UNDERSTANDING RECOVERED CARBON BLACK

Author:

Norris C. J.1,Cerdán A. López2,ter Haar P.3

Affiliation:

1. 1 Murfitts Industries, Station Road, Lakenheath, Suffolk, IP27 9AD, UK

2. 2 ARTIS, Hampton Park West, Semington Road, Melksham, Wiltshire, SN12 6NB, UK

3. 3 CIRCTEC LTD., 85 Great Portland Street, London, W1W 7LT, UK

Abstract

ABSTRACT As the rubber industry turns its focus to sustainability, recovered carbon black (rCB) has emerged as a commercial candidate to replace conventional fossil-based fillers. Since rCB is a new class of rubber filler, much is still to be understood regarding which of its properties influence final applications performance. The research presented in this paper demonstrates the importance of controlling the aggregate size distribution, silica content, carbonaceous residue content, and organic residue content in producing a consistent rCB product. These parameters are also demonstrated to be the fundamental reasons behind the disparity in performance of rCB and carbon black of similar colloidal properties. The findings of this study also reveal that the properties of an rCB can be tailored for a given application with precise control of the process conditions.

Publisher

Rubber Division, ACS

Subject

Materials Chemistry,Polymers and Plastics

Reference39 articles.

1. ASTM Standard D8178-20, “Standard Terminology Relating to Recovered Carbon Black (rCB),” Annu. Book ASTM Stand . 09.01(2022).

2. Norris, C. J. Hale, M. and Bennett,M. Plast., Rubber Compos . 43, 245(2014).

3. Darmstadt, H. Roy, C. Kaliaguine, S. Sahouli, B. Blacher, S. Pirard, R. and Brouers,F. Rubber Chem. Technol . 68, 330(1995).

4. Probst N. and Loeffler,M. “Pyrolysis Carbon Black, an Opportunity for the Rubber Industry,” Paper 101, presented at the 108th Fall Meeting of the Rubber Division, ACS, Cleveland, October 11–13, 2011.

5. Karthikeyan, S. Sathiskumar, C. and Moorthy,R. J. Sci. Ind. Res. India 71, 309(2012).

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