2270
Cellulose (2016) 23:2249–2272
Marulier C, Dumont PJ, Orge´as L, Rolland du Roscoat S, Caillerie D (2015) 3D analysis of paper microstructures at the scale of fibres and bonds. Cellulose 22:1517–1539. doi:10.1007/s10570-015-0610-6 Matheas J, Erdt M, Altmann S (2011) Zugversuch: simulation liefert mehr als Labor. PTS-News 10:6 McCallum (1957) A new wet-web strength tester and its application in paper mill process reseach and control. Pulp Pap Mag Can 48:232–240 McKenzie AW (1984) The structure and properties of paper Part XXI: the diffusion theory of adhesion applied to interfibre bonding. Appita J 37:580–583 Michon SGL, Polman IE, Staniszewski P, Militz H (1994) The use of a microtensile strength bench for testing the strength of growth rings of softwoods and hardwoods parallel to the grain. Holz als Roh- und Werkst 52:176–178 Miettinen P, Ketoja J, Klingenberg D (2007) Simulated strength of wet fibre networks. J Pulp Pap Sci 33:198–205 Miettinen PPJ, Kekko P, Kouko J (2009) Relaxation of wet paper by simulations and laboratory-scale experiments. Nord Pulp Pap Res J 24:381–387. doi:10.3183/NPPRJ- 2009-24-04-p381-387 Mu¨ller M (2010) Propapier PM2 GmbH—ein Gigant von Weltk- lasse. Wochenblatt fu¨r Papier Fabrikation 138:272–280 Myllytie P (2009) Interactions of polymers with fibrillar struc- ture of cellulose fibres: a new approach to bonding and strength in paper. PhDThesis, University of Technology Myllytie P, Holappa S, Paltakari J, Laine J (2009) Effect of polymers on aggregation of cellulose fibrils and its impli- cation on strength development in wet paper web. Nord Pulp Pap Res J 24:125–134. doi:10.3183/NPPRJ Nanko H, Ohsawa J (1989) Mechanisms of fibre bond formation. In: Baker CF, Punton VW (eds) Advances in paper science and technology—9th fundamental research symposium: fundamentals of papermaking, vol 2., Mechanical engineer- ing publications limited London, Cambridge, pp 783–830 Nazhad MM, Harris EJ, Dodson CT, Kerekes RJ (2000) The influence of formation on tensile strength of papers made from mechanical pulps. Tappi J 83:63–71 Nelson P, Kalkipsakis C (1964a) The behavior of salts of a car- boxymethylated eucalypt kraft pulp. TAPPI 47:170–176 Nelson P, Kalkipsakis C (1964b) The Carboxymethylation of a Eucalypt Kraft Pulp. TAPPI 47:107–109 Neuman R (1993) Surface force measurement in paper making systems. In: Baker CF (ed) Products of papermaking—10th fundamental research symposium, vol 2., Pira interna- tionalLeatherhead, Oxford, pp 969–1021 Nilsson B, Wa˚gberg L, Gray D (2000) Conformability of wet pulp fibres at small length scales. Mid Sweden University, Sundsvall Nilsson B, Wa˚gberg L, Gray D (2001) Conformability of wet pulp fibres at small length scales. Paper presented at the 12th fundamental research symposium, Oxford, UK Nissan AH, Batten GL (1990) On the primacy of the hydrogen bond in paper mechanics. Tappi J 73:59–164 Oksanen A, Retulainen E, Kataja-aho J, Kemppainen K, Hakala T, Pere J (2011) Kombinierte online- und offline-Infor- mation der Wet Web Runnability und der Endproduk- tqualita¨t aus Versuchen an einer Pilotmaschine. Paper presented at the PTS Faserstoff Symposium, Dresden, 23 Nov 2011
Oksanen A, Retulainen E, Kataja-aho J, Somerkallio M, Xu C, Brumer H (2012) Effects of non-charge polysaccarides on runnability of wet web and efficiency of fibre material. IPW Das Pap 66:51–54 Oliver JF (1982) Adhesive film properties affect web adhesion and release from press rolls. TAPPI 65:119–123 Ora M (2012) The effect of web structure on wet web runnability. Aalto University, Espoo Ora M, Maloney T (2013) The effect of moisture and structure on wet web strength and its variation—a pilot scale approach using dry and rewetted mill made papers. Paper presented at the advances in paper science and technol- ogy—15th fundamental research symposium, Cambridge, 8–13 Nov 2013 Paananen A (2007) On the interactions and interfacial behaviour of biopolymers: an AFM Study. PhD Thesis, A˚ bo Akademi University Paavilainen L (1993a) Conformability, flexibility and collapsi- bility of sulphate pulp fibres. Pap Puu 75:689–691 Paavilainen L (1993b) Importance of cross-dimensional fibre properties and coarseness for the characterisation of soft- wood sulphate pulp. Pap Puu 75:343–350 Page D (1969) A theory for the tensile strength of paper. Tappi J 52:674–681 Page DH (1993) A quantitative theory of the strength of wet webs. Pulp Pap Sci 19:J175–J176 Page D, Seth R, Jordan B, Barbe M (1985) Curl, crimps, kinks and microcompressions in pulp fibres: their origin, mea- surement and significance. Paper presented at the VIIIth Fundamental Research Symposium, Oxford Paulapuro H (2001) Wet pressing—present understanding and future challenges. Paper presented at the Fundamental Research Symposium, Oxford, UK Pelton R (1993) A model of the external surface of wood pulp fibers. Nord Pulp Pap Res J 8:113–119 Pelton R (2004) On the design of polymers for increased paper dry strength: a review. Appita J 57:181–190 Pelton R, Zhang J, Wa˚gberg L, Rundlo¨f M (2000) The role of surface polymer compability in the formation of fiber/fiber bonds in paper. Nord Pulp Pap Res J 15:400–406. doi:10. 3183/NPPRJ-2000-15-05-p400-406 Persson BN, Ganser C, Schmied F, Teichert C, Schennach R, Gilli E, Hirn U (2013) Adhesion of cellulose fibers in paper. J Phys Condens Matter 25:1–11. doi:10.1088/0953- 8984/25/4/045002 Pikulik II (1997) Wet web properties and their effects on picking and machine runnability. Pulp Pap Can 98:T487–T491 Pikulik II (2000) The effect of papermaking chemistry on the initial sheet strength and machine runnability. Paper pre- sented at the scientific and technical advances in wet end chemistry, Barcelona, 20 June 2000 Po¨nni R, Vuorinen T, Kontturi E (2012) Proposed nano-scale coalescence of cellulose in chemical pulp fibers during technical treatments. BioResources 7:6077–6108 Pye I, Washburn O, Buchanan J (1965) Structural changes in paper on pressing and drying. In: Bolam F (ed) Consol- idaton of the paper web—3rd fundamental research sym- posium, vol 1., Techn. Sect.British Paper and Board Makers Assoc, Leatherhead, Cambridge, pp 353–369 Rance H (1954) Effect of water removal on sheet properties. TAPPI 37:640–654
123
Made with FlippingBook Digital Proposal Creator