Amplification Ratio of a Recycled Plastics-Compliant Mechanism Flexure Hinge

Uyen, Tran Minh The; Minh, Pham Son; Nguyen, Van-Thuc; Do, Thanh Trung; Nguyen Le Dang, Hai; Nguyen, Van Thanh Tien

doi:10.3390/app132312825

Applied Sciences

2023

DOI: 10.3390/app132312825

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Amplification Ratio of a Recycled Plastics-Compliant Mechanism Flexure Hinge

Tran Minh The Uyen,

Pham Son Minh,

Van-Thuc Nguyen

et al.

Abstract: This research focuses on the fabrication of plastic flexure hinges from diverse plastics such as ABS, PP, HDPE, and LDPE. To enhance hinge efficiency, the recycling ratios are also investigated. The amplification ratio of different recycle ratios and plastic types are measured. The results show that the input and output displacements of all PP, ABS, and HDPE hinges are linear. The presence of recycled plastics has no impact on this basis. The pure PP, ABS, and HDPE flexure hinges achieve the highest amplificat… Show more

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2024

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Enhancing Amplification in Compliant Mechanisms: Optimization of Plastic Types and Injection Conditions

Minh,

Nguyen,

Uyen

et al. 2024

Polymers

Self Cite

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This study surveys the impacts of injection parameters on the deformation rate of the injected flexure hinge made from ABS, PP, and HDPE. The flexure hinges are generated with different filling time, filling pressure, filling speed, packing time, packing pressure, cooling time, and melt temperature. The amplification ratio of the samples between different injection parameters and different plastic types is measured and compared to figure out the optimal one with a high amplification ratio. The results show that the relationship between the input and output data of the ABS, PP, and HDPE flexure hinges at different injection molding parameters is a linear relation. Changing the material or many injection molding parameters of the hinge could lead to a great impact on the hinge’s performance. However, changing each parameter does not lead to a sudden change in the input and output values. Each plastic material has different optimal injection parameters and displacement behaviors. With the ABS flexure hinge, the filling pressure case has the greatest amplification ratio of 8.81, while the filling speed case has the lowest value of 4.81. With the optimal injection parameter and the input value of 105 µm, the ABS flexure hinge could create a maximum average output value of 736.6 µm. With the PP flexure hinge, the melt temperature case achieves the greatest amplification ratio of 6.73, while the filling speed case has the lowest value of 4.1. With the optimal injection parameter and the input value of 128 µm, the PP flexure hinge could create a maximum average output value of 964.8 µm. The average amplification ratio values of all injection molding parameters are 6.85, 5.41, and 4.01, corresponding to ABS, PP, and HDPE flexure hinges. Generally, the ABS flexure hinge has the highest amplification ratios, followed by the PP flexure hinge. The HDPE flexure hinge has the lowest amplification ratios among these plastic types. With the optimal injection parameter and the input value of 218 µm, the HDPE flexure hinge could create a maximum average output value of 699.8 µm. The results provide more insight into plastic flexure hinges and broaden their applications by finding the optimal injection parameters and plastic types.

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Enhancing Amplification in Compliant Mechanisms: Optimization of Plastic Types and Injection Conditions

Minh,

Nguyen,

Uyen

et al. 2024

Polymers

Self Cite

View full text Add to dashboard Cite

show abstract

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Amplification Ratio of a Recycled Plastics-Compliant Mechanism Flexure Hinge

Cited by 1 publication

References 36 publications

Enhancing Amplification in Compliant Mechanisms: Optimization of Plastic Types and Injection Conditions

Enhancing Amplification in Compliant Mechanisms: Optimization of Plastic Types and Injection Conditions

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