Environmentally safe preservation and stabilization of natural rubber latex in an acidic environment

Author:

Rodríguez Urbina J. C.1,Osswald T. A.2ORCID,Estela Garcia J. E.2,Román A. J.2ORCID

Affiliation:

1. SOAN Laboratorios Bogotá Colombia

2. Polymer Engineering Center, Department of Mechanical Engineering University of Wisconsin‐Madison Madison Wisconsin USA

Abstract

AbstractNatural rubber is an indispensable raw material that supplies about half of the world's rubber consumption. The latex that is extracted from the trees is composed of polyisoprene rubber, proteins, sugars, amino acids, lipids, and minerals. When the liquid latex emanates from the trees, it comes into contact with bacteria that cause it to decompose and coagulate. To hinder the decomposition and destabilization process, ammonia and other environmental and health hazard chemicals are added to the latex. The addition of these chemicals affects the health of plantation and rubber industry workers and results in residues that are contaminated with these chemicals, which require that processing facility effluents undergo costly treatment processes. Here, we present two novel liquid latex preservation and stabilization methods in an acid medium free of ammonia or other dangerous chemicals. The first method uses dodecyl benzene sulfonic acid to both stabilise and preserve the liquid latex, and the second uses ethoxylated tridecyl alcohol to stabilise and hydrofluoric acid to preserve the colloidal suspension. Both formulations result in rubber with superior mechanical properties, that is safe for the rubber plantation and industry workers, and with residues that no longer adversely affect the environment.

Publisher

Wiley

Subject

General Medicine

Cited by 3 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Natural Rubber Latex on Medical Applications;Journal of Community Medicine and Health Solutions;2023-12-06

2. Evaluation of an ammonia‐free natural rubber latex adhesive;SPE Polymers;2023-11-21

3. Innovation in natural rubber latex coagulation using CO2 microbubbles;Chemical Engineering and Processing - Process Intensification;2023-11

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