A Study on the Development and Physical Properties of Low Yellowing Epoxy for Ceramic Preservation
Woo Hyun Kim, Da Som Cheong, Jin Soo Bae, Joo Yeon Jee, Koang Chul Wi
J. Conserv. Sci. 2014;30(2):181-187. Published online 2014 Jun 30 DOI: https://doi.org/10.12654/JCS.2014.30.2.07
|
Citations to this article as recorded by
STRUCTURAL REINFORCEMENT OF FRAGILE ARCHAEOLOGICAL GLASS BY LOSS COMPENSATION USING ACRYLIC SHEETS.
Rania Abdel Gwad ELORIBY, Hamdy Abdel Monem MOHAMED
International Journal of Conservation Science.2023; 14(4): 1279. CrossRef Manufacturing and Characteristics of Hardness Controllable Epoxy for Restoration of Earthenware
Min-Seon Park, Koang-Chul Wi
Journal of Conservation Science.2023; 39(4): 631. CrossRef Scientific Conservation Treatment of the Celadon Jar with the Inscription of ‘the Fourth Sunhwa Year’(National Treasure No.326)
Sun Myung Lee, Oh Young Kwon, Jongseo Park, Woo Rim Han
Journal of Conservation Science.2019; 35(5): 453. CrossRef Accelerated Degradation Test and Failure Analysis of Rapid Curing Epoxy Resin for Restoration of Cultural Heritage
Byeong Jik Nam, Sung Yoon Jang
Journal of Conservation Science.2017; 33(6): 467. CrossRef Evaluation of Physical Properties according to Mixing Ratio and the Survey of the Current Situation for Epoxy Resin used in Conservation
Eun Ji Lee, Sung Yoon Jang
Journal of Conservation Science.2016; 32(2): 223. CrossRef A Study on the Degradation Properties of DGEBA/TETA Epoxy System for Restoration of Ceramics by Temperature
Byeong Jik Nam, Sung Yoon Jang
Journal of the Korean Conservation Science for Cul.2015; 31(4): 373. CrossRef
|