Utilization of Leather Waste Fibers in Polymer Matrix Composites Based on Acrylonitrile-Butadiene Rubber.

Le Thuy Hang,Do Quoc Viet,Pham Anh Tuan,Van-Duong Dao,Vu Anh Doan,Hai-Linh Thi Dang,Nguyen Pham Duy Linh

doi:10.3390/polym13010117

Abstract

In this study, we present the fabrication of nitrile butadiene rubber/waste leather fiber (NBR/WLF) composites with different weight percentages of WLF and NBR (0/100, 20/80, 30/70, 40/60, 50/50, 60/40 wt/wt). WLF was prepared by cutting the scrap leathers from the waste product of the Vietnamese leather industry. Subsequently, in order to make the short fibers, it was mixed by a hammer mill. The characteristics of WLF/NBR composites such as mechanical properties (tensile strength, tear strength, hardness), dynamic mechanical properties, toluene absorption, and morphology were carefully evaluated. As a result, the tensile strength and tear strength become larger with increasing WLF content from 0 to 50 wt% and they decrease when further increasing WLF content. The highest tensile strength of 12.5 MPa and tear strength of 72.47 N/mm were achieved with the WLF/NBR ratio of 50/50 wt%. Both hardness and resistance of the developed materials with toluene increased with increasing WLF content. The SEM results showed a good adhesion of NBR matrix and the WLF. The increasing of storage modulus (E’) in comparison with raw NBR showed good compatibility between WLF and NBR matrix. This research showed that the recycled material from waste leather and NBR was successfully prepared and has great potential for manufacturing products such as floor covering courts and playgrounds, etc.

Highlights

The generated waste products from the leather industry are annually causing a serious problem for the environment and human health [1,2]
We presented the reuse of waste leather fiber (WLF) in the fabrication of WLF/Nitrile butadiene rubber (NBR) composites with different weight percentages of WLF and NBR (0/100, 20/80, 30/70, 40/60, 50/50, 60/40 wt%)
It can be seen that the ite, increased from forand to 0.498 N.m for 60/40 WLF/NBR

Summary

Introduction

The generated waste products from the leather industry are annually causing a serious problem for the environment and human health [1,2]. One of the main issues is the presence of noxious chemicals, especially heavy metal ions, which are quite complicated to deal with, such as Cr (III) and Cr (VI) after the tanning process [2,3]. Recycling such materials is one of the largest concerns of society. Due to the presence of amine groups [6] and carboxyl groups [8] in the collagen structure, it can be expected that the leather can be highly compatible with the polar polymer matrix

Methods

Results

Conclusion