.
Garcia-Molina, D. F.
Gutierrez-Jimenez, B.
Martin-Donate, C.
contents The intricate design of real complex injection molds poses significant challenges. Mold design vali-dation often falls to operators with tool-handling experience but limited CAD proficiency. Unlike other industries, the scale and costs of injection mold fabrication hinder prototyping before pro-duction. Virtual reality (VR) has emerged as a revolutionary solution offering a safe, immersive, and realistic experience and accessible using QR codes. This paper presents a new multimodal virtual environment tailored to validate mold design complexities. Integrating knowledge-enriched visual tools like interactive 3D models and dynamic visualizations enables users to explore complex mold designs. Statistical analyses, including the Wilcoxon test, unveil significant differences in interference detection, internal topology tracking, and validation of assembly and disassembly accessibility for both small and large mold components when comparing validation conducted through traditional means using solely CAD systems versus the utilization of multidimensional validation methods. Efficiency gains in using VR devices for mold design validation in a hybrid environment in the analysis of relative frequencies. The present study surpasses the state of the art illustrating how VR technology can substantially reduce manufacturing errors in injection molding processes, thereby offering important advantages for manufacturers emerging as an essential tool for this impact in-dustry in the next years.
format Preprint
id arxiv_https___arxiv_org_abs_2507_20732
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Enhancing Complex Injection Mold Design Validation Using Multicombined RV Environments
Mercado-Colmenero, J. M.
Garcia-Molina, D. F.
Gutierrez-Jimenez, B.
Martin-Donate, C.
Numerical Analysis
The intricate design of real complex injection molds poses significant challenges. Mold design vali-dation often falls to operators with tool-handling experience but limited CAD proficiency. Unlike other industries, the scale and costs of injection mold fabrication hinder prototyping before pro-duction. Virtual reality (VR) has emerged as a revolutionary solution offering a safe, immersive, and realistic experience and accessible using QR codes. This paper presents a new multimodal virtual environment tailored to validate mold design complexities. Integrating knowledge-enriched visual tools like interactive 3D models and dynamic visualizations enables users to explore complex mold designs. Statistical analyses, including the Wilcoxon test, unveil significant differences in interference detection, internal topology tracking, and validation of assembly and disassembly accessibility for both small and large mold components when comparing validation conducted through traditional means using solely CAD systems versus the utilization of multidimensional validation methods. Efficiency gains in using VR devices for mold design validation in a hybrid environment in the analysis of relative frequencies. The present study surpasses the state of the art illustrating how VR technology can substantially reduce manufacturing errors in injection molding processes, thereby offering important advantages for manufacturers emerging as an essential tool for this impact in-dustry in the next years.
title Enhancing Complex Injection Mold Design Validation Using Multicombined RV Environments
topic Numerical Analysis
url https://arxiv.org/abs/2507.20732