An investigation on the effect of nanoparticle reinforcement and weld surface shape on bending behavior of rotary friction-welded high-density polyethylene

Asghari, Vahid; Kami, Abdolvahed; Bagheri, Abbasali

doi:10.1177/14644207211044126

Proceedings of the Institution of Mechanical Engineers, Part L:

2021

DOI: 10.1177/14644207211044126

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An investigation on the effect of nanoparticle reinforcement and weld surface shape on bending behavior of rotary friction-welded high-density polyethylene

Vahid Asghari

Abdolvahed Kami

Abbasali Bagheri

Abstract: In this research, high-density polyethylene rods were joined together using rotary friction-welding. The effects of nanoparticle reinforcement and weld surface shape on the welded joint strength were investigated. To this aim, high-density polyethylene rods with a length of 50 mm and a diameter of 22 mm were machined, and three weld surface shapes, that is, flat, step, and conic shapes (on male and female counterparts), were created. The high-density polyethylene rods were rotary friction-welded with the addit… Show more

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2024

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A New Approach for Enhancing Friction Welding Joint Strength

Abbas,

Hassoni,

Mohammed Ali

2024

Eng. Technol. Appl. Sci. Res.

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The current research provides a new approach for enhancing the mechanical characteristics of friction welding joints for AA 6061 T6. Friction welding depends on the contact surface area between the two parts that need to be welded to generate the frictional heat necessary for the welding process. The frictional area is increased by modifying the contact area from flat circles on both sides of the joint to three different design configurations: a truncated cone, a half sphere, and a cylinder along with their opposite cavity. Mechanical characteristics and microstructural behavior for the new joints are studied. It was elucidated that the conical design configuration is the only one that succeeded through specimen manufacturing, welding, and testing procedures. The results show an improvement in the tensile strength of the truncated cone by 12% compared to the basic flat circle configuration. Bending and Vickers Micro-Hardness (HV) also increased in the joint cross-section by 10% and 7%, respectively. The results are consistent with the microstructure tests where the cone design configuration exhibited a finer grain structure than that of the flat circle. This proves that the generated heat is greater in the new design configuration. Thus, it can be said that the current study provides a promising approach for the improvement of friction welding joint strength.

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A New Approach for Enhancing Friction Welding Joint Strength

Abbas,

Hassoni,

Mohammed Ali

2024

Eng. Technol. Appl. Sci. Res.

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show abstract

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An investigation on the effect of nanoparticle reinforcement and weld surface shape on bending behavior of rotary friction-welded high-density polyethylene

Cited by 1 publication

References 31 publications

A New Approach for Enhancing Friction Welding Joint Strength

A New Approach for Enhancing Friction Welding Joint Strength

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