Ultrasonic wave propagation characteristics in paper-based composite materials

¹ Moscow Power Engineering Institute, 111250 Moscow, Russia
² Building Physics Institute of Russian Academy of Building and Construction Sciences, 127238 Moscow, Russia

^* Corresponding author: This email address is being protected from spambots. You need JavaScript enabled to view it.

Abstract

This study investigates ultrasonic wave propagation velocities across the surface of a paper pulp composite material. Instrumentation error margins were quantified for all measurements. Surface wave speeds were characterized using multiple measurement approaches selected according to material texture properties. Two principal methodologies were established: parallel and cross-directional measurement techniques. Three distinct texture zones were identified: (1) dark upper crust layer, (2) gray face surface, and (3) light face surface. Comparative analysis revealed significant velocity variations between parallel and cross-method measurements. High-resolution imaging delineated transitional boundaries between texture zones. Material composition analysis identified key components of the composite system, which incorporates paper industry waste with casein-based binding agents. Potential applications in construction and industrial sectors are discussed. These findings provide relevant data for: (1) materials engineers developing cellulose-based composites, (2) academic instructors in materials science, and (3) industrial manufacturers of sustainable building materials.