Laser Transmittance Enthalpy Selective Component Development

Parallel18, 1250 Ave. Ponce de León, Suite 901, San Juan, PR 00907, Puerto Rico

^*Corresponding author: Solomon Ubani, Parallel18, 1250 Ave. Ponce de León, Suite 901, San Juan, PR 00907, Puerto Rico, Phone: +445603648407, E-mail: [email protected]

Received Date: February 02, 2026

Publication Date: April 03, 2026

Citation: : Ulbani S, et al. (2026). Laser Transmittance Enthalpy Selective Component Development. Material Science. 8(1):41.

Copyright: Ulbani S, et al. © (2026).

ABSTRACT

Components of high density, volume to weight ratio and enthalpy were known to withstand significant transformation in laser manufacturing. In most situations, both sides could be textured for dual fitting and allowance of longevity of the part in use. This research investigates the redesign of non-axisymmetric and symmetric parts fittings. These were typically used in joints that were high compressive and tensile in motion. The degrees of freedom in both the clockwise and anticlockwise joints were known to minimize the service life of non-planular joints. The results of this study were to prevent non-slippage of the joint and improve load balance performance. In conclusion, planular joints, especially structural mechanics, were implemented in high supportive design, in particular, where both sides were textured. In the implication, the laser would have to be used with the purpose of reduction of enthalpy and improvement of surface density of the components.

KEYWORDS: Planular, Joints, Dual, Surface Textures, Laser Enthalpy