Diagnostic study of ancient Durium phonographic discs

Sound recording and reproducing was first obtained by T. A. Edison in 1877 by using the phonograph cylinder. In 1929 a technology to produce phonograph discs based on the coating of a cardboard substrate with a phenol formaldehyde resin, impressed in order to form sound grooves, was introduced in the USA. The commercial name of such discs was Durium and they soon became a cheaper and more easily used substitute of the shellac and bakelite used for traditional record productions. Durium discs were widely used in Europe since the 30's [1].The Institute for Sound and Audiovisual Heritage (ICBSA) of the Italian Minister of Cultural Heritage (MiBAC) holds a collection of about 1500 Durium discs dated from the 30's to the 50's (Fig. 1). Fig. 1 A Durium disc (diameter 24 cm) labeled "Hit of the week" made in the USA in 1930. The right image shows the cardboard back side. The sound recording lasts 2 minutes and 16 seconds.The Durium discs made by coupling cardboard and plastic material have shown over time strong deformations that make them unreadable with the classic turntables. Therefore a project started aimed at recovering of the sound heritage through the characterization of the constituent materials of the discs and the experimentation of innovative procedures for restoration and digital preservation.Here we report on the non-destructive analysis based on optical, infrared and THz spectroscopies [2,3] for the characterization of the constituent materials of the Durium discs owned by ICBSA. Quantitative information on the morphology of the different layers and grooves have been obtained by microscopic imagining and by an innovative THz imaging approach. Results provided useful information for the planning of the restoration interventions.[1] On this type of disk see also http://hitoftheweek.blogspot.com/ searching 'Hans Koert'.[2] M Missori, D Pawcenis, J Bagniuk, A Mosca Conte, C Violante, MS Maggio, M Peccianti, O Pulci, J ?ojewska, Microchemical Journal 142 (2018) 54-61[3] M. Peccianti, R. Fastampa, A. Mosca Conte, O. Pulci, C. Violante, J. ?ojewska, M. Clerici, R. Morandotti and M. Missori,Phys. Rev. Applied 7 (2017) 064019-1-064019-7.