PAPERmaking! Vol5 Nr1 2019

 PAPERmaking! FROM THE PUBLISHERS OF PAPER TECHNOLOGY  Volume 5, Number 1, 2019

Molded Pulp Products Manufacturing: Process Development, Characterization and Modeling , Mattia Didone, PhD Thesis, Manufacturing Engineering, Department of Mechanical Engineering, Technical University of Denmark, Produktionstorvet, 2800, Kgs. Lyngby, Denmark. The matter of this thesis is the development, characterisation and ultimately modelling of the manufacturing process of moulded pulp products. In particular, focus was placed on studying and optimising the drying step, as the cost of energy required may be from eight to twenty times that needed for pre-forming. NANO-SCIENCE A bio-mechanical process for cellulose nanofiber production – Towards a greener and energy conservation solution, Xiuyu Liu et al, Carbohydrate Polymers , Vol.208. Enzyme pretreatment prior to mechanical grinding in cellulose nanofiberes production was fully explored in order to save mechanical energy and to find an alternative to chemical treatment, thus reducing the environmental impact of the process. Grinding energy was determined in terms of total energy, effective energy, and was related to nanofibre yield. Fibre morphology, crystalline and chemical structures were analysed to reveal the mechanisms behind enzyme actions. The results showed that with enzyme pretreatment, the effective energy was reduced by 60%, and yield of nanofibres was increased by 76%. Comparative study of aramid nanofiber (ANF) and cellulose nanofiber (CNF), Bin Yang et al, Carbohydrate Polymers , Vol.208. Cellulose nanofibre (CNF) has faced challenges toward advanced applications due to the poor water resistance, wet strength, and poor thermal stability. The fabrication methods, morphologies and dispersibility between CNF and aramid nanofibre (ANF) were compared. Then the mechanical strength, especially the retention of wet strength (RWS), optical property, UV shielding, wettability and thermal stability of CNF and ANF nanopapers were further investigated. The results show that ANF and ANF nanopaper have significant advantages in dispersibility, water resistance, wet strength, thermal stability and UV-blocking ability over the CNF and CNF nanopaper. This work demonstrates that the ANF could be an ideal alternative to CNF for advanced nanocomposites. A novel method for preparing microcrystalline cellulose from bleached chemical pulp using transition metal ions enhanced high temperature liquid water process, Xiaopeng Yue et al, Carbohydrate Polymers , Vol.208. A novel method for preparing microcrystalline cellulose (MCC) from bleached chemical pulp based on the transition metal ion-enhanced high temperature liquid water (HTLW) process was established in this study. Transition metal ions (Fe3+, Cu2+ or Cr3+) were used to enhance the depolymerization effect of HTLW treatment on fibres. The transition metal ion-enhanced HTLW treatment provides an acid free method for preparing MCC. Preparation and characterization of cellulose nanofibrils from coconut coir fibers and their reinforcements in biodegradable composite films, Jun Wu et al, Carbohydrate Polymers , Vol.211. Coconut waste husks were effectively utilised in this study as a promising cellulose source for production of purified coir cellulose (PCC) after multiple treatments, e.g., ultrasonic-assisted solvent immersion, alkaline treatment, bleaching, etc. The cellulose nanofibrils were comprehensively characterised in terms of their functional groups, crystallinity, morphology, and thermal stability. The potential reinforcement of CCNFs as a filler for biodegradable PVA based films was investigated.

 

Technical Abstracts 

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