연구동향 분석
박사

Influence of Formaldehyde to Urea Mole Ratio of Urea-Formaldehyde Resin Adhesives to Their Thermal Cure Kinetics, Swelling Behavior, Micro-morphology and Penetration into Softwood Tissues : 포름알데히드/요소 몰비가 요소수지접착제의 열경화동력학, 팽윤거동, 미세형태 및 침엽수재 조직내 침투에 미치는 영향

Arif Nuryawan 2015년

논문상세정보
인용/피인용
' Influence of Formaldehyde to Urea Mole Ratio of Urea-Formaldehyde Resin Adhesives to Their Thermal Cure Kinetics, Swelling Behavior, Micro-morphology and Penetration into Softwood Tissues : 포름알데히드/요소 몰비가 요소수지접착제의 열경화동력학, 팽윤거동, 미세형태 및 침엽수재 조직내 침투에 미치는 영향' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • crystallinity
  • formaldehyde to urea mole ratio
  • hydrolysis
  • liquid and cured urea-formaldehyde resin adhesives
  • micro-morphology
  • penetration into wood tissues
  • swelling properties
  • thermal curing kinetics
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
117 0

0.0%

' Influence of Formaldehyde to Urea Mole Ratio of Urea-Formaldehyde Resin Adhesives to Their Thermal Cure Kinetics, Swelling Behavior, Micro-morphology and Penetration into Softwood Tissues : 포름알데히드/요소 몰비가 요소수지접착제의 열경화동력학, 팽윤거동, 미세형태 및 침엽수재 조직내 침투에 미치는 영향' 의 참고문헌

  • de Jong JI, de Jonge J (1952) The reaction of urea with formaldehyde. Recueil des Travaux Chimiques des Pays-Bas 71(7):643-660.
  • Zobel CR, Beer M (1961) Electron stains. I. Chemical studies on the interaction of DNA with uranyl salts. The Journal of Biophysical and Biochemical Cytology 10:335-346.
  • Zhang J, Wang X, Zhang S, Gao Q (2013) Effects of melamine addition stage on the performance and curing behavior of melamine-urea-formaldehyde (MUF) resin. Bioresources 8(4):5500-5514.
  • Zhang H, She Y, Song S, Lang Q, Pu J (2013) Particulate reinforcement and formaldehyde adsorption of modified nanocrystalline cellulose in ureaformaldehyde resin adhesive. Journal of Adhesion Science and Technology 27(9):1023-1031.
  • Zanetti M, Pizzi A (2004) Colloidal aggregation of MUF polycondensation resins: formulation influence and storage stability. Journal of Applied Polymer Science 91:2690-2699.
  • Zanetti M, Causin V, Saini R, Cardin A, Cavalli R (2014) Effect of tannin on increasing UF adhesive performance at high temperature investigated by TMA and TGA analysis. European Journal of Wood and Wood Products 72(3):385-392.
  • Xing C, Zhang SY, Deng J, Wang S (2007) Urea formaldehyde-resin gel time as affected by the pH value, solid content, and catalyst. Journal of Applied Polymer Science103: 1566-1569.
  • Xing C, Riedl B, CloutierA (2004) Measurement of urea-formaldehyde resindistribution as a function of MDF fiber size by laser scanning microscopy. Wood Science and Technology 37: 495–507.
  • Xing C, Riedl B, Cloutier A, Shaler SM (2005) Characterization of urea-formaldehyde resin penetration into medium density fiberboard fibers. Wood Science and Technology 39:374-378.
  • Xing C, Deng J, Zhang SY, Riedl B, Cloutier A (2005) Different scanning calorimetry characterization of urea-formaldehyde resin curing behavior as affected by less desirable wood material and catalyst content. Journal of Applied Polymer Science 98:2027-2032.
  • Wisanrakkit G, Gillham JK (1990) The glass transition temperature (Tg)as an index of chemical conversion for a high-Tg amine/epoxy system: chemical and diffusioncontrolled reaction kinetics. Journal of Applied Polymer Science 41:2885-2929.
  • Wieland S, Pizzi A, Grigsby W, Warnes J, Pichelin F (2007) Microcrystallinity and colloidal peculiarities of UF/isocyanate hybrid resins. Journal of Applied Polymer Science 104:2633-2636.
  • Weeraratne WG, Nadarajah M, Eliatamby DAR, Amarasinghe UPP, Liyanage N (1972) The use of natural rubber latex-resin blends as an adhesive for plywood. Quarter Journal of Rubber Research Institute of Ceylon 49:37-48.
  • Wagner EC (1933) Reduction studies of schiff bases. III. The condensationsof certain secondary aromatic amines with formaldehydein acid solution; nuclear or n-methylations by means offormaldehyde. Journal of American Chemical Society 55(2):724-731.
  • Wada G (1969) Basicity of dimethyl sulfoxide in an aqueous solution as measured by the spectrophotometric indicator method. Bulletin Chemical Society of Japan 42:890-893.
  • Vyazovkin S, Sbirrazzuoli N (2006) Isoconversional kinetic analysis of thermally stimulated processes in polymers. Macromolecule Rapid Communication 27:1515-32.
  • Vyazovkin S, Burnham AK, Criado JM, Perez-Maqueda LA, Popescu C, Sbirrazzuoli N (2011) ICTAC Kinetics Committee recommendations for performing kinetic computations on thermal analysis data. Thermochimica Acta 520:1-19.
  • Vyazovkin S (2000) Kinetic concepts of thermally stimulated reactions in solids: A view from a historical perspective. International Reviews in Physical Chemistry 19:45-60.
  • Vierling K, Schmihing M, Klingenberg H (1935) Production of plywood and otherjoined wooden articles. US patent 2,019,834. Patented November 5.
  • Van Houts J, Bhattacharyya D, Jayaraman K (2000) Determination of residual stresses in medium density fibreboard. Holzforschung 54(2):176-182.
  • Valentin JL, Gonzales JC, Barrantes IM, Chasse W, Saalwachter K (2008)Uncertainties in the determination of cross-link density by equilibrium swelling experiments in natural rubber. Macromolecules 41:4717-4729.
  • V zquez G, L pez-Suevos F, Gonz lez-Alvarez J, Antorrena G (2005)curing process of phenol-urea-formaldehyde-tannin (PUFT) adhesives Kinetic studies by DSC and DMA. Journal of Thermal Analysis and Calorimetry 82:143-149.
  • Tsapuk AK (1992) About the possibility of producing wood particle boardswith extremely low formaldehyde content. Holz als Roh- und Werkstoff 50:387-388.
  • Tomita B, Hatono S (1978) Urea-formaldehyde resins. III. Constitutional characterization by 13C fourier transform NMR spectroscopy. Journal of Polymer Science: Polymer Chemistry Edition 16:2509-2525.
  • Tohmura S, Inoue A, Sahari SH (2001) Influence of the melamine content in melamine-urea-formaldehyde resins on formaldehyde emission and cured resin structure. Journal of Wood Science 47:451-457.
  • Tohmura S, Hse CY, Higuchi M (2000) Formaldehyde emission and high-temperature stability of cured urea-formaldehyde resins. Journal of Wood Science 46:303-309.
  • Tang X, Bai Y, Duong A, Smith MT, Li L, Zhang L (2009) Formaldehyde in China: production, consumption, exposure levels, and health effects. Environmental International 35:1210-1224.
  • Tanaka A (1994) Osmium conductive metal coating for SEM specimen using sublimated osmium tetroxide in negative glow phase of DC glow discharge. Journal of Electron Microscopy 43 (4):177-182.
  • Szesztay M, L szl -Hedwvig Z, Tak cs C, G cs-Baitz E, Nagy P, T d s F (1994) pH control of the condensation reaction and its effect on the properties of formaldehyde/urea resins. Die Angewandte Makromolekulare Chemie 215:79-91.
  • Szesztay M, L szl -Hedwvig Z (1993) DSC application for characterization of urea/formaldehyde condensates. Holz als Roh-und Werkstoff 51:297-300.
  • Syed KHG, Al-Assaf S, Phillips GO (2011) Hydrogels: methods of preparation, characterizations and applications, progress in molecular and environmental bioengineering-from analysis and modeling to technology applications. Carpi A, ed. www.intechopen.com. p.117-150.
  • Swann MH, Esposito GG (1956) Determination of urea-formaldehyde resins in coatings via urea analysis. Analytical Chemistry 28(12): 1984.
  • Suzuki E (2002) High-resolution scanning electron microscopy of immunogold-labelled cells by the use of thin plasma coating of osmium. Journal of Microscopy 208(3):153–157.
  • Stuligross J, Koutsky JA (1985) A morphological study of urea-formaldehyde resins. The Journal of Adhesion 18:281-299.
  • Steele R (1960) Catalysis of the reaction of urea-formaldehyde pre condensates on cellulose. Journal Applied Polymer Science 4:45-54.
  • St ckel F, Konnerth J, Moser J, Kantner W, Gindl-Altmutter W (2012) Micromechanical properties of the interphase in pMDI and UF bondlines. Wood Science and Technology 46:611-620.
  • Spurr RA, Erath EH, Myers H, Pease DC (1957) Curing process in phenolic resin electron-microscopic analysis. Industrial and Engineering Chemistry 49(11):1839-1842.
  • Spurlock HN (1983) Process for the preparation of urea formaldehyde resins. US Patent 4,381, 368. Patented April 26.
  • Smythe LE (1953) Urea-formaldehyde kinetic studies. III. Polarographic studies in dilute solution. Journal of the American Chemical Society 75:574-576.
  • Smythe LE (1952) Urea-formaldehyde kinetic studies. II. Factors influencing initial reaction. Journal of the American Chemical Society 74(11):2713-2715.
  • Smidth L (1938) Urea-formaldehyde condensation products. US Patent 2,140,561 Patented December 20.
  • Singha AS, Thakur VK (2008) Effect of fiber loading on urea-formaldehyde matrix based green composites. Iranian Polymer Journal 17(11):861-873.
  • Singh, AP, Anderson CR, Warnes JM, Matsumura J (2002) The effect of planing on the microscopic structure of Pinus radiata wood cells in relation to penetration of PVA glue. Holz als Roh-und Werkstoff 60:333-341.
  • Singh AP, Singh T, Rickard CL (2010) Visualising impregnated chitosan in Pinus radiata early wood cells using light and scanning electron microscopy. Micron 41:263-267.
  • Singh AP, Nuryawan A, Park BD, Lee KH (2014b) Urea-formaldehyde resin penetration into Pinusradiatatracheids walls assessed by TEM-EDXS. Holzforschung DOI: 10.1515/hf-2014-0103
  • Singh AP, Nuryawan A, Park BD (2013) Short communication-a novel sample preparation method that enables ultrathin sectioning of urea-formaldehyde resin for imaging by transmission electron microscopy. Microscopy Research 1:1-6.
  • Singh AP, Dawson BSW (2004) Confocal microscope-a valuable tool for examining wood-coating interface. Journal Coating Technology Research 1(3):235-237.
  • Singh AP, Dawson B, Rickard C, Bond J, Singh A (2008) Light, confocal and scanning electron microscopy of wood-adhesive interface. Microscopy Analysis 22(3):5-8.
  • Singh AP, Causin V, Nuryawan A, Park BD (2014a) Morphological, chemical and crystalline features of urea-formaldehyde resin cured in contact with wood. European Polymer Journal 56: 185-193.
  • Simon C, George B, Pizzi A (2002) UF/pMDI wood adhesives: network blend versus copolymerization. Holzforschung 56:327-334.
  • Siimer K, Pehk T, Christjanson P (1999) Study of the structural changes in urea-formaldehyde condensates during synthesis. Macromolecular Symposia 148:149-156.
  • Siimer K, Kaljuvee T, Christjanson P, Lasn I (2006) Curing of urea-formaldehyde resins on a wood substrate. Journal of Thermal Analysis and Calorimetry 84 (1):71-77.
  • Siimer K, Kaljuvee T, Christjanson P (2003) Thermal behavior of urea-formaldehyde resins during curing. Journal of Thermal Analysis and Calorimetry 79:607-617.
  • Siimer K, Kaljuve T, Pehk T, Lasn I (2010) Thermal behavior of melamine-modified urea-formaldehyde resins. Journal of Thermal Analysis and Calorimetry 99:755-762.
  • Siimer K, Christjanson P, Kaljuvee T, Pehk T, Lasn I, Saks I. 2008. TG-DTA study of melamine-urea-formaldehyde resins Journal of Thermal Analysis and Calorimetry 92:19-27.
  • Semsarzadeh MA, Navarchian AH (2003) Effects of NCO/OH ratio and catalyst concentration on structure, thermal stability, and cross-linking density of poly(urethane-isocyanate). Journal of Applied Polymer Science 90:963-972.
  • Schmidt RG, Frazier CE (1998) Network characterization of phenol-formaldehyde thermosetting wood adhesive. International Journal of Adhesion and Adhesives 18:139-146.
  • Schamberg E, Holtschmidt U, Dieter H (1981) Process for the preparation of thermosettable urea-formaldehyde resins and method for use thereof. US Patent 4,247,433. January 27, 1981.
  • Sawyer LC, Grubb DT (1987) Polymer Microscopy. Chapman and Hall Ltd, London. Chap.1. p.1-15.
  • Samaržija-Javanović S, Javanović V, Konstantinović S, Marković G, Marinović- Cincović M (2011) Thermal behavior of modified urea-formaldehyde resins. Journal of Thermal Analysis and Calorimetry 104:1159-1166.
  • Salthamer T, Mentese S, Marutzy R (2010) Formaldehyde in the Indoor Environment. Chemical Reviews 110:2536-2572.
  • Roffael E, H ster HG (2012) Complex chemical interactions on thermo hydrolytic degradationof urea formaldehyde resins (UF-resins) in recycling UF-bonded boards. European Journal of Wood and Wood Products 70:401-405.
  • Robert JD, Caserio MC (1977) Chapter 15 Alcohol and Ether. In: Basic Principle of Organic Chemistry 2nd Edition W.A Benjamin Inc, California. p.654.
  • River BH, Ebewele RO, Myers GE (1994) Failure mechanism in wood joints bonded with urea-formaldehyde adhesives. Holz als Roh-und Werkstoff 52:178-184.
  • Ringena O, Janzon R, Pfizenmayer G, Schulte M, Lehnen R (2006) Estimating the hydrolytic durability of cured wood adhesives by measuring formaldehyde liberation and structural stability. Holz als Roh-und Werkstoff 64:321-326.
  • Rapp AO, Bestgen H, Adam W, Peck RD (1999) Electron energy loss spectroscopy (EELS) for quantification of cell wall penetration of a melamine resin. Holzforschung 53:111-117.
  • Racich JL, Koutsky JA (1976) Nodular structure in epoxy resins. Journal of Applied Polymer Science 20:2111-2129.
  • Rachtanapun P, Heiden P (2003b) Thermoplastic polymers as modifiers for urea-formaldehyde (UF) wood adhesives. II. Procedures for the preparation and characterization of thermoplastic-modified UF wood composites. Journal of Applied Polymer Science 87:898-907.
  • Rachtanapun P, Heiden P (2003a) Thermoplastic polymers as modifiers for urea-formaldehyde (UF) wood adhesives. I. Procedures for the preparation and characterization of thermoplastic-modified UF suspension. Journal of Applied Polymer Science 87:890-897.
  • Pratt TJ, Johns WE, Rammon RM, Plagemann WL (1985)A novel concept on the structure of cured urea-formaldehyde resin. The Journal of Adhesion 17:275-295.
  • Popović M, Miljković J, Simendić JB, Pavličević J, Ristić I (2011b) Curing characteristics of low emission urea-formaldehyde adhesive in the presence of wood. Wood Research 56(4):589-600.
  • Popović M, Budinski-Simendić J, Jovičić M, Mursics J, Điporović-Momčilović M, Pavličević J, Ristić I (2011a) Curing kinetics of two commercial urea-formaldehyde adhesives studied by isoconversional method. Hemijska Industrija 65:717-726.
  • Poljanšek I, Likozar B, Čuk N, Kunaver M (2013) Curing kinetics study of melamine-urea-formaldehyde resin/liquefied wood. Wood Science and Technology 47:395-409.
  • Plivelic TS, Cassu SN, Goncalves MC, Torriani IL (2007) Structure and morphology of poly(-caprolactone)/ chlorinated polyethylene (PCL/PECl) blends investigated by DSC, simultaneous SAXS/ WAXD, and elemental mapping by ESI-TEM.. Macromolecules 40:253-264.
  • Pizzi A, Probst F (1998b) On the correlation of some theoretical and experimental parameters in polycondensation cross linked networks. III. Network-constrained repeating units. Journal of Applied Polymer Science 67(7):1341–1343.
  • Pizzi A, Lipschitz L, Valenzuela J (1994) Theory and practice of the preparation of low formaldehyde emission UF adhesives. Holzforschung 48:254-261.
  • Pizzi A, Garcia R, Deglise X (1998a) Thermo mechanical analysis of entanglement networks: Correlation of some calculated and experimental parameters. Journal of Applied Polymer Science 67(9):1673–1678.
  • Pizzi A (2003b) Chapter 31. Urea–Formaldehyde Adhesives. In: Handbook of Adhesive Technology, Revised and Expanded. Pizzi A, Mittal KL, editors. Marcel Dekker Inc, New York. p. 635-652.
  • Pizzi A (2003a) Chapter 8. Principles of polymer networking and gel theory in thermosetting adhesive formulations. In: Handbook of Adhesive Technology, Revised and Expanded. Pizzi A, Mittal KL, editors. Marcel Dekker New York.
  • Pizzi A (1997b) On the correlation of some theoretical and experimental parameters in polycondensation cross linked networks. II. Interfacial energy and adhesion on cellulose substrates. Journal of Applied Polymer Science 65(9):1843–1847.
  • Pizzi A (1997a) On the correlation of some theoretical and experimental parameters in polycondensation cross-linked networks. Journal of Applied Polymer Science 63(5):603–617.
  • Pizzi A (1994) Advance Wood Adhesives Technology. Marcel Dekker Inc. New York. p.19-64.
  • Pizzi A (1990b) A molecular mechanics approach to the adhesion of urea-formaldehyde resins to cellulose. Part 2. Amorphous vs. crystalline Cellulose I. Journal of Adhesion Science and Technology 4(1):589-595
  • Pizzi A (1990a) A molecular mechanics approach to the adhesion of ureaformaldehyde resins to cellulose. Part 1. Crystalline Cellulose I. Journal of Adhesion Science and Technology 4(1):573-588.
  • Peng W, Riedl B (1995) Thermosetting resins. Journal of Chemical Education 72(7):587-592.
  • Patra SK, Swain SK (2011) Swelling study of superabsorbent PAA-co-PAM/ clay nanohydrogel. Journal of Applied Polymer Science 120:1533-1538.
  • Pascault JP, Sautereau H, Verdu J, Williams RJJ (2002) Thermosetting polymers. Marcel Dekker Inc., New York (2002) p. 67–118.
  • Park BD, Singh AP, Nuryawan A, Hwang K (2013b) MRT Letter: High resolution SEM imaging of nano-architecture of cured urea-formaldehyde resin using plasma coating of osmium. Microscopy Research and Technique 76(11):1108–1111.
  • Park BD, Lee SM, Roh JK (2009) Effect of formaldehyde/urea mole ratio and melamine content on the hydrolytic stability of cured urea-melamineformaldehyde resin. European Journal of Wood and Wood Products 67:121-123.
  • Park BD, Kim YS, Singh AP, Lim KP (2003) Reactivity, chemical structure, and molecular mobility of urea–formaldehyde adhesives synthesized under different conditions using FT-IR and solid-state 13C CP/MAS NMR spectroscopy. Journal of Applied Polymer Science 88:2677-2687.
  • Park BD, Kim JW (2008) Dynamic mechanical analysis of urea-formaldehyde resin adhesives with different formaldehyde-to-urea molar ratios. Journal of Applied Polymer Science 108: 2045-2051.
  • Park BD, Kang EC, Park JY (2008) Thermal curing behavior of modified urea-formaldehyde resin adhesives with two formaldehyde scavengers and their influence on adhesion performance. Journal of Applied Polymer Science 110:1573-1580.
  • Park BD, Kang EC, Park JY (2006b) Effect of formaldehyde to urea mole ratio on thermal curing behavior of urea-formaldehyde resin and properties of particleboard. Journal of Applied Polymer Science 101:1787-1792.
  • Park BD, Kang EC, Park JY (2006a) Differential scanning calorimetry of urea-formaldehyde adhesive resins, synthesized under different pH conditions. Journal of Applied Polymer Science 100:422-427.
  • Park BD, Kadla JF (2012) Thermal degradation kinetics of resole phenol-formaldehyde resin/ multi-walled carbon nanotube/cellulose nanocomposite. Thermochimica Acta 540:107-115.
  • Park BD, Jeong HW, Lee SM (2011) Morphology and chemical elements detection of cured urea-formaldehyde resins. Journal of Applied Polymer Science 120:1475-1482.
  • Park BD, Jeong HW (2011c) Effect of acid hydrolysis on microstructure of cured urea-formaldehyde resins using atomic force microscopy. Journal of Applied Polymer Science 122:3255-3262.
  • Park BD, Jeong HW (2011b) Influence on hydrolytic degradation on the morphology of cured urea-formaldehyde resins of different formaldehyde/urea mole ratios. Journal of the Korean Wood Science and Technology 39(2):179-186.
  • Park BD, Jeong HW (2011a) Hydrolytic stability and crystallinity of cured urea-formaldehyde resin adhesives with different formaldehyde/urea mole ratios. International Journal of Adhesion and Adhesives 31:524-529.
  • Park BD, FrihartCR, Yu Y, Singh AP (2013a) Hardness evaluation of cured urea-formaldehyde resins with different formaldehyde/ urea mole ratios using nanoindentation method. European Polymer Journal 49 (2013) 3089-3094.
  • Park BD, Causin V (2013) Crystallinity and domain size of cured urea-formaldehyde resin adhesives with different formaldehyde/ urea mole ratios. European Polymer Journal 49:532-537.
  • Panagiotis N (2008) Determination of particleboard emission of particleboard comparison the methods. ARI Ltd. p.1-10.
  • Pakdel H, Cyr P-L, Riedl B, Deng J (2008) Quantification of urea-formaldehyde resin in wood fibers using X-ray photoelectron spectroscopy and confocal laser scanning microscopy. Wood Science and Technology 42:133-148.
  • Osemeahon SA, Barminas JT, Aliyu BA (2007) Effect of urea formaldehyde viscosity on some physical properties of a composite from reactive blending of urea formaldehyde with natural rubber. International Journal of Physical Sciences 2(9):242-248.
  • Osemeahon SA, Barminas JT (2013) Study of a composite from reactive blending of methylol urea resin with natural rubber. African Journal of Chemistry 1(2):50-56.
  • Organ SJ, Hobbs JK, Miles MJ (2004) Reorganization and melting of polyethylene single crystals: complementary TEM, DSC and real-time AFM studies. Macromolecules 37:4562-4572.
  • Nuryawan A, Singh AP, Park BD, Causin V (2014d) Micro-morphological features responsible for the crystallinity of cured urea-formaldehyde resins detected by transmission electron microscopy. Accepted The Journal of Adhesion.
  • Nuryawan A, Singh AP, Park BD (2014c) Swelling behavior of cured urea-formaldehyde resin adhesives with different formaldehyde/urea mole ratios. The Journal of Adhesion. DOI:10.1080/00218464.2014.962022
  • Nuryawan A, Park BD, Singh AP (2014b) Comparison of thermal curing behavior of liquid and solid urea-formaldehyde resins with different formaldehyde/urea mole ratios. Journal of Thermal Analysis and Calorimetry 118:397-404.
  • Nuryawan A, Park BD, Singh AP (2014a) Penetration of urea–formaldehyde resins with different formaldehyde/urea mole ratios into softwood tissues. Wood Science and Technology 48:889-902.
  • Nuryawan A, Park BD (2014b) Micro-morphological features of liquid urea-formaldehyde resins during curing process at different levels of hardener and curing time assessed by transmission electron microscopy. Current Research on Agriculture and Life Science 32(3):125-130.
  • Nuryawan A, Park BD (2014a) Microstructure of cured urea-formaldehyde resins modified by rubber latex emulsion after hydrolytic degradation. Journal of the Korean Wood Science and Technology 42(5):605-614.
  • Nuryawan A, Park BD (2012) Swelling properties of cured urea-formaldehyde resins of different formaldehyde to urea mole ratios. In: Proceedings of Korean society of wood science and technology annual meeting, Daegu, South Korea, p.86-88.
  • Noh HH, Lee JK (2013) Microencapsulation of self-healing agents containing a fluorescent dye. eXPRESS Polymer Letters 7(1):88–94.
  • No BY, Kim MG (2005) Curing of low level melamine-modified urea-formaldehyde particleboard binder resins studied with dynamic mechanical analysis (DMA). Journal of Applied Polymer Science 97: 377-389.
  • Nicholls DL, Blankenhorn PR, LaboskyJr P (1991) The effect of mild chemical extractions on the dimensional stability of UF and PF bonded red Oak flakeboard. Wood and Fiber Science 23(2):143-152.
  • Nessuer H, Schall W (1970) Experiments for the determination of hydrolysis phenomena in particleboards. Holzforsch Holzverwert 22(6):116-120.
  • Nandi S, Winter HH. Swelling behavior of partially cross-linked polymers: a ternary system. Macromolecules 38:4447-4455.
  • Nalwa S, Vasudevan P (1981) Electrical properties of thiourea-formaldehyde condensates. European Polymer Journal 17(2):145-149.
  • Na JS, Ronze D, Zoulalian A (1996) Characterization of hydrolytic degradation of U-F joints through apparent diffusivity. Wood and Fiber Science 28(4): 441-421.
  • Myers GE, Nagaoka M (1981) Emission of formaldehyde by particleboard: effect of ventilation rate and loading on air-contamination levels. Forest Products Journal 31(7):39-44.
  • Myers GE, Koutsky JA (1990) Formaldehyde liberation and cure behavior of urea-formaldehyde resins. Holzforschung 44 (2):117-126.
  • Myers GE, Koutsky JA (1987)Procedure for measuring formaldehyde liberation from formaldehyde-based resins. Forest Products Journal 37(9):56-60.
  • Myers GE (1986b) Mechanism of formaldehyde release from bonded wood products. In Formaldehyde release from wood products. Meyer B, Andrews BAK, Reinhardt RM, editors. ACS Symposium Series 316, April 28-May 3, 1985. Miami Beach, FL. Washington, DC: American Chemical Society. p.87-106.
  • Myers GE (1986a) Resin hydrolysis and mechanism of formaldehyde release from bonded wood products. In Wood adhesives in 1985: Status and needs. Christiansen AW, Robert G, Myers GE, Bryan HR, editors. Proceedings 47344 of a conference, May 14-16, 1985. Madison, Forest Products Research Society. p.119-156.
  • Myers GE (1984) How mole ratio of UF resin affects formaldehyde emission and other properties: a literature critique. Forest Products Journal 34:35-41.
  • Myers GE (1983)Formaldehyde emission from particleboard and plywood paneling: measurement, mechanism, and product standards. Forest Products Journal 33(5):27-37.
  • Myers GE (1981) Investigation of urea–formaldehyde polymer cure by infrared. Journal of Applied Polymer Science 26 (3):747-764.
  • Motter WK (1990) The formation of the colloidal phase in low mole ratio urea-formaldehyde resins. Ph.D. Dissertation. Department of Mechanical and Materials Engineering. Washington State University, Pullman, USA.
  • Moreland JC, Wilkes GL, Turner RB, Richtor EC (1994) Characterization of flexible slabstock foams containing lithium chloride. Journal of Applied Polymer Science 52:1459-1476.
  • Modzel G, Kamke FA, De Carlo F (2011) Comparative analysis of a wood: adhesive bond-line. Wood Science and Technology 45:147-158.
  • Minopoulou E, Dessipri E, Chryssikos GD, Gionisc V, Paipetis A, Panayiotou C (2003)Use of NIR for structural characterization of urea–formaldehyde resins. International Journal of Adhesion and Adhesives 23:473-484.
  • Miller-Chou BA, Koenig JL (2003)A review of polymer dissolution. Progress of Polymer Science 28:1223-1270.
  • Meyer B, Nunlist R (1981) 13C NMR identification of urea-formaldehyde resins. ACS National Meeting, Division of polymer chemistry, symposium on aqueous polymer systems. Atlanta, GA, March 29.
  • Meyer B, Hermanns K (1986) Formaldehyde release from wood products: an overview. In Formaldehyde release from wood products; Meyer, B., editor. ACS Symposium Series; American Chemical Society: Washington DC.
  • Matějka L (2000) Amine cured epoxide networks: formation, structure, and properties. Macromolecules 33(10):3611-3619.
  • Marvel CS, Elliott JR, Boettner FE, Yuska H (1946) The structure of urea-formaldehyde resins. Journal of The American Chemical Society 68(9):1681-1686.
  • Marutzky R (1986) Release of Formaldehyde by Wood Product. In: Wood Adhesives: Chemistry and Technology, Vol. 2. Pizzi A, editor. Marcel Dekker Inc. p.307–387.
  • Mao A, Hassan EB, Kim MG (2013) Investigation of low mole ratio UF and UMF resins aimed at lowering the formaldehyde emission potential of wood composite boards. Bioresources 8(2):2453-2469.
  • Mamiński M, Parzuchowski P, Borysiuk P, Boruszewski P (2009) Hyperbranched macromolecules as modifiers of urea-formaldehyde resins. Wood adhesives 2009: technical forum (poster) session 424-426.
  • Maiti P, Nam PH, Okamoto M, Hasegawa N, Usuki A (2002) Influence of crystallization on intercalation, morphology, and mechanical properties of polypropylene/clay nanocomposites. Macromolecules 35:2042-2049.
  • Maciel GE, Szeverenyi NM, Early TA, Myers GE (1983) 13C NMR studies of solid urea-formaldehyde resins using cross polarization and magic-angle spinning. Macromolecules 16:598-604.
  • Ma J, Zhang S, Qi Z, Li G, Hu Y (2002) Crystallization behaviors of polypropylene/ montmorillonite nanocomposites. Journal of Applied Polymer Science 83(9):1978– 1985.
  • Ludlam PR (1973) Thin-layer chromatography of simple urea-formaldehyde-methanol reaction products. Part I. Qualitative aspects. Analyst 98:107-115.
  • Lu X, Pizzi A (1998) Curing conditions effects on the characteristics of thermosetting adhesive-bonded wood joints-Part 1: substrate influence on TTT and CHT curing diagrams of wood adhesives. Holz als Roh-und Werkstoff 56:339-346.
  • Liu Z, Xiao J, Bai S, Zhang W (2012) Study on phenomenological curing model of epoxy resin for prediction of degree of cure. Journal of Thermal Analysis and Calorimetry 109:1555-1561.
  • Lincoln DM, Vaia RA, Krishnamoorti R (2004) Isothermal crystallization of nylon-6/ montmorillonite nanocomposites. Macromolecules 37:4554-4561
  • Likozar B, Korošec RC, Poljanšek I, Ogorelec P, Bukovec P (2012) Curing kinetics study of melamine-urea-formaldehyde resin. Journal of Thermal Analysis and Calorimetry 109:1413-1422.
  • Li B, Zhang J, Ren X, Chang J, Gou J (2014) Preparation and characterization of bio-oil modified urea-formaldehyde wood adhesives. Bioresources 9(3):5125-5133.
  • Levendis D, Pizzi A, Ferg E (1992) The correlation of strength and formaldehyde emission with the crystalline/amorphous structure of UF resins. Holzforschung 46(3):263-269.
  • Lee YK, Kim S, Kim HJ, Lee HH, Yoon DW (2006) Comparison of formaldehyde emission rate and formaldehyde content from rice husk flour filled particleboard bonded with urea-formaldehyde resin. Journal of the Korean Wood Science and Technology 24(5):42-51.
  • Lee YK, Kim HJ (2013) Relationship between curing activation energy and free formaldehyde content in urea-formaldehyde resins. Journal of Adhesion Science and Technology 27(5-6):598-609.
  • Lavou J, Beaudry C, Goyer N, Perrault G, G rin M (2005) Investigation of determinants of past and current exposures to formaldehyde in the reconstituted wood panel industry in Quebec. Annals of Occupational Hygiene 49 (7):587-602.
  • Langmaier F, Šivarov J, Ml dek M, Kolomaznik K (2004a) Curing adhesive of urea-formaldehyde type with collagen hydrolysates of chrome-tanned leather waste. Journal of Thermal Analysis and Calorimetry 75: 205-219.
  • Langmaier F, Šivarov J, Kolomazn k K, Ml dek M (2004b) Curing of urea-formaldehyde adhesives with collagen type hydrolysates under acid condition. Journal of Thermal Analysis and Calorimetry 76: 1015-1023.
  • Langmaier F, Kolomaznik K, Ml dek M, Šivarov J (2005) Curing urea-formaldehyde adhesives with hydrolysates of chrome-tanned leather waste from leather production. Journal of Adhesion and Adhesives 25:101-108.
  • Lang Q, Chen HY, Pu JW (2013) Wood modification using a urea-formaldehyde prepolymer. Wood and Fiber Science 45:1-8.
  • Landqvist N (1956) On the reaction between urea and formaldehyde in neutral and alkaline solutions VI. Experimental studies of the activation energy and the heat of reaction. Acta Chemica Scandinavica 10:244-248.
  • Lan Q, Haugstad G (2011) Characterization of polymer morphology in polyurethane foams using atomic force microscopy. Journal of Applied Polymer Science 121:2644-2651.
  • Lady JH, Adams RE, Kesse I (1960) A study of thermal degradation and oxidation of polymers by infrared spectroscopy. Part I. Experimental technique and butylated melamine formaldehyde and urea formaldehyde. Journal of Applied Polymer Science 3(7):65-70.
  • Lacasse M, Feldman D (1994) Swelling and adhesion characteristics of lignin-filled polyurethane sealant. Journal of Adhesion Science and Technology 8(5):473-484.
  • Kvalnes HM (1949) Liquid urea-formaldehyde compositions. US Patent 2,467,212. April 12, 1949.
  • Koutsky JA (1985) Structural study of thermosetting resins–implications for urea– formaldehyde and phenol–formaldehyde type systems. In: Christiansen AW, Gillespie R, Myers GE, River BH, editors. Wood adhesives, status and needs. Proceedings of a conference sponsored by the Forest Products Laboratory. p.102– 18.
  • Korolev SV, Kuchanov SI (1987) Statistical description of the molecular structure of urea-formaldehyde resins. Polymer Science USSR 29(11):2628-2634.
  • Kim WJ, Terada N, Nomura T, Takahashi R, Lee SD, Park JH, Konno A (2002) Effect of formaldehyde on the expression of adhesion molecules in nasal microvascular endothelial cells: the role of formaldehyde in the pathogenesis of sick building syndrome. Clinical Experimental Allergies 32 287-295.
  • Kim S, Kim HJ, Kim HS, Lee YK, Yang HS (2006) Thermal analysis study of viscoelastic properties and activation energy of melamine-modified ureaformaldehyde resins. Journal Adhesion Science and Technology 20(8):803-816.
  • Kim MG, Wan H, No BY, Nieh WL (2001) Examination of selected synthesis and room-temperature storage parameters for wood adhesive-type urea–formaldehyde resins by 13C-NMR spectroscopy.IV. Journal of Applied Polymer Science 82(5):1155-1169.
  • Kim MG, No BY, Lee SM, Nieh WL (2003) Examination of selected synthesis and room-temperature storage parameters for wood adhesive-type urea-formaldehyde resins by 13C-NMR spectroscopy. V. Journal of Applied Polymer Science 89(7):1896-1917.
  • Kim MG (2001) Examination of selected synthesis parameters for wood adhesive-type urea-formaldehyde resins by 13C NMR spectroscopy. III. Journal of Applied Polymer Science 80(14):2800-2814.
  • Kim MG (2000) Examination of selected synthesis parameters for typical wood adhesive-type urea-formaldehyde resins by 13C-NMR spectroscopy. II. Journal of Applied Polymer Science 75:1243-1254.
  • Kim MG (1999) Examination of selected synthesis parameters for typical wood adhesive-type urea-formaldehyde resins by 13C NMR spectroscopy. I. Journal of Polymer Science: Part A: Polymer Chemistry 37:995-1007.
  • Kim JW, Carlborn K, Matuana LM, Heiden PA (2006) Thermoplastics modification of urea-formaldehyde wood adhesives to improve moisture resistance. Journal of Applied Polymer Science 101:4222-4229.
  • Kibrik J, Steinhof O, Scherr G, Thiel WR, Hasse H (2012) 13C-NMR, 13C-13C g COSY, and ESI-MS characterization of ether-bridged condensation products in N, N′-dimethylurea-formaldehyde systems. Journal of Applied Polymer Science 128 (6):3957-3963.
  • Kazakevičs AAR, Spedding DJ (1979) The rate of formaldehyde emission from chipboard. Holzforschung 33(5):155-158.
  • Kavvouras PK, Koniditsiotis D, Petinarakis J (1998) Resistance of cured urea-formaldehyde resins to hydrolysis: a method of evaluation. Holzforschung 52:105-110.
  • Katušč k S, Tom š M, Schiessl O (1981) Kinetics of polycondensation of urea with formaldehyde. molecular weight distribution, average molecular weight, and polydispersity parameters. Journal of Applied Polymer Science 26:381-394.
  • Kamoun C, Pizzi A, Garcia R (1998) The effect of humidity on crosslinked and entanglement networking of formaldehyde-based wood adhesives. Holz als Roh-und Werkstoff 56:235-243.
  • Kamke FA, Lee JN (2007) Adhesive penetration in wood-a review. Wood and Fiber Science 39:205-220.
  • Kambanis SM, Vasishth RC (1971) NMR studies of urea-formaldehyde resins. Journal of Applied Polymer Science 15:1911-1919.
  • Johnson SE, Kamke FA (1992) Quantitative analysis of gross adhesive penetration in wood using fluorescence microscopy. The Journal of Adhesion 40:47-61.
  • Johns WE, Niazi KA (1980) Effect of pH and buffering capacity of wood on the gelation time of urea-formaldehyde resin. Wood and Fiber Science 12(4):255-263
  • Johns WE, Dunker AK (1986) Urea-formaldehyde resins. In: Formaldehyde release from wood products. Meyer B, Andrew BAK, Reinhardt RM, editors. The American Chemical Society. p.76-86.
  • John H (1920) Manufacture of aldehyde condensation product capable of technical utilization. US Patent 1,355, 834. October 19, 1920.
  • Jinxue J, Yonglin Y, Cheng L, Jianzhang L (2011) Effect of three boron flame retardants on thermal curing behavior of urea formaldehyde resin. Journal of Thermal Analysis and Calorimetry 105:223-228.
  • Jada S (1988)The structure of urea-formaldehyde resins. Journal of Applied Polymer Science 35: 1573-1592.
  • Irle MA, Bolton AJ (1988) Physical aspects of wood adhesive bond formation with formaldehyde based adhesives. Part II. Binder physical properties and particleboard durability. Holzforschung 42:53-58.
  • International Agency of Research Cancer (IARC) (2006) IARC monographs on the evaluation of carcinogenic risks to humans Vol.88 Formaldehyde, 2-Butoxyethanol and 1-tert-Butoxypropan-2-ol. WHO Press, France.
  • Hunt, C.E., Jakes, J.E., Grigsby, W (2010) Evaluation of adhesive penetration of wood fiber by nanoindentation and microscopy. In: BIOCOMP 2010-10th Pacific Rim Bio-Based Composites Symposium. October 5-8, 2010. p. 216-226.
  • Hse CY, Xia ZY, Tomita B (1994) Effect of reaction pH on properties and performance of urea-formaldehyde resins. Holzforschung 48(6):527-532.
  • Hodgins TS, Hovey AG (1941) Urea-formaldehyde film-forming compositions. Air-drying films by acid catalysis. Industrial and Engineering Chemistry 33(4):512-515.
  • Hodgins TS, Hovey AG (1940) Process of making urea-formaldehyde resin. US Patent 2,227,223. December 31, 1940.
  • Hodgins TS, Hovey AG (1939) Urea-formaldehyde film-forming compositions. Structure of water soluble resins and stability of UF ethylene glycol condensation products. Industrial and Engineering Chemistry 31(6):673-678.
  • Hodgins TS, Hovey AG (1938) Urea-formaldehyde film-forming compositions. Structure and properties. Industrial and Engineering Chemistry 30(9):1021-1029.
  • Hill CG, Hedren AM, Myers GE, Koutsky JA (1984) Raman spectroscopy of urea-formaldehyde resins and model compounds. Journal of Applied Polymer Science 29: 2749-2762.
  • Hass P, Wittel FK, Mendoza M, Herrmann HJ, Niemz P (2012) Adhesive penetration in beech wood: experiments. Wood Science and Technology 46:243-256.
  • Harris DK (1953) Health problems in the manufacture and use of plastics. British Journal of Industrial Medicine 10:255-268.
  • Harkin JM, Obst JR, Lehman WF (1974) Visual method for measuring formaldehyde release from resin-bonded boards. Forest Products Journal 24(1):27-30.
  • Hao Z, Guo Y, Mansuer M, Zhu J, Zhu Z (2014) Role of the excess monomer in the growth of urea and formaldehyde resin deposit particles. Journal of Colloid and Interface Science 430:239-248.
  • Han G, Zhang C, Zhang D, Umemura K, Kawai S (1998) Upgrading of urea formaldehyde-bonded reed and wheat straw particleboards using silane coupling agents. Journal of Wood Science 44:282-286.
  • Hackett E, Manias E, Giannelis EP (2000) Computer simulation studies of PEO/ layer silicate nanocomposites. Chemistry of Materials 12 (8):2161–2167.
  • Gupta VB, Drzal LT, Adams WW (1985) An electron microscopic study of the morphology of cured epoxy resin. Journal of Material Science 20:3439-3452.
  • Gu JY, Higuchi M, Morita M, Hse CY (1996) Synthetic conditions and chemical structures of urea-formaldehyde resins II. Synthetic procedures involving a condensation step under strongly acidic conditions and the properties of the resins obtained. Mokuzai Gakkaishi/ Journal of the Japan Wood Research Society 42(2):149-156.
  • Grulke EA (1998) Solubility Parameter Values. In Polymer Handbook 4th Ed. Vol.2. Brandrup J, Immergut EH, Grulke EA, editors. Wiley- Interscience. p.675-714.
  • Grooms NS, Snover DA (2008) Modified urea-formaldehyde resin composition, methods of making and articles made therefrom. European Patent EP 1 881 032 A1. January 23, 2008.
  • Grigsby WJ, Carpenter JEP, Sargent R (2014) Investigating the extent of urea-formaldehyde resin cure in medium density fiberboard: resin extractability and fiber effects. Journal of Wood Chemistry and Technology 34:225-238.
  • Grigsby W, Thumm A (2004) Visualisation of UF resin on MDF fiber by XPS imaging. Holz Roh Werkst 62:365-369.
  • Graves LR, Mueller JV (1994) Urea-formaldehyde resin composition and method of manufacture thereof. US Patent 5,362,842. November 8, 1994.
  • Gohil JM, Bhattacharya A, Ray P (2006) Studies on the cross-linking of poly(vinyl alcohol). Journal of Polymer Research 13:161-169.
  • Ginzel VW, Stegmann G (1970) Subsequent coloring of urea-formaldehyde resins on glued wood particles for visual estimation of glue distribution. Holz als Roh- Und Werkstoff 28:289-292.
  • Gindl W, Zargar-Yaghubi F, Wimmer, R (2003) Impregnation of softwood cell walls with melamine-formaldehyde resin. Bioresources Technology 87:325-330.
  • Gindl W, Sretenovic A, Vincenti A, Műller U (2005) Direct measurement of strain distribution along a wood bond line. Part 2: effect of adhesive penetration on strain distribution. Holzforschung 59:307-310.
  • Gindl W, Dessipri E, Wimmer R. (2002) Using UV-microscopy to study diffusion of melamine-urea-formaldehyde resin in cell walls of Spruce wood. Holzforschung 56:103-107.
  • Gindl W (2001) SEM and UV-microscopic investigation of glue lines in parallam PSL. Holz Roh Werkst 59:211-214.
  • Gierlinger N, Hansmann C, Rőder T, Sixta H, Gindl W, Wimmer R (2005) Comparison of UV and confocal Raman microscopy to measure the melamine-formaldehyde resin content within cell walls of impregnated spruce wood. Holzforschung 59:210-213.
  • Gavrilović-Grmuša I, Miljković J, Điporović-Momčilović M (2010b) Influence of the degree of condensation on the radial penetration of urea-formaldehyde adhesives into Silver Fir (Abies alba Mill) wood tissue. Journal of Adhesion Science and Technology 24:1437-1453.
  • Gavrilović-Grmuša I, Dunky M, Miljković J, Điporović-Momčilović M (2012) Influence of the viscosity of UF resins on the radial and tangential penetration into poplar wood and on the shear strength of adhesive joints. Holzforschung 66:849-856.
  • Gavrilović-Grmuša I, Dunky M, Miljković J, Diporović-Momčilović M (2010a) Radial penetration of urea-formaldehyde adhesive resins into beech (Fagus moesiaca). Journal of Adhesion Science and Technology 24:1753-1768.
  • Gao Z, Wang XM, Wan H, Liu ZM (2009) DSC characterization of urea-formaldehyde (UF) resin curing. Pigment and Resin Technology 38(1):3-9.
  • Frihart CR (2004) Adhesive interaction with wood. In: Fundamentals of composite processing. Proceedings of a workshop, November 5-6, 2003, Madison, Wisconsin. General Technical Report FPL-GTR-149, USDA Forest Service Forest Products Laboratory. p.29-53.
  • Flory PJ, Rehner J (1943) Statistical mechanics of cross-linked polymer networks II. Swelling. The Journal of Chemical Physics 11:521-526.
  • Fink JK (2005) Reactive polymers fundamentals and applications a concise guide to industrial polymers. PDL hand book series, William Andrew Publishing, New York. pp.283-298.
  • Ferra JMM, Mendes AM, Costa MRN, Carvalho LH, Magalh es FD (2010b). A study on the colloidal nature of urea-formaldehyde resins and its relation with adhesive performance. Journal of Applied Polymer Science 118:1956-1968.
  • Ferra JM, Mendes AM, Costa MRN, Magalh es FD, Carvalho LH (2010a) Characterization of urea-formaldehyde resins by GPC/SEC and HPLC techniques: effect of ageing. Journal of Adhesion Science and Technology 24:1535-1551.
  • Ferg EE, Pizzi A, Levendis DC (1993) 13C NMR analysis method for urea– formaldehyde resin strength and formaldehyde emission. Journal of Applied Polymer Science 50(5):907-915.
  • Fan C, Tang J, Zhou X (2013) Role of ammonium chloride in preparing poly(urea-formaldehyde) microcapsules using one-step method. Journal of Applied Polymer Science 129:2848-2856.
  • Essawy HA, Moustofa AB, Elsayed NH (2009) Improving the performance of ureaformaldehyde wood adhesive system using dendritic poly(amidoamine)s and their corresponding half generations. Journal of Applied Polymer Science 114:1348-1355.
  • Ellis S (1993) The performance of waferboard bonded with powdered phenol-formaldehyde resins with selected molecular weight distributions. Forest Products Journal 43(2):66-68.
  • Elbert AA (1995) Influence of hardener systems and wood on the formaldehyde emission from urea-formaldehyde resin and particleboard. Holzforschung 49:358-362.
  • Ebewele RO, River BH, Myers GE (1994) Behavior of amine-modified urea-formaldehyde-bonded wood joints at low formaldehyde/urea molar ratios. Journal of Applied Polymer Science 52:689-700.
  • Ebewele RO, River BH, Myers GE (1993) Polyamine-modified urea-formaldehyde-bonded wood joints. III. Fracture toughness and cyclic stress and hydrolysis resistance. Journal of Applied Polymer Science 49:229-245.
  • Ebewele RO, Myers GE, River BH, Koutsky JA (1991b). Polyamine-modified urea-formaldehyde resins. II. Resistance to stress induced by moisture cycling of solid wood joints and particleboard. Journal of Applied Polymer Science 43:1483-1490.
  • Ebewele RO, Myers GE, River BH, Koutsky JA (1991a) Polyamine-modified urea-formaldehyde resins. I. Synthesis, structure, and properties. Journal of Applied Polymer Science 47:2997-3012.
  • Ebewele RO (1995) Differential scanning calorimetry and dynamic mechanical analysis of amine-modified urea-formaldehyde adhesives. Journal of Applied Polymer Science 58:1689-1700.
  • Ebdon JR, Heaton PE (1977) Characterization of urea-formaldehyde adducts and resins by 13C-NMR spectroscopy. Polymer 18: 971-974.
  • Dušek K (1996) Are cured thermoset resins inhomogeneous? Die Angewandte Makromolekulare Chemie 240:1-15.
  • Dutkiewicz J (1984) Preparation of cured urea-formaldehyde resins of low formaldehyde emission. Journal of Applied Polymer Science 29:45-55.
  • Dutkiewicz J (1983) Hydrolytic degradation of cured urea-formaldehyde resin. Journal of Applied Polymer Science 28:3313-3320.
  • Dunn AS (1957) 278. The urea–formaldehyde polycondensation. Part I. Kinetics of the hydrolysis of methoxymethylurea. Journal of Chemical Society 1446-1451.
  • Dunky M, Pizzi A (2002) Wood Adhesives. In Adhesion Science and Engineering-2, Surfaces, Chemistry and Applications. Chaudhury M, Pocius AV, editors. Elsevier, The Netherland. p.1039-1104.
  • Dunky M (2004) Adhesives based on formaldehyde condensation resins. Macromolecular Symposia 217:417-429.
  • Dunky M (1998) Urea-formaldehyde (UF) adhesive resins for wood. International Journal of Adhesion and Adhesives 18:95-107.
  • Dunky M (1996) Urea-formaldehyde glue resin. In: Polymeric Materials Encyclopedia. Salamon JC, editor. CRC Press, Florida. p.8502-8511.
  • Dunker AK, Johns WE, Rammon R, Farmer B, Johns SJ (1986) Slightly bizarre protein chemistry: urea-formaldehyde resin from a biochemical perspective. The Journal of Adhesion 19:153-176.
  • Dudkin BN, Krivoshapkin VP, Krivoshapkina EF (2006) Effect of aluminum oxide nanoparticles on the properties of urea-formaldehyde resin. Russian Journal of Applied Chemistry 79:1538-1541.
  • Dongbin F, Jianzhang L, An M (2006) Curing characteristics of low molar ratio urea-formaldehyde resins. Journal of Adhesion and Interface 7(4):45-52.
  • Donaldson LA, Lomax TD (1989) Adhesive/fibre interaction in medium density fibreboard. Wood Science and Technology 23:371-380.
  • Ding R, Su C, Yang Y, Li C, Liu J (2013) Effect of wheat flour on the viscosity of urea-formaldehyde adhesive. International Journal of Adhesion and Adhesives 41:1-5.
  • Despres A, Pizzi A, Vu C, Delmotte L (2010) Colorless formaldehyde-free urea resin adhesives for wood panels. European Journal of Wood and Wood Products 68:13-20.
  • Despres A, Pizzi A (2006) Colloidal aggregation of amino plastic polycondensation resins: urea-formaldehyde versus melamine-formaldehyde and melamine-ureaformaldehyde resins. Journal of Applied Polymer Science 100:1406-1412.
  • Defieuw, G, Groeninckx G, Reynaers H (1989) Miscibility, crystallization and melting behaviour, and morphology of binary blends of polycaprolactone with styrene-comaleic anhydride copolymers. Polymer 30:2158-2163.
  • Das S, Matuana LM, Heiden P (2008) Thermoplastic polymers as modifiers for urea-formaldehyde wood adhesives. III. In situ thermoplastic-modified wood composites. Journal of Applied Polymer Science 107:3200-3211.
  • Cui HW, Du GB (2013) Development of a novel polyvinyl acetate type emulsion curing agent for urea-formaldehyde resin. Wood Science and Technology 47:105-119.
  • Crowe Jr GA, Lynch CC (1949) Polarographic urea-formaldehyde kinetic studies. Journal of the American Chemical Society 71:3731-3733.
  • Crowe Jr GA, Lynch CC (1948) Urea-formaldehyde kinetic studies. Journal of the American Chemical Society 70:3795-3797.
  • Cosco S, Ambrogi V, Musto P, Carfagna C (2007) Properties of poly(urea-formaldehyde) microcapsules containing an epoxy resin. Journal of Applied Polymer Science 105:1400-1411.
  • Conner AH (1996) Urea-formaldehyde adhesive resins. In Polymeric Materials Encyclopedia. Salamone JC, editor in chief. CRC Press, Florida, USA. p.8496-8501.
  • Chuang IS, Maciel GE (1994) NMR study of the stabilities of urea-formaldehyde resin components toward hydrolytic treatments. Journal of Applied Polymer Science 52: 1637-1651.
  • Chuang IS, Maciel GE (1992) Carbon-13CP/MAS NMR study of the structural dependence of urea-formaldehyde resins on formaldehyde-to-urea molar ratios at different urea concentrations and pH values. Macromolecules 25(12):3204-3226.
  • Christjanson P, Siimer K, Pehk T, Lasn I (2002) Structural changes in urea-formaldehyde resins during storage. Holz als Roh-und Werkstoff 60:379-384.
  • Christjanson P, Pehk T, Siimer K (2006) Structure formation in urea-formaldehyde resin synthesis. Proceedings of the Estonian Academy of Sciences. Chemistry 55(4):212-225.
  • Chow S, Steiner PR (1975) Catalytic, exothermic reactions of urea-formaldehyde resin. Holzforschung 29:4-10.
  • Chase W, Lang M, Sommer JU, Saalw chter K (2012) Cross-link density estimation of PDMS networks with precise consideration of networks defects. Macromolecules 45(2):899-912.
  • Celzard A, Pizzi A, Fierro V (2008) Physical gelation of water-borne thermosetting resins by percolation theory urea-formaldehyde, melamine-urea-formaldehyde, and melamine-formaldehyde resins. Journal Polymer Science Part B: Polymer Physics 46:971-978.
  • Causin V, Marega C, Saini R, Neppalli R, Ferrara G, Adhikari R, Marigo A (2012) Structure-property relationships in heterophasic thermoplastic elastomers filled with montmorillonite. Journal of Nanoscience and Nanotechnology 12(3):1859-1870.
  • Causin V, Marega C, Marigo A, Ferrara G, Idiyatullina G, Fantinel F (2006) Morphology, structure and properties of a poly(1-butene)/ montmorillonite nanocomposite. Polymer 47:4773–4780.
  • Causin V (2014) Scattering studies on natural rubber based blends and IPNs. In: Natural Rubber Materials: Volume 1: Blends and IPNs. Thomas S, Chan CH, Pothen L, Rajisha KR, Maria H, editors. Royal Society of Chemistry, London. p.501-529.
  • Carvalho LMH, Costa MRPFN, Costa CAV (2006) A very simple empirical kinetic model of the acid-catalyzed cure of urea-formaldehyde resins. Journal of Applied Polymer Science 102:5977-5987.
  • Brown EN, Kessler MR, Sottos NR, White SR (2003) In situ poly(urea-formaldehyde) micro-encapsulation of dicyclopentadiene. Journal of Microencapsulation 20(6): 719-730.
  • Bolton AJ, Irle MA (1987) Physical aspects of wood adhesive bond formation with formaldehyde based adhesives part I. The effect of curing conditions on the physical properties of urea-formaldehyde films. Holzforschung 41(3):155-158.
  • Bolton AJ, Dinwoodie JM, Davies DA (1988) The validity of the use of SEM/ EDAX as a tool for the detection of UF resin penetration into wood cell walls in particleboard. Wood Science and Technology 22:345-356.
  • Bikaris DN, Papageorgiou GZ, Achilias DS (2006) Synthesis and comparative biodegradability studies of three poly(alkylene succinate)s. Polymer Degradation and Stability 91:31-43.
  • Barminas JT, Osemeahon SA (2010) Preparation and characterization of a low-formaldehyde-emission methylol urea/ triethanolamine copolymer composite. Journal of Applied Polymer Science 116:645-653.
  • Bar G, Ganter M, Brandsch R, Delineau L, Whangbo MH (2000) Examination of butadiene/ styrene-co-butadiene rubber blends by tapping mode atomic force microscopy. Importance of the indentation depth and reduced tip-sample energy dissipation in tapping mode atomic force microscopy study of elastomers. Langmuir 16(13):5702-5711.
  • Azoug A, Constantinescu A, Pradeilles-Duval RM, Vallat MF, Nevi re R, Haidar B (2012) Effect of the sol fraction and hydrostatic deformation on the viscoelastic behavior of prestrained highly filled elastomers. Journal of Applied Polymer Science 127(3):1772-1780.
  • Ariaz-P rez R, Lorenzo-Ferreira RA, Alvarez-Devesa A (1992) Determination of formaldehyde in particle boards using headspace gas chromatography. Wood Science and Technology 26:219-226.
  • Altinok M, Atar M, Keskin H, Korkut S, Kocaturk I (2011) Determination of bonding performance of several modified wood adhesives. International Journal of Physical Sciences 6(2):294-300.
  • Adamopoulos S, Bastani A, Gasc n-Garrido P, Militz H, Mai C (2012) Adhesive bonding of beech wood modified with a phenol-formaldehyde compound. European Journal of Wood Products 70:897-901.
  • Abdullah ZA, Park BD (2010) Influence of acrylamide copolymerization of urea-formaldehyde resin adhesives to their chemical structure and performance. Journal of Applied Polymer Science 117:3181-3186.
  • Abdullah ZA, Park BD (2009) Hydrolytic stability of cured urea-formaldehyde resins modified by additives. Journal of Applied Polymer Science 114:1011-1017.