Journal of Korea TAPPI ISSN:0253-3200(Print) 펄프종이기술

Michelin, M., Gomes, D. G., Romaní, A., Polizeli, M. D. L., and Teixeira, J. A., Nanocellulose production: exploring the enzymatic route and residues of pulp and paper industry, Molecules 25(15):3411 (2020).

Liu, K., Wang, H., Liu, H., Nie, S., Du, H., and Si, C., COVID-19: Challenges and perspectives for the pulp and paper industry worldwide, BioResources 15(3):4638-4641 (2020).

Gupta, P. K., Joshi, G., Rana, V., Rawat, J. S., and Sharma, A., Utilization of pine needles for preparation of sheets for application as internal packaging material, Indian Forester 146(6):538-543 (2020).

Deshwal, G. K., Panjagari, N. R., and Alam, T., An overview of paper and paper based food packaging materials: health safety and environmental concerns, Journal of Food Science and Technology 56(10):4391-4403 (2019).

Marques, G., Rencoret, J., Gutiérrez, A., Alfonso, J. E., and del Río, J. C., Evaluation of the chemical composition of different non-woody plant fibers used for pulp and paper manufacturing, The Open Agriculture Journal 4(1):93-101 (2010).

Fillat, U., Pepió, M., Vidal, T., and Roncero, M. B., Flax fibers as a raw material: How to bleach efficiently a non-woody plant to obtain high-quality pulp, Biomass and Bioenergy 34(12):1896-1905 (2010).

Abd El-Sayed, E. S., El-Sakhawy, M., and El-Sakhawy, M. A. M., Non-wood fibers as raw material for pulp and paper industry, Nordic Pulp & Paper Research Journal 35(2):215-230 (2020).

Wimalasiri, E. M., Jahanshiri, E., Chimonyo, V. G., Kuruppuarachchi, N., Suhairi, T. A. S. T. M., Azam-Ali, S. N., and Gregory, P. J., A framework for the development of hemp (Cannabis sativa L.) as a crop for the future in tropical environments, Industrial Crops and Products 172:113999 (2021).

Leizer, C., Ribnicky, D., Poulev, A., Dushenkov, S., and Raskin, I., The composition of hemp seed oil and its potential as an important source of nutrition, Journal of Nutraceuticals, Functional & Medical Foods 2(4):35-53 (2000).

Elmes, M. W., Kaczocha, M., Berger, W. T., Leung, K., Ralph, B. P., Wang, L., and Deutsch, D. G., Fatty acid-binding proteins (FABPs) are intracellular carriers for Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD), Journal of Biological Chemistry 290(14):8711-8721 (2015).

McCoy, B., Wang, L., Zak, M., Al-Mehmadi, S., Kabir, N., Alhadid, K., and Snead III, O. C., A prospective open-label trial of a CBD/THC cannabis oil in dravet syndrome, Annals of Clinical and Translational Neurology 5(9):1077-1088 (2018).

Liu, M., Fernando, D., Daniel, G., Madsen, B., Meyer, A. S., Ale, M. T., and Thygesen, A., Effect of harvest time and field retting duration on the chemical composition, morphology and mechanical properties of hemp fibers, Industrial Crops and Products 69:29-39 (2015).

Mazian, B., Bergeret, A., Benezet, J. C., and Malhautier, L., Influence of field retting duration on the biochemical, microstructural, thermal and mechanical properties of hemp fibres harvested at the beginning of flowering, Industrial Crops and Products 116:170-181 (2018).

Bismarck, A., Aranberri-Askargorta, I., Springer, J., Lampke, T., Wielage, B., Stamboulis, A., and Limbach, H. H., Surface characterization of flax, hemp and cellulose fibers; surface properties and the water uptake behavior, Polymer Composites 23(5):872-894 (2002).

Dai, D., Fan, M., and Collins, P., Fabrication of nanocelluloses from hemp fibers and their application for the reinforcement of hemp fibers, Industrial Crops and Products 44:192-199 (2013).

Flachowsky, H., Schumann, E., Weber, W. E., and Peil, A., Application of AFLP for the detection of sex-specific markers in hemp, Plant Breeding 120(4):305-309 (2001).

Seng, B., Lorente, S., and Magniont, C., Scale analysis of heat and moisture transfer through bio-based materials-Application to hemp concrete, Energy and Buildings 155:546-558 (2017).

Graupner, N., Herrmann, A. S., and Müssig, J., Natural and man-made cellulose fibre-reinforced poly (lactic acid)(PLA) composites: An overview about mechanical characteristics and application areas, Composites Part A: Applied Science and Manufacturing 40(6-7):810-821 (2009).

Shahzad, A., Hemp fiber and its composites–a review, Journal of Composite Materials, 46(8):973-986 (2012).

Sullins, T., Pillay, S., Komus, A., and Ning, H., Hemp fiber reinforced polypropylene composites: The effects of material treatments, Composites Part B: Engineering 114:15-22 (2017).

Rouison, D., Sain, M., and Couturier, M., Resin transfer molding of hemp fiber composites: optimization of the process and mechanical properties of the materials, Composites Science and Technology 66(7-8):895-906 (2006).

Babu, G. D., Babu, K. S., and Gowd, B., Optimization of machining parameters in drilling hemp fiber reinforced composites to maximize the tensile strength using design experiments, Indian Journal of Engineering & Materials Science 20:385-390 (2013).

Dang, V. and Nguyen, K. L., Characterisation of the heterogeneous alkaline pulping kinetics of hemp woody core, Bioresource Technology 97(12): 1353-1359 (2006).

Liu, Z., Wang, H., and Hui, L., Pulping and papermaking of non-wood fibers, Pulp Pap Process 15:44 (2018).

Buzała, K. P., Kalinowska, H., Przybysz, P., and Małachowska, E., Conversion of various types of lignocellulosic biomass to fermentable sugars using kraft pulping and enzymatic hydrolysis, Wood Science and Technology 51(4):873-885 (2017).

Gümüşkaya, E. and Usta, M., Dependence of chemical and crystalline structure of alkali sulfite pulp on cooking temperature and time, Carbohydrate Polymers 65(4):461-468 (2006).

González, M., Canton, L., Rodriguez, A., and Labidi, J., Effect of organosolv and soda pulping processes on the metals content of non-woody pulps, Bioresource Technology 99(14):6621-6625 (2008).

Alriols, M. G., García, A., Llano-Ponte, R., and Labidi, J., Combined organosolv and ultrafiltration lignocellulosic biorefinery process, Chemical Engineering Journal 157(1):113-120 (2010).

Zomers, F. H., Gosselink, R. J., Van Dam, J. E., and Tjeerdsma, B. F., Organosolv pulping and test paper characterization of fiber hemp, Tappi Journal 78(5):149-155 (1995).

Lee, J. M., Ahn, E. B., Choi, H. S., Ryu, J. A., and Eom, T. J., Study on improvement of preparation efficiency of lignin rich micro-cellulosic fines, Journal of Korea TAPPI 50(5):114-122 (2018).

Kim, K. J., Ryu, J. A., Choi S. R., Jung, B. G., Lee, J. M., and Eom, T. J., Glycol ether-organosolv pulping process of Radiata pine and comparison of characteristics with UKP, Journal of Korea TAPPI 52(1):94-102 (2020).

Mikkonen, K. S., Kirjoranta, S., Xu, C., Hemming, J., Pranovich, A., Bhattarai, M., and Willför, S., Environmentally-compatible alkyd paints stabilized by wood hemicelluloses, Industrial Crops and Products 133:212-220 (2019).

Li, J., Zhang, H., Duan, C., Liu, Y., and Ni, Y., Enhancing hemicelluloses removal from a softwood sulfite pulp, Bioresource Technology 192:11-16 (2015).

Fan, M., Characterization and performance of elementary hemp fibres: factors influencing tensile strength, Bioresources 5(4):2307-2322 (2010).

Chang, C. H., Yu, S. T., and Perng, Y. S., Effects of furnish and refining on properties of household paper, Cellulose Chemistry and Technology 52(5-6):433-440 (2018).

Barbera, L., Pelach, M. A., Pérez, I., Puig, J., and Mutje, P., Upgrading of hemp core for papermaking purposes by means of organosolv process, Industrial Crops and Products 34(1):865-872 (2011).

Ateş, S., Deniz, I., Kirci, H., Atik, C., and Okan, O. T., Comparison of pulping and bleaching behaviors of some agricultural residues, Turkish Journal of Agriculture and Forestry 39(1):144-153 (2015).

Hii, C., Gregersen, Ø. W., Chinga-Carrasco, G., and Eriksen, Ø., The effect of MFC on the pressability and paper properties of TMP and GCC based sheets, Nordic Pulp & Paper Research Journal 27(2):388-396 (2012).