JP2020037636A - Luminous resin composition and luminous resin molded article - Google Patents

Abstract

To provide a luminous resin composition satisfying II group reference value defined by JIS Z9097 (tidal wave evacuation guidance label system), and capable of providing a molded article excellent in visibility and light resistance, and a luminous resin molded article molded by using the luminous resin composition.SOLUTION: A luminous resin composition contains a luminous body, a coloring agent, and a resin. The luminous body is a compound represented by MAlO:X, wherein M is at least one or more metal elements selected from a group consisting of Ca, S, and Ba, X is at least one or more rare earth metal elements selected from Eu, Dy, Ce, Pr, Sm, Tb, Ho, Er, Tm, and Yb. The coloring agent is perylene orange, and content of the luminous body is 27 to 40 wt.% based on total weight of the luminous body and the resin.SELECTED DRAWING: None

Description

  The present invention relates to a phosphorescent resin composition, and a phosphorescent resin molded article molded using the phosphorescent resin composition.

The light storage body has a property of absorbing and accumulating light such as visible light and ultraviolet light, and further emitting the light. A phosphorescent resin molded article molded using the phosphorescent resin composition containing such a phosphorescent body, after stopping light irradiation, that is, emits light even in a dark place, so that road signs used outdoors, signs, advertisements, Widely used as automotive parts and the like. Furthermore, in recent years, when a tsunami occurs, a phosphorescent resin molded article is used as a tsunami evacuation guidance sign used when people evacuate to a safe place. In this application, a phosphorescent resin molded product that satisfies the class II standard value defined by JIS Z 9097 (Tsunami evacuation guidance sign system), that is, the phosphorescent luminance after 720 minutes after stopping light irradiation, is 10 mcd / m ² or more. It has been demanded.

Conventionally, various light storage resin compositions containing a light storage, a colorant, and a resin have been proposed (for example, Patent Documents 1 and 2). As the phosphor, generally, a yellow-green phosphor having a peak wavelength of 520 nm having components such as SrAl ₂ O ₄ : Eu and Dy, and a peak having components such as Sr ₄ Al ₁₄ O ₂₅ : Eu and Dy. A blue-green phosphor having a wavelength of 490 nm is known.

WO 2015/194224 JP-A-2002-105448

  Conventionally, it has been known that when the content of the colorant in the phosphorescent resin composition increases, the phosphorescent luminance of the phosphorescent resin molded article molded using the phosphorescent resin composition decreases. For this reason, a phosphorescent resin molded product molded using a conventional phosphorescent resin composition is generally an achromatic color that is almost white. When such a phosphorescent resin molded article is used outdoors, there is a problem that visibility from daytime to dusk, sunset, and dark night is poor. Furthermore, since the conventional phosphorescent resin molded product is discolored when used outdoors for a long period of time, there is room for improvement in light resistance.

  The present invention has been made in view of such a situation, and a molded article which satisfies the class II standard value defined by JIS Z 9097 (tsunami evacuation guidance sign system) and has excellent visibility and light resistance. It is an object of the present invention to provide a phosphorescent resin composition capable of obtaining the following, and a phosphorescent resin molded article molded using the phosphorescent resin composition.

The phosphorescent resin composition according to the present invention contains a phosphor, a colorant, and a resin, and the phosphor is MAl ₁₄ O ₂₅ : X (where M is selected from the group consisting of Ca, Sr, and Ba). X is at least one or more rare earth metal elements selected from the group consisting of Eu, Dy, Ce, Pr, Sm, Tb, Ho, Er, Tm, and Yb. ), Wherein the colorant is perylene orange, and the content of the phosphor is 27 to 40% by weight based on the total weight of the phosphor and the resin.

  With such a configuration, the phosphorescent resin composition satisfies the class II standard value defined by JIS Z 9097 (tsunami evacuation guidance sign system), and further has a higher phosphorescent luminance than a conventional phosphorescent resin composition. Can be obtained. In addition, the phosphorescent resin composition contains perylene orange as the coloring agent, so that a molded article excellent in visibility and light resistance can be obtained.

  In the phosphorescent resin composition according to the present invention, the content of the perylene orange is preferably 0.01 to 0.1% by weight based on the total weight of the phosphor and the resin.

  With such a configuration, the phosphorescent resin composition exhibits a 5YR, 10YR, or 5Y hue in the Munsell hue circle when the perylene orange and the phosphor are mixed. Thereby, a molded product excellent in visibility can be obtained.

  In the luminous resin composition according to the present invention, the luminous body preferably has an average particle diameter of 20 to 40 μm.

  With this configuration, the phosphorescent resin composition can provide a molded product having higher phosphorescence luminance.

  In the phosphorescent resin composition according to the present invention, the resin is preferably a polymethyl methacrylate resin.

  With the above configuration, the phosphorescent resin composition can provide a molded product having more excellent light resistance.

  In the phosphorescent resin composition according to the present invention, the resin is preferably a polycarbonate resin.

  With such a configuration, the phosphorescent resin composition can provide a molded article having excellent impact resistance and heat resistance.

  The phosphorescent resin molded product according to the present invention is a phosphorescent resin molded product molded using the above-described phosphorescent resin composition.

  With such a configuration, the phosphorescent resin molded product satisfies the class II standard value defined in JIS Z 9097 (Tsunami evacuation guidance signage system), and further has a higher phosphorescent luminance than a conventional phosphorescent resin molded product. Can be. In addition, the luminous resin molding is molded using a luminous resin composition containing perylene orange as a coloring agent, whereby visibility and light resistance can be improved.

  According to the present invention, a phosphorescent resin composition that satisfies the Class II standard value defined by JIS Z 9097 (Tsunami Evacuation Guidance Sign System) and that can obtain a molded product excellent in visibility and light resistance, and A luminous resin molded article molded using the luminous resin composition can be provided.

  Hereinafter, the phosphorescent resin composition according to the embodiment of the present invention will be described.

<Phosphorescent resin composition>
The luminous resin composition according to the present embodiment contains a luminous body, a colorant, and a resin.

(Phosphor)
The luminous body is a component having a property of absorbing and accumulating light such as visible light and ultraviolet light, and further emitting the light. The phosphorescent material is MAl ₁₄ O ₂₅ : X (where M is at least one metal element selected from the group consisting of Ca, Sr and Ba, and X is Eu, Dy, Ce, Pr, At least one rare earth metal element selected from the group consisting of Sm, Tb, Ho, Er, Tm, and Yb). Examples of the compound include a blue-green phosphor having a peak wavelength of 490 nm represented by Sr ₄ Al ₁₄ O ₂₅ : Eu, Sr ₄ Al ₁₄ O ₂₅ : Eu, Dy, or the like. Among these, Sr ₄ Al ₁₄ O ₂₅ : Eu, Dy is preferable. The compounds may be used alone or in combination of two or more.

  The content of the luminous body is 27 to 40% by weight based on the total weight of the luminous body and the resin. Further, the content is preferably 30% by weight or more, and more preferably 38% by weight or less. When two or more kinds of the luminous bodies are contained, the content is the total content of the luminous bodies.

The average particle diameter (D ₅₀ ) of the phosphor is preferably 20 to 40 μm from the viewpoint of obtaining a molded product having higher phosphorescence luminance. Further, the average particle diameter is more preferably 25 μm or more, and more preferably 35 μm or less. The average particle diameter can be measured, for example, using a laser diffraction scattering method.

(Colorant)
The colorant is perylene orange. The perylene orange has a maximum absorption wavelength of about 525 nm and a maximum excitation wavelength of about 571 nm. By containing perylene orange as the colorant, the phosphorescent resin composition can obtain a molded article excellent in visibility and light resistance. Further, a molded product having a higher phosphorescent luminance than a conventional phosphorescent resin composition can be obtained.

  Examples of commercially available perylene orange include Lumogen O-240 (manufactured by BASF). Note that the colorant may include other known colorants.

  The content of the perylene orange is preferably 0.01 to 0.1% by weight based on the total weight of the phosphor and the resin. When the content is within the above-described range, when the perylene orange and the phosphor are mixed, a Hue of 5YR, 10YR, or 5Y is exhibited in a Munsell hue circle. Thereby, the visibility can be further improved. Note that the content is more preferably 0.02% by weight or more, and more preferably 0.08% by weight or less.

(resin)
The resin is preferably a polymethyl methacrylate resin or a polycarbonate resin. When the resin is a polymethyl methacrylate resin, a molded product having better light resistance can be obtained. When the resin is a polycarbonate resin, a molded article having excellent impact resistance and heat resistance can be obtained.

  The content of the resin is preferably 50 to 80% by weight based on the total weight of the luminous body and the resin. Further, the content is more preferably 55% by weight or more, and more preferably 75% by weight or less.

  With such a configuration, the phosphorescent resin composition can obtain a molded product that satisfies the Class II standard value defined by JIS Z 9097 (Tsunami evacuation guidance sign system) and has excellent visibility and light resistance. .

  The phosphorescent resin composition according to the present embodiment may include other additives as necessary. Examples of the other additives include an ultraviolet absorber, a flame retardant, an anti-dripping agent, an antioxidant, a heat-resistant reinforcing agent, and a crosslinking accelerator.

  The method for producing the luminous resin composition according to the present embodiment is not particularly limited, and, for example, the luminous body, the coloring agent, the resin, and, if necessary, mixing the other additives, It can be produced by melt-kneading.

<Luminescent resin molding>
The phosphorescent resin molded product according to the present embodiment is a phosphorescent resin molded product molded using the above-described phosphorescent resin composition. The molding method is not particularly limited. For example, it is possible to mold using an injection molding method, an extrusion molding method, a molding method using a mold, a lamination molding method, a sheet molding method, a press molding method, or the like. it can.

  The phosphorescent resin molded product satisfies the Class II standard value defined in JIS Z 9097 (Tsunami Evacuation Guidance Sign System), and can have a higher phosphorescent brightness than a conventional phosphorescent resin molded product. Further, the phosphorescent resin molded article can improve visibility and light resistance.

  The phosphorescent resin molded product according to the present embodiment is a phosphorescent resin molded product that satisfies the Class II standard value defined by JIS Z 9097 (Tsunami evacuation guidance sign system), but is limited to the use of the tsunami evacuation guidance sign. Instead, it can be used for other purposes (for example, road signs, signboards, advertisements, automobile parts, etc.).

  Hereinafter, examples of the present invention will be described, but the present invention is not limited to the following examples.

(Production of phosphorescent resin molded product)
First, the components shown in Table 1 were mixed and melt-kneaded to prepare the phosphorescent resin compositions of Examples and Comparative Examples. Next, the phosphorescent resin composition of each Example and Comparative Example was molded using a mold to obtain a molded phosphorescent resin product of each Example and Comparative Example. The size of each phosphorescent resin molded product was 36 mm long × 50 mm wide × 3 mm thick.

Details of each component shown in Tables 1 and 2 are as follows.
P-282011: manufactured by Nichia Corporation, chemical composition = Sr ₄ Al ₁₄ O ₂₅ : Eu, Dy, emission color = cyan, D ₅₀ = 25 μm, peak wavelength = 490 nm
G-300M: manufactured by Nemoto Special Chemical Co., Ltd., chemical composition = SrAl ₂ O ₄ : Eu, Dy, emission color = yellow green, D ₅₀ = 30 μm, peak wavelength = 520 nm
Lumogen O-240: perylene orange, manufactured by BASF, peak wavelength = 525 nm

(Measurement of phosphorescence luminance)
The phosphorescence luminance was measured according to JIS Z 9097 (Tsunami evacuation guidance system). The light irradiation was performed using a xenon lamp (L2175, manufactured by Hamamatsu Photonics KK) at an ultraviolet intensity of 400 μW / cm ² for 60 minutes. Table 1 shows the phosphorescence luminance 720 minutes after the light irradiation was stopped.

(Evaluation of visibility)
In the evaluation of visibility, in the Munsell hue circle, a phosphorescent resin molded product having a hue of 5YR, 10YR or 5Y was rated as ○, and a phosphorescent resin molded product exhibiting other hues was rated as x. Table 1 shows the results.

(Evaluation of light resistance)
First, the phosphorescent resin molded products of Examples 1 and 2 and Comparative Examples 1 and 3 were placed in an ultraviolet fluorescent lamp type light resistance tester (UVCON, manufactured by Atlas), and irradiated with ultraviolet light for 300 hours. Next, the phosphorescent luminance of each phosphorescent resin molded product not irradiated with ultraviolet light and the phosphorescent resin molded product irradiated with ultraviolet light was measured 60 minutes after stopping the light irradiation. In the evaluation of light resistance, a phosphorescent resin molded product having a phosphorescent luminance decrease rate of less than 30% after irradiation with ultraviolet light was evaluated as ○, and a phosphorescent resin molded product having 30% or more was evaluated as ×. Table 1 shows the results.

  As can be seen from the results in Table 1, the phosphorescent resin molded products of Examples 1 and 2 that satisfy all the constituent requirements of the present invention satisfy Class II standard values defined by JIS Z 9097 (Tsunami evacuation guidance system). Further, the phosphorescent resin molded product of Example 1, which satisfies all the constituent requirements of the present invention, can have higher phosphorescent brightness than the phosphorescent resin molded product of Comparative Example 1 containing no perylene orange.

  In addition, the phosphorescent resin molded products of Examples 1 and 2 that satisfy all the constituent requirements of the present invention contain perylene orange, and thus have excellent visibility and light resistance.

On the other hand, since the phosphorescent resin molded product of Comparative Example 1 does not contain perylene orange, the visibility is poor. In addition, since the phosphorescent resin molded products of Comparative Examples 2 and 4 do not contain perylene orange and a compound represented by MAl ₁₄ O ₂₅ : X as a phosphor, they are specified in JIS Z 9097 (Tsunami evacuation guidance sign system). It does not satisfy the Class II standard value and has poor visibility. Furthermore, since the phosphorescent resin molded product of Comparative Example 3 has a phosphorescent content of less than 30% by weight, the phosphorescent resin molded product does not satisfy the Class II standard value defined in JIS Z 9097 (Tsunami evacuation guidance system), and Poor light fastness.

Claims (6)

A phosphorescent resin composition containing a phosphor, a colorant, and a resin,
The phosphorescent material is MAl ₁₄ O ₂₅ : X (where M is at least one metal element selected from the group consisting of Ca, Sr, and Ba, and X is Eu, Dy, Ce, Pr, Sm, Tb, Ho, Er, Tm, and Yb are at least one or more rare earth metal elements).
The colorant is perylene orange,
The luminous resin composition, wherein a content of the luminous body is 27 to 40% by weight based on a total weight of the luminous body and the resin.   The luminous resin composition according to claim 1, wherein the content of the perylene orange is 0.01 to 0.1% by weight based on the total weight of the luminous body and the resin.   The luminous resin composition according to claim 1, wherein the luminous body has an average particle diameter of 20 to 40 μm.   The phosphorescent resin composition according to any one of claims 1 to 3, wherein the resin is a polymethyl methacrylate resin.   The phosphorescent resin composition according to any one of claims 1 to 3, wherein the resin is a polycarbonate resin.   A phosphorescent resin molded article molded using the phosphorescent resin composition according to claim 1.