A Numerical Study on the Effect of Gate Position to the Structural Integrity of Plastic Injection-Molded Biomedical Implants

Steven O. Otieno; Fredrick Mwema; Edwell T. Mharakurwa; Abiodun Bayode

doi:10.3390/engproc2025084069

A Numerical Study on the Effect of Gate Position to the Structural Integrity of Plastic Injection-Molded Biomedical Implants

Steven O. Otieno, Fredrick Mwema, Edwell T. Mharakurwa, Abiodun Bayode

Mechanical and Construction Engineering Department

Research output: Contribution to journal › Conference article › peer-review

Abstract

Optimizing the injection molding process for making biomedical implants is essential to avoid defects that impact patient safety and implant performance. This study examines how different gate positions affect defect rates in injection-molded polyether ether ketone (PEEK) pedicle screws, using numerical modeling to analyze melt flow, cavity pressure, sink mark depth, warpage, and Von Mises stress across four gate configurations. The findings show that gate position significantly influences structural integrity, with strategically placed gates reducing defects by promoting uniform flow. Gate configuration 2 was optimal, yielding minimal sink depth, low warpage, and low stress, while configuration 4 was the least effective as it was associated with higher values of defect rates. Carefully selecting gate positions can enhance the quality and reliability of biomedical implants.

Original language	English
Article number	69
Number of pages	7
Journal	Engineering Proceedings
Volume	84
Issue number	1
DOIs	https://doi.org/10.3390/engproc2025084069
Publication status	Published - 20 Feb 2025
Event	The 8th Mechanical Engineering, Science and Technology International Conference - Perlis, Malaysia Duration: 11 Dec 2024 → 12 Dec 2024 https://mest.umam.edu.my/2024/content/8th-mechanical-engineering-science-and-technology-mest2024

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10.3390/engproc2025084069Licence: CC BY

engproc-84-00069Final published version, 1.78 MBLicence: CC BY

Cite this

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title = "A Numerical Study on the Effect of Gate Position to the Structural Integrity of Plastic Injection-Molded Biomedical Implants",

abstract = "Optimizing the injection molding process for making biomedical implants is essential to avoid defects that impact patient safety and implant performance. This study examines how different gate positions affect defect rates in injection-molded polyether ether ketone (PEEK) pedicle screws, using numerical modeling to analyze melt flow, cavity pressure, sink mark depth, warpage, and Von Mises stress across four gate configurations. The findings show that gate position significantly influences structural integrity, with strategically placed gates reducing defects by promoting uniform flow. Gate configuration 2 was optimal, yielding minimal sink depth, low warpage, and low stress, while configuration 4 was the least effective as it was associated with higher values of defect rates. Carefully selecting gate positions can enhance the quality and reliability of biomedical implants.",

author = "Otieno, {Steven O.} and Fredrick Mwema and Mharakurwa, {Edwell T.} and Abiodun Bayode",

year = "2025",

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journal = "Engineering Proceedings",

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note = "The 8th Mechanical Engineering, Science and Technology International Conference, MEST2024 ; Conference date: 11-12-2024 Through 12-12-2024",

url = "https://mest.umam.edu.my/2024/content/8th-mechanical-engineering-science-and-technology-mest2024",

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T1 - A Numerical Study on the Effect of Gate Position to the Structural Integrity of Plastic Injection-Molded Biomedical Implants

AU - Otieno, Steven O.

AU - Mwema, Fredrick

AU - Mharakurwa, Edwell T.

AU - Bayode, Abiodun

PY - 2025/2/20

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N2 - Optimizing the injection molding process for making biomedical implants is essential to avoid defects that impact patient safety and implant performance. This study examines how different gate positions affect defect rates in injection-molded polyether ether ketone (PEEK) pedicle screws, using numerical modeling to analyze melt flow, cavity pressure, sink mark depth, warpage, and Von Mises stress across four gate configurations. The findings show that gate position significantly influences structural integrity, with strategically placed gates reducing defects by promoting uniform flow. Gate configuration 2 was optimal, yielding minimal sink depth, low warpage, and low stress, while configuration 4 was the least effective as it was associated with higher values of defect rates. Carefully selecting gate positions can enhance the quality and reliability of biomedical implants.

AB - Optimizing the injection molding process for making biomedical implants is essential to avoid defects that impact patient safety and implant performance. This study examines how different gate positions affect defect rates in injection-molded polyether ether ketone (PEEK) pedicle screws, using numerical modeling to analyze melt flow, cavity pressure, sink mark depth, warpage, and Von Mises stress across four gate configurations. The findings show that gate position significantly influences structural integrity, with strategically placed gates reducing defects by promoting uniform flow. Gate configuration 2 was optimal, yielding minimal sink depth, low warpage, and low stress, while configuration 4 was the least effective as it was associated with higher values of defect rates. Carefully selecting gate positions can enhance the quality and reliability of biomedical implants.

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