문서상 인주잉크의 특성 분석을 위한 감정법 구축

This study aimed to develop an analysis method for the physical and chemical properties of stamp ink using nondestructive analysis methods such as microscopy, colorimetry, VSC, and ATR-FTIR. The objective was to determine the source and identity of stamp ink on documents, thus confirming the feasibility of identifying the stamp ink. Through analysis of physical properties using a microscope, samples were classified based on the presence of a marginal zone and the three-dimensional aspect of the filler. This classification enabled the identification class and individual characteristics of each sample. Importantly, the marginal zone was identified as physical characteristic unique to stamp paste ink. Through the analysis of color characteristics of stamp inks, it was possible to classify samples into 12 groups, including stamp, stamp pad, mannyeon stamp, and refill ink samples. When analyzing class characteristics based on color concentration, differences in clustering and distribution of color characteristic were observed. Furthermore, it was determined that utilizing a 2400 DPI resolution, TIFF extension, a CCD image sensor scanner, and partial scanning for imaging is the optimal condition for stamp ink analysis. The analysis of absorption and reflection characteristics in various light source areas using VSC 8000 HS yielding the following result: Stamp paste samples exhibited two characteristics―reflection and half-reflection. Stamp pad samples exhibited four characteristics―reflection, half-reflection, selective absorption, and complete absorption. Mannyeon stamp samples displayed two characteristics―reflection and complete absorption. Refill ink samples exhibited four characteristics―reflection, half-reflection, selective absorption, and complete absorption. Additionally, it was observed that despite differences in concentrations, most samples exhibited the same absorption and reflection characteristics. The analysis of class characteristics by patterning the spectroscopic characteristics(700~4000 cm-1) of the stamp ink using Micro-FTIR yielded the following results. Through FTIR peak analysis of stamp paste, stamp pad, mannyeon stamp, and refill ink, it was confirmed that they were classified into a total of 56 groups. Among these groups, 10 comprised instances where two or more samples showed class characteristics, while 46 groups were identified as having individual characteristics, with each sample demonstrating unique FTIR peak characteristics independently. To identify the stamp ink, the physical and spectroscopic characteristics were categorized and sequentially classified using the identification method. The classification codes include: ① Physical properties (P)-marginal zone (M, Y/N), crystal form (Cry, C/CF/N), color (Col, G1~G12), ② Spectroscopic properties (SP)-VSC (Ref, H/Ref, S/Abs, C/Abs), FTIR (G1~G56). Through this method, an individual identification code could be generated using non-destructive characteristic analysis data of the stamp ink.