Analysis of Using Ultraviolet Light to Test Color Mothball

Color mothball is a daily necessity in Southeast Asia. Mothball contained nearly 100% naphthalene or 100% p-dichlorobenzene. It was used to resist insects, mothproof and mildew with a special odor. In other words, the odor was thought unpleasant enough to drive animals away in repellent products. This research analyzed color mothball which was manufactured by C and N companies. The mothball was dyed with eight dyes and three essences of fragrance, respectively. The experiment of color fastness with UV-light test is to determine how much the color will fade, when it exposed to a known ultraviolet light source. In the last analysis, the experimental data from the spectrum of GC/MS described all kinds of structure on color mothball after 80 hours phototherapy treatment as shown in the content. This research reveals that color mothball can have better appearance and greater performance, to meet the requirements for customs and various applications.

that have been registered for use by the US Environmental Protection Agency.
These include products intended to kill moths in airtight spaces, and to repel vertebrate pests in attics and wall void spaces, even though it is not so popular in Southeast Asia [1] [2]. Because the people in Southeast Asia prefer to use the mothball with various color and strong fragrance, the dyeing technology of mothball have been researched in these years.
This research analyzed the color mothball which was manufactured by China Steel Corporation and Japan Corporation. Let the color mothball with dyed of eight dyes (Four yellow, two red and two green) and fragrance of three essences (sunflower, ginger lily and lavender of essences) respectively. The experiment of color fastness with light test is to determine how much the color will fade when exposed to a known ultraviolet light source. In the research, we try to find a good dyestuff which owned the highest level of light fastness with Kubelka-Munk equation and color spaces of CIE Lab & CIE LCH. In the last analysis, the experiment determined of fragrance structure from Fourier transformed infrared spectroscopy (FT-IR). In addition, we researched into composition of color mothball with different company from gas chromatography-mass spectrometry (GC/MS) and described kinds of structure after 80 hours light test phototherapy treatment [3].
The mothball had the better of color fastness by FT-IR and GC/MS analyzed.
That's just what we expected. In other word, this research reveals the mothball with various colors, better appearance and greater performance in order to satisfy the requirements for market and various applications [4].

Kubelka-Munk Theory (K/S)
We should use K/S where K is the absorption coefficient, S is the scattering coefficient of light in the visible region (400 -700 nm) and R ∞ is reflectance value in maximum absorption wave length (nm) to evaluate the color strength for dye samples. In 1948, Kubelka developed numerous formulas for correlating reflectance with concentration by making scattering and surface difference corrections. It was found that the ratio of light absorption to light scattering at a given wavelength is proportional to the concentration of the dye in the sample. The relationship shown here is derived from the Kubelka-Munk equation [5] [6]: (1) Figure 1 shows the light of incident is I, thickness of dx of scattering is I * S * dx and parts of transmission is I * (1 − S − K) * dx.  colors visible to the human eye and was created to serve as a device independent model to be used as a reference. Figure 2 and Table 1 shows the three coordi-

Production Process of Color Mothball
As below figure.

Results and Discussion
Tables 2-4 show the K/S data of color mothball for initial and after UV-light test from different color series. Color mothball was manufactured from N-company and C-company with dyed of six dyes (Two yellow, two green and two red of dye.) and three essences of fragrance(sunflower, ginger lily and lavender of essences), respectively Figure 3 shows the difference of K/S value (△K/S) in color mothball between initial and after UV-light test. Through the experiment, mothball after UV-light test, the color was darker than initial. We can estimate the appearance is caused by the volatility matter of color mothball. In other Journal of Textile Science and Technology    In Figure 3,  to 1660 cm −1 [9] and rotation of C-O bond at wavelength range from 1410 to 1310 cm −1 [10]. In addition, essences have long alkyl group and vibration of C-F bond at wavelength range from 1350 to 1140 cm −1 [11] [12]. Table 5 showed variety of vibration and rotation group from Fourier transform infrared spectroscopy.
From gas chromatography-mass spectrometry (GC/MS) for N and C company product. The initial compositions of color mothball from C and N company product, as shown in Table 6. Because the composition of the mothballs produced by each company is different, we must discuss whether the different ingredients have an effect on the final result. In the GC/MS analyze, we could get minor constituents of 8 ppm indene, 48 ppm indole, 23 ppm quinoline and 20 ppm iso-quinoline in company C product, but those could not be found almost in N-company product. Mothball of product from N company have more thianaphthene than its in C company product. The retention time of 7.438 min. and 8.841 min. are represent as indene and indole, respectively. Color mothball of C company product have more indene and indole than N company product.
In addition, we found dark solid formed on the surface of color mothball after UV-light test. Thus, Figure 8 shows the GC/MS chromatogram of the dark solid.
These new structure were found in mothball after UV-light test. We conjecture that reason is mothball structure of dye and essences had changed by high energy of UV light. Journal of Textile Science and Technology         Unknows, ppm 9.0 6.0 Journal of Textile Science and Technology Figure 9 shows the structure and properties of dark solid in mothball after UV-light test. It is possible to have environmental pollution as well as adverse human health. Therefore, the volatility gas of mothball is unpleasant and worried in commercial manufacturing. [13]

Conclusion
Naphthalene is a polycyclic aromatic hydrocarbon that is commonly encountered in indoor and outdoor environments. It is a component of crude oil, and it is also a product of natural combustion. A significant source of non-occupational exposures in residential settings is thought to be from the use of naphthalene-based products, particularly mothballs. Naphthalene mothballs contain above 99.4% naphthalene and else product including in thianaphthene. From the experimental studies, the mothball after UV-light test the color was darker than original. This is due to the volatility matter of color mothball. In other words, the unit volume of dye in color mothball is increased. Thus K/S value is increased after UV-light test. From the retention time of GC/MS, we can get original composition of mothball from N and C company product, and the product from C company have more indene, indole, iso-quinoline and quinoline than N company due to minor constituents .The dark solid formed on the surface of color mothball after UV-light test were found. We can estimate the appearance of mothball structure by adding dye and essences, and then observe the appearance Figure 9. The structure and properties of dark solid in mothball after UV-light test. Journal of Textile Science and Technology change by high energy of UV light. In FT-IR analysis, fragrance of three essences (sunflower, ginger lily and lavender of essences) has carboxyl structure, long alkyl group, and C-F bond. From the above experimental results, we think color mothball using dye of Janie pigment 1T with sunflower essences, C.I. 45430:1 with ginger lily essences and Janie pigment 187 with lavender essences have the better color fastness.

Conflicts of Interest
There is no conflict of interest regarding the publication of this paper.