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2018 Vol.50, Issue 5
Reinforcement of Artificially Aged Paper Using Electrospun Poly(vinyl alcohol)/Cellulose Triacetate Fibers

인공 노화 종이에 전기방사된 폴리비닐알콜/셀룰로오스 트리아세테이트 섬유의 종이 보강 효과

Eunsue Jeong
,
Sungchul Shin
,
Hye Jung Youn1
,
Jinho Hyun2
정은수
,
신성철
,
윤혜정 1
,
현진호 2
Department of Biosystems and Biomaterials Science and Engineering, Seoul National University, Seoul, 08826
1Department of Forestry Sciences, Seoul National University, Seoul, 08826
2Research Institute of Agriculture and Life Sciences, Seoul, 08826
서울대학교 농업생명과학대학 바이오시스템소재학부
1서울대학교 농업생명과학대학 산림과학부
2서울대학교 농업생명과학연구원
Corresponding author: E-Mail: jhyun@snu.ac.kr
30 October 2018. pp. 5-11
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Abstract

In this research, we tried to reinforce artificially aged paper by introducing polyvinyl alcohol (PVA)/cellulose triacetate (CTA) double layers through electrospinning. The electrospinning conditions of PVA and CTA were established, and the morphological features of the electrospun fibers were observed by scanning electron microscopy. The aged paper showed the decrease of tensile strength and the folding endurance, but the mechanical properties were effectively increased by the introduction of the electrospun layers. The electrospinning of polymers formed a stable and fibrous reinforcing layer at the paper surface without the use of liquid adhesives. It would be advantageous in the conservation protocol because it could minimize the inevitable deformation of paper in the drying process or contamination by the additive materials.

Keywords
Electrospinning
polyvinyl alcohol
cellulose triacetate
paper conservation
References

Literature Cited

1
M. C. Area and H. Cheradame, Bioresources, Paper aging and degradation: Recent findings and research methods, 6(4); 5307-5337 (2011)

Area, M. C. and Cheradame, H., Paper aging and degradation: Recent findings and research methods. Bioresources 6(4):5307-5337 (2011).

2
L. D’Orazio, G. Gentile, C. Mancarella, E. Martuscelli and V. Massa, Polym. Test, Water-dispersed polymers for the conservation and restoration of Cultural Heritage: a molecular, thermal, structural and mechanical characterisation, 20(3); 227-240 (2001)

D’Orazio, L., Gentile, G., Mancarella, C., Martuscelli, E. and Massa, V., Water-dispersed polymers for the conservation and restoration of Cultural Heritage: a molecular, thermal, structural and mechanical characterisation. Polym. Test 20(3):227-240 (2001).

3
J. W. Baty, C. L. Maitland, W. Minter, M. A. Hubbe and S. K. Jordan-Mowery, Bioresources, Deacidification for the conservation and preservation of paper-based works: A review, 5(3); 1955-2023 (2010)

Baty, J. W., Maitland, C. L., Minter, W., Hubbe, M. A. and Jordan-Mowery, S. K., Deacidification for the conservation and preservation of paper-based works: A review. Bioresources 5(3):1955-2023 (2010).

4
E. Robotti, M. Bobba, A. Panepinto and E. Marengo, Anal. Bioanal. Chem, Monitoring of the surface of paper samples exposed to UV light by ATR-FT-IR spectroscopy and use of multivariate control charts, 388(5-6); 1249-1263 (2007)

Robotti, E., Bobba, M., Panepinto, A. and Marengo, E., Monitoring of the surface of paper samples exposed to UV light by ATR-FT-IR spectroscopy and use of multivariate control charts. Anal. Bioanal. Chem., 388(5-6):1249-1263 (2007).

10.1007/s00216-007-1370-4
5
L. Jiazhen and W. Jingxuan, IFLA Journal, Main factors affecting the preservation of Chinese paper documents: A review and recommendations, 36(3); 227-234 (2000)

Jiazhen, L. and Jingxuan, W., Main factors affecting the preservation of Chinese paper documents: A review and recommendations. IFLA Journal 36(3):227-234 (2000).

6
M. Cocca, L. D’Arienzo, L. D’Orazio, G. Gentile, C. Mancarella, E. Martuscelli and C. Polcaro, Journal of Cultural Heritage, Water dispersed polymers for textile conservation: a molecular, thermal, structural, mechanical and optical characterisation, 7(4); 236-243 (2006)

Cocca, M., D’Arienzo, L., D’Orazio, L., Gentile, G., Mancarella, C., Martuscelli, E. and Polcaro, C., Water dispersed polymers for textile conservation: a molecular, thermal, structural, mechanical and optical characterisation. Journal of Cultural Heritage 7(4):236-243 (2006).

10.1016/j.culher.2005.11.002
7
E. Princi, S. Vicini, E. Pedemonte, V. Arrighi and L. McEwen, J. Appl. Polym. Sci, New polymeric materials for paper and textile conservation. I. Synthesis and characterization of acrylic copolymers, 98(3); 1157-1164 (2005)

Princi, E., Vicini, S., Pedemonte, E., Arrighi, V. and McEwen, L., New polymeric materials for paper and textile conservation. I. Synthesis and characterization of acrylic copolymers. J. Appl. Polym. Sci. 98(3):1157-1164 (2005).

10.1002/app.22120
8
E. Princi, S. Vicini, E. Pedemonte, V. Arrighi and I. J. McEwen, J. Appl. Polym. Sci, New polymeric materials for paper and textiles conservation. II. Grafting polymerization of ethyl acrylate/methyl methacrylate copolymers onto linen and cotton, 103(1); 90-99 (2007)

Princi, E., Vicini, S., Pedemonte, E., Arrighi, V. and McEwen, I. J., New polymeric materials for paper and textiles conservation. II. Grafting polymerization of ethyl acrylate/methyl methacrylate copolymers onto linen and cotton. J. Appl. Polym. Sci. 103(1):90-99 (2007).

10.1002/app.24689
9
M. Cocca, L. D’Arienzo, L. D’Orazio, G. Gentile and E. Martuscelli, Polym. Test, Polyacrylates for conservation: chemico-physical properties and durability of different commercial products, 23(3); 333-342 (2004)

Cocca, M., D’Arienzo, L., D’Orazio, L., Gentile, G. and Martuscelli, E., Polyacrylates for conservation: chemico-physical properties and durability of different commercial products. Polym. Test 23(3):333-342 (2004).

10.1016/s0142-9418(03)00105-3
10
H. A. Carter, Journal of Chemical Education, The chemistry of paper preservation part 3. The strengthening of paper, 73(12); 1160 (1996)

Carter, H. A., The chemistry of paper preservation part 3. The strengthening of paper. Journal of Chemical Education 73(12):1160 (1996).

10.1021/ed073p1160
11
Q. L. Li, S. C. Xib and X. W. Zhang, Journal of Cultural Heritage, Conservation of paper relics by electrospun PVDF fiber membranes, 15(4); 359-364 (2014)

Li, Q. L., Xib, S. C. and Zhang, X. W., Conservation of paper relics by electrospun PVDF fiber membranes. Journal of Cultural Heritage 15(4):359-364 (2014).

10.1016/j.culher.2013.09.003
12
S. W. Choi, J. R. Kim, Y. R. Ahn, S. M. Jo and E. J. Cairns, Chem. Mater, Characterization of electrospun PVdF fiber-based polymer electrolytes, 19(1); 104-115 (2007)

Choi, S. W., Kim, J. R., Ahn, Y. R., Jo, S. M. and Cairns, E. J., Characterization of electrospun PVdF fiber-based polymer electrolytes. Chem. Mater. 19(1):104-115 (2007).

10.1021/cm060223+
13
S. O. Han, W. K. Son, J. H. Youk, T. S. Lee and W. H. Park, Mater. Lett, Ultrafine porous fibers electrospun from cellulose triacetate, 59(24-25); 2998-3001 (2005)

Han, S. O., Son, W. K., Youk, J. H., Lee, T. S. and Park, W. H., Ultrafine porous fibers electrospun from cellulose triacetate. Mater. Lett. 59(24-25):2998-3001 (2005).

10.1016/j.matlet.2005.05.003
14
H. Q. Liu and Y. L. Hsieh, J. Polym. Sci. Pol. Phys, Ultrafine fibrous cellulose membranes from electrospinning of cellulose acetate, 40(18); 2119-2129 (2002)

Liu, H. Q. and Hsieh, Y. L., Ultrafine fibrous cellulose membranes from electrospinning of cellulose acetate. J. Polym. Sci. Pol. Phys. 40(18):2119-2129 (2002).

10.1002/polb.10261
15
M. Ekrem and A. Avci, Compos. Part B-Eng, Effects of polyvinyl alcohol nanofiber mats on the adhesion strength and fracture toughness of epoxy adhesive joints, 138; 256-264 (2018)

Ekrem, M. and Avci, A., Effects of polyvinyl alcohol nanofiber mats on the adhesion strength and fracture toughness of epoxy adhesive joints. Compos. Part B-Eng. 138:256-264 (2018).

10.1016/j.compositesb.2017.11.049
16
C. C. Zhao, Y. Lu and Z. J. Pan, Text. Res. J, Adhesion and protective properties of electrospun PVA/ES composites obtained by using spiral disk spinnerets, 87(14); 1685-1695 (2017)

Zhao, C. C., Lu, Y. and Pan, Z. J., Adhesion and protective properties of electrospun PVA/ES composites obtained by using spiral disk spinnerets. Text. Res. J. 87(14):1685-1695 (2017).

10.1177/0040517516658510
17
Y. I. Yoon, H. S. Moon, W. S. Lyoo, T. S. Lee and W. H. Park, Carbohyd. Polym, Superhydrophobicity of cellulose triacetate fibrous mats produced by electrospinning and plasma treatment, 75(2); 246-250 (2009)

Yoon, Y. I., Moon, H. S., Lyoo, W. S., Lee, T. S. and Park, W. H., Superhydrophobicity of cellulose triacetate fibrous mats produced by electrospinning and plasma treatment. Carbohyd. Polym. 75(2):246-250 (2009).

10.1016/j.carbpol.2008.07.015
Information
  • Publisher :Korea Technical Association of The Pulp and Paper Industry
  • Publisher(Ko) :한국펄프종이공학회
  • Journal Title :Journal of Korea TAPPI
  • Journal Title(Ko) :펄프종이기술
  • Volume : 50
  • No :5
  • Pages :5-11
  • Received Date : 2018-09-03
  • Revised Date : 2018-09-27
  • Accepted Date : 2018-09-28
  • DOI :https://doi.org/10.7584/JKTAPPI.2018.10.50.5.5
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