We know that observing the target, observing the light source or light, and the viewer (human vision or a certain color measuring device) are the three essential elements for forming a particular color, and they are indispensable. The observer's ability to sense color is affected by many factors. Limitations, almost all variables are included in the three elements of the observed color, these variables affect the ability of color matching, any one of the variables will change the color of the image after the transfer, the following will introduce the impact of these variables.
1 Influence of printing materials
A customer's desired color is usually from a color matching (color matching) system such as Pantone or a standard color sample. However, due to the limitations of the transfer, the color transferred in pad printing is not a complete reflection of the color in the color sample. For the impact of substrates, the following four aspects are mainly considered:
(1) The influence of the substrate color and surface characteristics of the printing material or medium
(2) The number of times required to reach a certain hiding power
(3) Effect of ink additives, diluents and catalysts
(4) Produce a printing method (offset, silkscreen, or pad printing) that suits a certain color standard
1.1 The color and surface characteristics of the substrate
The surface color of the printing material is an important factor influencing the color reproduction of the secret image of the printing technology. When the printed color is observed, the colors seen are formed by reflection of light from the surface of the substrate and the overprint layer of the printed ink into the human eye. Due to the thicker layer of ink deposited on the substrate during printing, the light usually reaches the substrate through the ink layer, and then reflects on the surface of the substrate and passes through the ink layer again to reflect to the human eye. The amount of light reflected on the substrate of the printing material is related to the color of the material itself, and in particular, the color of the substrate itself is dark, and when the light color printed on it is observed, its influence is more obvious.
The surface properties of printing materials such as smoothness or smoothness, and porosity also play an important role in the color reproduction effect. Observing the same color printed on two media with the same color but different flatness, the visual effect obtained is Different: Colors printed on glossy substrates look brighter, sharper and sharper; the same color printed on porous, rough surfaces such as fabrics appears gray. This is due to the difference in light reflected by the two hostages. When the light strikes the surface of a smooth, flat surface, most of the light is reflected at the same angle, so most of the reflected light enters the human eye; instead, it is rough, Porous surface light is reflected from different angles, and much less light is injected into human eyes.
Therefore, the tighter the color of the printed and the substrate is, the better the resulting pad printing effect: a certain color can be better reproduced on a coated or uncoated white paper medium, and in a darker plastic medium The reproducibility is poor.
In addition, under certain specific printing conditions, one or more layers of white ink are preprinted as the base color, otherwise a better matching effect will not be obtained. For example, in the case of transparent bright pigments, a layer of white ink should be preprinted before printing any color in order to avoid loss of characteristics.
1.2 Number of prints
As mentioned earlier, while observing the color of the printed product, the color of the substrate itself is also seen. In order to reduce the influence of the printing material, the selected ink should be as opaque as possible. At the time of pad printing, the thickness of the printing ink layer after drying is about 20% of the etching depth of the printing plate. If the etching depth is 0.001 inches, then the thickness of the film after drying is between 0.0002 inch and 0.00025 inch, which is much thinner than silk screen printing. Therefore, an overly thin film layer is not enough to mask the influence of the color of the substrate. One of the solutions is to increase the etching depth, but when the depth exceeds 0.0015 inches, the effective transferability of the ink is greatly reduced, the image becomes blurred, and the paste starts to appear. Therefore, only another method is needed, that is, the number of times of printing is increased. This process is called double printing or multiple printing.
The use of multiple prints will undoubtedly increase production time. Therefore, before taking multiple prints, it is necessary to determine whether this can achieve the required productivity, even if a single print does not achieve the desired color matching, nor does it have to sacrifice production time. The use of multiple prints at the expense can be achieved by reducing the amount of diluent in the ink or adding pigments. In addition, prior to using multiple prints, it should also be determined whether the details of the image can be kept clear in the case of increasing the number of prints without distortion or bending in the printing process.
1.3 Ink Additives
Ingredients in the ink component also affect the color of the ink. Diluents, catalysts, flow agents, etc. are generally colorless, and therefore, the hiding power of the ink is reduced. For example, adding a certain catalyst (such as hardener) to the ink in a ratio of 2:1 will reduce the hiding power by 50%, which is almost as obvious as the difference between single printing and multiple printing. Therefore, for a member who implements a color match, it is important to understand the additive required and the specific ratio at the time of addition so that the correct addition can be made before the color is developed.
1.4 Production of color samples
Standard color samples are the guarantee for proper printing. Due to the difference in the thickness of the resulting ink film layer in each printing mode, the color sample, whether obtained by silk screen printing or offset printing, must be corrected in use. Color samples used for reference in pad printing also need to be corrected.
2 Observing the environment
Light is generated by electromagnetic radiation, so light is expressed from a portion of the electromagnetic spectrum. The spectral range that can be observed by human eyes is called visible light, from the long wavelength red light to the shorter wavelength blue-violet light. Since the light color seen by the human eye is only a certain wavelength of light in the visible light wave range, the light conditions in the observation environment have a great influence on the observation result. If the colors to be matched are observed during the day and the colors are obtained under fluorescent conditions, then this match is not a true match.
In addition, the environment in which the target turnover is observed also has an effect on the color of the observed image. For example, in the dark background, the color perception obtained by observing the same image with a bright background is different. This is even more important when presenting samples to customers for comments. It is important to ensure that the customer's observation conditions are consistent with the environmental conditions during the printing process, or that the light conditions during production are the same as the customer's observation conditions.
3 The observer can be a human observer, or it can be a color measuring device (such as a spectrophotometer)
It is impossible for any kind of observer to observe the same image in the same way. Human vision can distinguish 10 million colors, and the individual's psychological condition influences his or her feelings about color. When a person's card is healthy, the observed color is not the same as the color he feels when he is tired, sick, or depressed. Adults' feelings are not the same as children's feelings. Moreover, certain types of people are less sensitive to color changes in a certain wavelength range, and some are even color blind patients. Therefore, judging whether a color is correct or not is based on the visual characteristics of many people.
Color measuring equipment such as spectrophotometers are measured by measuring the reflected light from an object in a simulated three-dimensional color model, also known as the color space, in the form of a set of color stimulus matches. During the measurement process, each device is calibrated to the color of the color sample after being calibrated under certain given conditions. These given conditions include lighting conditions or light source types, viewing angles, consideration of the influence of gloss, and the like.
In theory, the results of different device measurements under the same environmental conditions will have the same color matching performance in the color space. But in fact, there are differences between different devices, and the results are different. Even if the same device itself, the results of two consecutive measurements may be different without changing any conditions. In most cases, these subtle differences do not affect the results too much, but problems arise when the different devices under different conditions or the specified color tolerance is too small. Although the printing department and the customer may use the same equipment, since we cannot guarantee that these equipments are calibrated to observe the colors in the same way and complete the measurement, differences often occur. For example, for a person who specifies or sets the color, the gloss factor is taken into consideration when making the color sample, and the printer observes the color matching condition and does not consider the gloss factor when measuring the color sample. Then, although the naked eye observes The matching result is acceptable, but it will be unacceptable from the instrument measurement results. Therefore, it is important to ensure that the measuring equipment and the equipment used to set the colors are observed in the same environment when matching the colors within a specific tolerance range generated by the computer.
Color measurement plays an important role in color matching. The measurement results can produce a large amount of useful information, which can directly indicate the location of the matched color in the color space, and provide help for reliable matching. However, in other cases, although the matching effect is good from the measurement results, it is not ideal from the visual or artistic effects. This is because human vision still occupies a major position in the evaluation of color matching, so it is necessary not only to consider the role of measurement tools in color matching, but also to consider the influence of human subjectivity on subjective perception.
After comprehensively considering the factors involved in observing the target and observing the effects of the environment and observing the role of the subject (measurement equipment and humans), color management becomes simple, and with the understanding and implementation of effective control of the variables, it makes Headache color matching work becomes easy and efficient. I believe that in the near future, the control of color will be more powerful.