Author:
Gallet--Pandellé Alia,Rinaldi Renaud G.,Dalmas Florent,Kurita Hiroki,Narita Fumio
Publisher
Springer Science and Business Media LLC
Reference39 articles.
1. Ballany J, Littlejohn D, Pethrick RA, Quye A (2000) Probing the factors that control degradation in museum collections of cellulose acetate artefacts. In: Cardamone JM, Baker MT (eds) Historic textiles, papers, and polymers in museums, vol 779. ACS symposium series. American Chemical Society, Washington, DC, pp 145–165
2. Bao C (2015) Cellulose acetate/plasticizer systems: structure, morphology and dynamics. NNT: 2015LYO10049. tel-01186696. Polymers. Université Claude Bernard - Lyon I
3. Böhler S, Bartel M, Bohn A, Jacob R, Ganster J, Büsse T, Balko J (2020) Highly dense cellulose acetate specimens with superior mechanical properties produced by fused filament fabrication. Polymer 194:122388. https://doi.org/10.1016/j.polymer.2020.122388
4. Castro-Casado D (2021) Chemical treatments to enhance surface quality of FFF manufactured parts: a systematic review. Prog Addit Manuf 6(2):307–319. https://doi.org/10.1007/s40964-020-00163-1
5. Charvet A (2019) Study of mechanical properties and damage mechanisms in plasticized cellulose acetate polymers. NNT: 2019LYSE1032. tel-02165223. Material Chemistry. Université de Lyon