Environmental Engineering Reference
In-Depth Information
conventional PU, foam slab stock production results in a product that is
~25% bio-based.
REFERENCES
Bohlmann GM. Biodegradable packaging life-cycle assessment. Environ
Prog 2004;23:342-346.
Bordes P, Pollet E, Avérous L. Nano-biocomposites: biodegradable
polyester/nanoclay systems. Prog Polym Sci 2009;34:125-155.
British Plastics Federation.
Energy in Plastics Processing—A Practical
Guide
. London: Crown Copyright; 1999.
Good Practice Guide 292
; p 18.
Bull SJ, Zhou Q. A simulation test for wear in injection moulding machines.
Wear 2001;249 (5-6):372-378.
Burdon KL. Fatty material in bacteria and fungi revealed by staining dried,
fixed slide preparations. J Bacteriol 1946;52:665-678.
Byun Y, Kim YT. Chapter 15—Utilization of bioplastics for food packaging
industry. In: Han JH, editor.
Innovations in Food Packaging
. 2nd ed.
Volume 2014, San Diego: Academic Press (Elsevier); 2014. p 369-390.
Canadian Industry Program for Energy Conservation [CIPEC].
Guide to
Energy Efficiency Opportunities in the Canadian Plastics Processing
Industry
. Ottawa: Her Majesty the Queen in Right of Canada; 2007.
Canadian Plastics Industry Association.
Guide to Energy Efficiency
Opportunities in the Canadian Plastics Processing Industry
. Ottawa: Her
Majesty the Queen in Right of Canada; 2007.
European Bioplastics/University of Applied Sciences and Arts Hanover.
Why green plastics are here to stay. Compounding World 2012; (June
Issue):45.
Franklin Associates. Cradle to gate lifecycle inventory of nine plastics resins
and four polyurethane precursors. Report prepared for the Plastics Division
of the American Chemical Council. Prairie Village: Her Majesty the Queen
in Right of Canada; 2010.
