PAPERmaking! g FROM THE PUBLISHERS OF PAPER TECHNOLOGY Volume 2, Number 1, 2016
x TAPPI T494 om- 06. (2006). “Tensile properties of paper and paperboard (using constant rate of elongation apparatus),” TAPPI Press, Atlanta, GA . x TAPPI T818 cm- 07. (2007). “Ring crush of paperboard (flexible beam method),” TAPPI Press, Atlanta, GA. x TAPPI T227 om- 09. (2009). “Freeness of pulp (Canadian standard method),” TAPPI Press, Atlanta, GA. x TAPPI T261 cm- 10. (2010). “Fines fraction by weight of paper stock by wet screening,” TAPPI Press, Atlanta, GA. x TAPPI T403 om- 10. (2010). “Burst strength of paper,” TAPPI Press, Atlanta, GA. x TAPPI T411 om- 10. (2010). “Thickness (caliper) of paper, paperboard, and combined board,” TAPPI Press, Atlanta, GA. x X u, Y., Chen, X., and Pelton, R. (2005). “How polymers strengthen filled papers,” TAPPI Journal 4(11), 8-12. x Zhai, R., and Zhou, X. (2014). “Enhanced effect of NaOH/thiourea/urea aqueous solution on paper strength of high yield pulp,” BioResources 9(2), 215 4-7166. DOI: 10.15376/biores.9.2.2154-2166 x Zhao, Y., Kim, D. H., White, D., Deng, Y., Patterson, T., Jones, P., Turner, E., and Ragauskas, J. A. (2008). “Developing a new paradigm for linerboard fillers,” TAPPI Journal 7(3), 3-7.
Page 10 of 10
Article 1 – Improving Retention and Strength
Made with FlippingBook Digital Publishing Software