Improvement of catheter tip morphology by mold material used for tip‐forming process

Author:

Lee Gye Jun12,Jun Wonjin13,Lee Han Chang12,Choi Seong Wook12,Kim Gyu Man2,Kim Woojin1ORCID

Affiliation:

1. Advanced Mechatronics R&D Group Korea Institute of Industrial Technology Daegu Republic of Korea

2. School of Mechanical Engineering Kyungpook National University Daegu Republic of Korea

3. Department of Mechanical System Engineering Kumoh National Institute of Technology Gumi‐si Republic of Korea

Abstract

AbstractAs interventional procedures using catheters have rapidly developed, accordingly, the incidence of polymeric embolization is also increasing, with the main cause being the flash generated during tip forming of the catheter. This study has performed to change the material of the mold used to form catheter tips to prevent flash, which is a cause of polymeric embolism. The tip‐forming performance and the flash generation according to the main parameters of the tip‐forming process were analyzed: power, heating, cooling time, and insertion pressure. In addition, we observed the effect of flash suppression according to temperature sensitivity by changing the mold material considering thermal conductivity and electrical resistivity. In particular, considering the glass transition temperature of HDPE (high‐density polyethylene), which is applied to sheath and dilator catheters, the most stable tip forming proceeds when the temperature near the tip inside the mold was about 130°C. We verified experimentally and numerically that the temperature of the pins comprising the mold plays an important role in flash generation and confirmed that the viscosity of the polymer melts is lower at 120°C than at 90°C of the pin, and flash is minimized because of the shear‐thinning behavior of the polymer melts.

Funder

Ministry of Trade, Industry and Energy

Publisher

Wiley

Subject

Materials Chemistry,Polymers and Plastics,General Chemistry,Materials Chemistry,Polymers and Plastics,General Chemistry

Reference24 articles.

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2. In Vitro Evaluation of the Insertion Force for Different Dilator Tip Configurations

3. Comparison of penetration force and catheter tip damage of intravenous catheters among different catheter tip designs;Suzuki T;Junkan Seigyo,2003

4. Polythene Catheter of New Shape for Percutaneous Selective Catheterization

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