Machine learning assisted optimization of blending process of polyphenylene sulfide with elastomer using high speed twin screw extruder | Scientific Reports – Nature.com

Masamoto, J. Poly(p-phenylene sulfide). In Polymer Data Handbook (ed. Mark, J. E.) 714–721 (Oxford University Press, 1999).

Google Scholar 

Fink, J. K. Poly(phenylene sulfide). In High Performance Polymers 2nd edn (ed. Mark, J. E.) 129–151 (Elsevier, 2014).

Google Scholar 

Zuo, P. Y., Tcharkhtchi, A., Shirinbayan, M., Fitoussi, J. & Bakir, F. Overall investigation of poly(phenylene sulfide) from synthesis and process to applications: A review. Macromol. Mater. Eng. 304, 1800686 (2019).

Google Scholar 

Isayev, A. I. (ed.) Encyclopedia of Polymer Blends Vol. 1 (Wiley, 2010).

Google Scholar 

Subramanian, M. N. Polymer Blends and Composites: Chemistry and Technology (Wiley, 2017).

Google Scholar 

Masamoto, J. & Kubo, K. Elastomer-toughened poly(phenylene sulfide). Polym. Eng. Sci. 36, 265–270 (1996).

CAS 

Google Scholar 

Lee, S. I. & Chun, B. C. Effect of EGMA content on the tensile and impact properties of poly(phenylene sulfide) EGMA blends. Polymer 39, 6441–6447 (1998).

CAS 

Google Scholar 

Horiuchi, S. & Ishii, Y. Poly(phenylene sulfide) and low-density polyethylene reactive blends: Morphology, tribology, and moldability. Polym. J. 32, 339–347 (2000).

CAS 

Google Scholar 

Oyama, H. T., Matsushita, M. & Furuta, M. High performance reactive blends composed of poly(p-phenylene sulfide) and ethylene copolymers. Polym. J. 43, 991–999 (2011).

CAS 

Google Scholar 

Source: https://www.nature.com/articles/s41598-021-03513-3