CN101831126A - Fully anti-ultraviolet, anti-fatigue, and anti-malignant melanoma optical protective material - Google Patents

Fully anti-ultraviolet, anti-fatigue, and anti-malignant melanoma optical protective material Download PDF

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CN101831126A
CN101831126A CN 201010169715 CN201010169715A CN101831126A CN 101831126 A CN101831126 A CN 101831126A CN 201010169715 CN201010169715 CN 201010169715 CN 201010169715 A CN201010169715 A CN 201010169715A CN 101831126 A CN101831126 A CN 101831126A
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anti
fatigue
protective material
malignant melanoma
uv
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CN 201010169715
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CN101831126B (en )
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袁敏华
袁涛
陈晓
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袁敏华
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Abstract

The invention relates to a fully anti-ultraviolet, anti-fatigue, and anti-malignant melanoma optical protective material. The optical protective material is characterized by comprising the following materials in percentage by weight: 0.010 to 30.000 weight percent of additive and the balance of base stock, wherein the additive is a fluorescent whitening agent and/or an ultraviolet absorber, and also No.beta-1 decomposition antireflective agent, color-changing agent and/or toner can be added into the additive and the base stock. The optical protective material has the effect of full ultraviolet protection, namely 100 percent of ultraviolet UV400 protection, can prevent harmful light from causing human body to generate malignant melanoma, avoid human fatigue, furniture color change and embrittlement caused by the harmful light, particularly has better advanced protective effect on infants, students and young ladies, and can protect tender skin and slow down the aging process.

Description

全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料 Full anti-fatigue and anti-UV malignant melanoma cell carcinoma optical shield material

技术领域 FIELD

[0001] 本发明涉及到一种光学防护材料的改进,具体指一种全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料。 [0001] The present invention relates to improvements to an optical protective material, specifically refers to an all UV anti-fatigue and anti-malignant melanoma cell carcinoma optical protective material.

背景技术 Background technique

[0002] 紫外线是一种波长比可见光短的看不见的光线,波长范围:280nm-400nm,具有显著的化学效应。 [0002] a UV wavelength shorter than visible light invisible wavelength range: 280nm-400nm, with significant chemical effect. 紫外线不单单来自太阳光,各种人造光源,如紫外线灯、电脑、电视等也会产生一定的紫外线。 Not only from ultraviolet sunlight, a variety of artificial light sources such as UV lamps, computers, TVs, etc. will also produce a certain ultraviolet light. 过量的紫外线照射对人的皮肤和眼睛有一定的伤害,紫外线能破坏人体皮肤细胞,导致皱纹、色斑,使皮肤未老先衰,严重时产生日光性皮炎及晒伤,或皮肤和黏膜的日光性角化症,引起癌变。 Excess ultraviolet radiation on human skin and eyes has some damage, ultraviolet radiation can damage human skin cells, resulting in wrinkles, spots, skin prematurely produce severe solar dermatitis and sunburn, skin and mucous membranes, or actinic keratosis, caused by cancer. 同时紫外线的照射还会伤害到表皮中的Langerhans细胞,而L细胞的主要作用是和T细胞联合对抗外来袭击,这样一来便会破坏人体免疫系统,使免疫能力下降。 Meanwhile ultraviolet radiation will damage the Langerhans cells in the epidermis, which is the main role of L-cells and T-cells in the joint fight against foreign attacks, so that it will destroy the body's immune system, making weakened immune system. 紫外线所产生的有害光会引起人体疲劳、家具变色及脆化,尤其是对幼儿、学生及女士的伤害更为严重,长时间的有害光照射最终将导致人体产生恶性黑色素细胞癌。 Harmful ultraviolet light will be generated by the human body caused by fatigue, brittle and discolored furniture, especially damage to children, students and ladies more serious, harmful light irradiation for a long time will eventually cause the body to produce malignant melanoma cell carcinoma.

[0003] 为了防止紫外线对人体的伤害,人们研发和制造了多种防紫外线技术和产品。 [0003] In order to prevent ultraviolet damage to the human body, people development and manufacture of a wide range of UV technologies and products. 例如:公告号为CN1594646的中国发明专利申请所公开的《一种疏水和防紫外线辐射透明薄膜及其制备》,其是采用磁控溅射法制备氮掺杂二氧化钛疏水和防紫外线辐射透明薄膜。 For example: the Chinese Patent Publication No. CN1594646 the invention disclosed in Application "one hydrophobic and ultraviolet radiation transparent film and a preparation", which is prepared by using a nitrogen-doped titanium oxide magnetron sputtering and UV radiation transparent hydrophobic film. 公告号为CN1951850的中国发明专利申请公开的《防紫外线镀膜玻璃及其制造方法》是采用高温热解喷涂法制造防紫外线镀膜玻璃,但这种镀膜玻璃降低了可见光的透过率,而且也达不到全防紫外线的效果。 "UV coated glass and its manufacturing method" Publication No. Chinese patent application CN1951850 disclosed invention is the use of spray pyrolysis method for producing UV coated glass, coated glass, but this reduces the transmittance of visible light, but also of less than full UV protection effect. 目前还没有一种材料或膜在不影响透光性能、透明度和清晰度的情况下,能达到真正全防紫外线的效果。 There is no material or a film without affecting the light transmission properties, transparency and clarity, and can achieve real full-UV effect.

发明内容 SUMMARY

[0004] 本发明所要解决的技术问题是针对现有技术的现状提供一种能全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料。 [0004] The present invention solves the technical problem of providing for a status prior art can be full-UV and anti-fatigue malignant melanoma cell carcinoma optical protective material.

[0005] 本发明所要解决的另一个技术问题是针对现有技术的现状提供一种能变色的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料。 Another technical problem [0005] to be solved by the present invention is to provide a color change of status for the whole prior art anti-fatigue and anti-UV malignant melanoma cell carcinoma optical protective material.

[0006] 本发明是在制作惯用光学防护材料的原料基础上加入占基料总量0. 010-30. OOOwt %的添加剂,更好的,可以添加β -1#分解增透剂来提高添加剂在基料中的相溶度,从而在不损失材料原有透光性、清晰度的前提下赋予其全防紫外线、抗疲劳、变色等性能。 [0006] The present invention is in the production of a conventional optical base material of the protective material added to the additive comprises 0. 010-30. OOOwt% of the total binder, more preferably, may be added β -1 # decomposing agent-enhancing additives AR the compatibility of the binder, so that no loss of the original light-transmitting material, which gives the whole premise UV clarity, fatigue, color and other properties.

[0007] 本发明解决上述技术问题所采用的技术方案为:该全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于包括: [0007] aspect of the present invention to solve the above technical problem is: the whole anti-fatigue and anti-UV malignant melanoma cell carcinoma optical protective material, comprising:

[0008]添加剂 0. 010-30. OOOwt % [0008] Additives 0. 010-30. OOOwt%

[0009] 基料 余量 [0009] The base balance

[0010] 各组份之和为100wt% ;其中,所述的添加剂选自荧光增白剂和/或紫外线吸收剂,两者混合使用时,荧光增白剂和紫外线吸收剂可以任意比例混合。 [0010] the sum of the components to 100wt%; wherein said additive is selected from optical brighteners, or a mixture of both when the ultraviolet absorber, fluorescent brightening agent and an ultraviolet absorber may be mixed and / or, in any proportions. [0011] 为了提高添加剂与基料的相溶性,提高产品清晰度,上述方案中还可以加入0. 001-0. 150wt%^ β -1# 分解增透剂。 [0011] In order to improve the compatibility of the additive with the binder, improved product clarity, the above-described embodiment may also be added 0. 001-0. 150wt% ^ β -1 # exploded antireflection agent.

[0012] 所述的基料可以选用现有技术中能制作光学防护材料的所有材料,较好的,可以选自丙烯酸酯类聚合物、PET、PVC, PVB, PC、PVP, PS、PU或玻璃。 [0012] The binder may be selected according to the prior art, all materials can produce optically protective material, preferably, may be selected from acrylic polymers, PET, PVC, PVB, PC, PVP, PS, PU, ​​or glass.

[0013] 所述的荧光增白剂可以选用双苯并噁唑类、二苯乙烯基苯类及二苯乙烯基联苯类等荧光增白剂。 [0013] The fluorescent whitening agent can be selected bis benzoxazoles, distyrylbenzenes and the like distyrylbiphenyl fluorescent whitening agent. 较好的,可以选用2,5_双(5-叔丁基-2-苯并噁唑基)噻吩或2,2' -(4, 4' - 二苯乙烯基)双苯并噁唑。 Preferred, you can use 2,5_-bis (5-tert-butyl-2-benzoxazolyl) thiophene, or 2,2 '- (4, 4' - diphenyl vinyl) bisbenzoxazole.

[0014] 所述的紫外线吸收剂也称UV吸收剂,可以选自2_(2'-羟基- 3'-叔丁基-5'-甲基苯基)-5_氯代苯并三唑、2-(2'-羟基-3',5' - 二戊基苯基)苯并三唑、2-(2'-羟基-5'-特辛基苯基)苯并三唑、2-(2'-羟基-3'-叔丁基-5'-甲基苯基)-5-氯代苯并三唑、2- (2H-苯并三唑-2-基)-6-(十二烷基)-4-甲基苯酚、2-羟基-4-正辛氧基二苯甲酮、2-羟基-4-甲氧基二苯甲酮、2-(2'-羟基-5'-甲基苯基) 苯并三唑或醚醛。 Ultraviolet absorbers [0014] The UV absorber is also known, may be selected 2_ (2'-hydroxy - 3'-t-butyl-5'-methylphenyl) benzotriazole -5_ chloro, 2- (2'-hydroxy-3 ', 5' - diamyl phenyl) benzotriazole, 2- (2'-hydroxy-5'Texin Ji phenyl) benzotriazole, 2- ( 2'-hydroxy-3'-tert-butyl-5'-methylphenyl) -5-chloro-benzotriazole, 2- (2H- benzotriazol-2-yl) -6- (twelve alkyl) 4-methylphenol, 2-hydroxy-4-n-octyloxy benzophenone, 2-hydroxy-4-methoxy benzophenone, 2- (2'-hydroxy-5'- methylphenyl) benzotriazole or an ether aldehyde.

[0015] 所述的添加剂还可以包括变色剂,变色剂的用量可根据所制备材料的厚度和基料的量来决定,其用量可以为0.010-20. OOOwt %,较好的用量范围为0. 100-10. OOOwt %,优选0. 200-4. OOOwt %。 [0015] The additives may further include a color agent, the amount of color change agent may be determined according to the thickness and the amount of binder material to be prepared, the amount may be 0.010-20. OOOwt%, preferably in an amount in the range of 0 . 100-10. OOOwt%, preferably 0. 200-4. OOOwt%.

[0016] 所述的变色剂可以选自光敏变色剂和/或温敏变色剂。 According to [0016] may be chosen from photochromic color change and / or temperature sensitive color change agent. 较好的可以选用感光变色MC粉、感光变色PS粉、感光变色OP粉、感光变色水乳剂等。 Better color photosensitive MC powder can be selected, the photosensitive color PS powder, photosensitive color pink OP, photochromic water emulsions.

[0017] 根据需要和基料的实际情况还可以选择性加入色剂,即颜料,色剂的添加量也是根据基料的量和所制备材料的厚度来决定,色剂的添加量一般为0. 001-2. 000wt%,较好的用量范围是0. 005-1. 500wt%。 [0017] According to actual needs and the base material may also be selectively added to the toner, i.e., the amount of added pigments, the toner is determined depending on the thickness of the material preparation and the amount of binder, addition amount of the toner is generally 0 . 001-2. 000wt%, preferably in an amount in the range of 0. 005-1. 500wt%.

[0018] 上述方案中,较好的,所述添加剂的用量可以为0. 100-15. OOOwt %,优选0. 200-8. OOOwt % ;所述β -1#分解增透剂的用量优选0. 005-0. 010wt%o [0018] In the above embodiment, preferably, the additive amount may be 0. 100-15 OOOwt%, preferably 0. 200-8 OOOwt%;.. The β -1 # decomposition is preferably used in an amount AR 0. 005-0. 010wt% o

[0019] 利用本发明的配方所制备的材料能彻底隔离紫外线,避免光疲劳,可达到抗紫外线UV400的功效,具有全防紫外线功能,并且由于β 分解增透剂的添加,进一步提高了材料的透明度和清晰度。 [0019] The prepared using the formulations of the present invention, a material can be completely isolated from ultraviolet, to avoid light fatigue can be achieved by UV efficacy UV400, with full UV protection, and since β exploded added antireflection agent, to further improve the material transparency and clarity.

[0020] 与现有技术相比较,本发明所提供的配方能达到100%抗紫外线UV400的功效, 特别是创造性地采用了β -1#分解增透剂来提高添加剂与基料的相溶性,从而大大地提高了添加剂的使用量,得到的光学防护材料能有效防止有害光引起人体产生恶性黑色素细胞癌,避免有害光所引起的人体疲劳、家具变色及脆化,尤其是对幼儿、学生及女士有较好的提前防护作用,能保护娇嫩肌肤,减缓衰老。 [0020] Compared with the prior art, the present invention provides a formulation up to 100% can UV400 UV efficacy, particularly creative use β -1 # exploded AR agent additive to improve compatibility with the base material, thereby greatly enhancing the amount of additive used, the resulting optical protective material can prevent harmful light caused by the human body melanoma cell carcinoma, avoid tiredness harmful light caused by furniture discoloration and embrittlement, especially for young children, students and Ms. better protective effect in advance, to protect delicate skin and slow down aging. 将本发明所提供的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料制成光学保护膜、电子膜、建筑膜、汽车贴膜、飞机防爆膜等等, 膜层清晰,能彻底隔离紫外线。 The whole is made of UV present invention provides anti-fatigue and anti-malignant melanoma cell carcinoma of the optical material of the optical shield protective film, electronic films, construction film, film car, airplane, etc. explosion-proof membrane, film clarity can completely isolate UV.

具体实施方式 detailed description

[0021] 以下结合实施例对本发明作进一步详细描述。 [0021] The following embodiments in conjunction with embodiments of the present invention is described in further detail.

[0022] 下述实施例中的基料可以任选现有技术中能制作光学防护材料的所有材料,例如丙烯酸酯类聚合物、PET、PVC, PVB, PC、PVP, PS、PU或玻璃; Examples of the binder [0022] The following embodiments all materials can optionally prior art can produce optically protective material, for example, acrylic polymers, PET, PVC, PVB, PC, PVP, PS, PU or glass;

[0023] 荧光增白剂选自现有技术中的双苯并噁唑类、二苯乙烯基苯类及二苯乙烯基联苯类等类的荧光增白剂。 [0023] Fluorescent whitening agent is selected from optical brighteners bis benzoxazole prior art, distyrylbenzenes distyrylbiphenyl and the like class. 例如:2,5-双(5-叔丁基-2-苯并噁唑基)噻吩或2,2' -(4,4' -二苯乙烯基)双苯并噁唑; For example: 2,5-bis (5-tert-butyl-2-benzoxazolyl) thiophene, or 2,2 '- (4,4' - diphenyl vinyl) bisbenzoxazole;

[0024] 所述的紫外线吸收剂选自2-(2 '-羟基-3'-叔丁基-5'-甲基苯基)_5_氯代苯并三唑、2-(2'-羟基-3',5' - 二戊基苯基)苯并三唑、2-(2'-羟基-5'-特辛基苯基)苯并三唑、2-(2'-羟基-3'-叔丁基-5'-甲基苯基)-5_氯代苯并三唑、2-(2H-苯并三唑-2-基)-6-(十二烷基)-4-甲基苯酚、2-羟基-4-正辛氧基二苯甲酮、2-羟基-4-甲氧基二苯甲酮、2-(2'-羟基-5'-甲基苯基)苯并三唑或醚醛; [0024] The ultraviolet absorbent is selected from 2- (2 '- hydroxy-3'-tert-butyl-5'-methylphenyl) _5_-chloro-benzotriazole, 2- (2'-hydroxy 3 ', 5' - diamyl phenyl) benzotriazole, 2- (2'-hydroxy-5'Texin Ji phenyl) benzotriazole, 2- (2'-hydroxy-3 ' - tert-butyl-5'-methylphenyl) benzotriazole -5_ chloro, 2- (2H- benzotriazol-2-yl) -6- (dodecyl) -4- phenol, 2-hydroxy-4-n-octyloxy benzophenone, 2-hydroxy-4-methoxy benzophenone, 2- (2'-hydroxy-5'-methylphenyl) benzo triazole or an ether aldehyde;

[0025] 变色剂选自现有技术中的光敏变色剂和/或温敏变色剂。 [0025] The color agent is selected from the prior art photochromic and / or temperature sensitive color change agent. 例如可以选用感光变色MC粉、感光变色PS粉、感光变色OP粉、感光变色水乳剂等。 MC photosensitive color can be selected, for example, powder, photosensitive color PS powder, photosensitive color pink OP, photochromic water emulsions.

[0026] 色剂可以选用红色剂、蓝色剂等等现有技术中的各种色剂。 [0026] The toner agents can use red, blue and the like of various prior art toner.

[0027] 所用的β -1#分解增透剂为恒士利集团(香港)有限公司出品。 [0027] As used β -1 # antireflection agent is an exploded constant Presley Group (Hong Kong) Limited produced.

[0028] 实施例1 : [0029] 成份 用量) [0028] Example 1: [0029] Ingredients Amount)

[0030] 荧光增白剂 0.800 [0030] Fluorescent Brightener 0.800

[0031] 紫外线吸收剂 0.500 [0031] The ultraviolet absorber 0.500

[0032] β -1#分解增透剂0. 008 [0032] β -1 # decomposing agent AR .008

[0033] 基料 余量 [0033] The base balance

[0034] 各组份之和为100wt%。 [0034] The sum of each component is 100wt%.

[0035] 将上述材料制作成光学保护膜,其制作工艺过程为: [0035] The above materials were made into an optical protective film, its production process is:

[0036] 将上述各组份混合均勻,熔融造粒,然后采用压延法、挤出吹膜法、挤压流涎法或溶剂流涎法制成厚度为50 μ m的薄膜。 [0036] The above components were uniformly mixed, melt granulation, and calendering method, an extrusion blown film method, extrusion method or a solvent salivation SYSTEM salivation to a thickness of 50 μ m films.

[0037] 测试该薄膜的防紫外线性能: [0037] The test UV resistance of the film:

[0038] 将人民币平放在水平桌面上,正面朝上,用紫外线灯照射在人民币上,紫外线灯与纸币之间的距离在5cm左右,在"人民"字的正下方会出现一个明显的水印。 [0038] The renminbi flat on a horizontal table, face up, with ultraviolet light irradiation on the currency, the distance between the UV lamp and the bill is about 5cm, just below the "people" word there will be a clear watermark . 这时,在人民币与紫外线灯之间放入上述薄膜,水印瞬间完全不见了,这说明紫外线没能穿透薄膜,被全部阻挡在该薄膜外面,真正达到了抗紫外线UV400。 At this time, the ultraviolet lamp placed between the RMB and the thin film, watermark instantly disappeared completely, indicating that ultraviolet rays can not penetrate the film is completely blocked in the outside of the film, thereby achieving a UV UV400. 采用该薄膜可制备成各种用品的防护膜,例如玻璃贴膜、镜片贴膜、电子膜、建筑膜、汽车贴膜、飞机防爆膜等,能有效防止有害光引起人体产生恶性黑色素细胞癌,避免有害光所引起的人体疲劳、家具变色及脆化,尤其是对幼儿、学生及女士有较好的提前防护作用,能保护娇嫩肌肤,减缓衰老。 The film can be prepared using a variety of goods, protective film, such as a glass film, a lens film, electronic films, construction film, automotive film, explosion-proof film plane, can prevent harmful light produced by the body due to melanoma cancer cells, to avoid undesirable light human fatigue caused by furniture color and brittle, especially those with better protective effect on early child care, student and women, to protect the delicate skin, slowing aging.

[0039] 实施例2 [0039] Example 2

[0040] 成份 含量(wt % ) [0040] Ingredients Content (wt%)

[0041] 紫外线吸收剂 0.400 [0041] The ultraviolet absorber 0.400

[0042] 荧光增白剂 0.600 [0042] Fluorescent Brightener 0.600

[0043]色剂 0. 015 [0043] The toner 0.015

[0044] 基料 余量 [0044] The base balance

[0045] 实施例3 [0045] Example 3

[0046] 成份 含量(wt % ) [0046] Ingredients Content (wt%)

[0047] 荧光增白剂 3.000 [0047] Fluorescent Brightener 3.000

[0048]变色剂 15. 000[0049] β -1#分解增透剂 0· 050 [0048] The color agent 15. 000 [0049] β -1 # decomposing agent AR 050 0.5

[0050] 基料 余量 [0050] The base balance

[0051] 实施例4 [0051] Example 4

[0052] 成份 含量(wt % ) [0052] The ingredient (wt%)

[0053] 荧光增白剂 10.000 [0053] optical brighteners 10.000

[0054] 紫外线吸收剂 10. 000 [0054] ultraviolet absorbent 10.000

[0055]变色剂 3. 200 [0055] The color agent 3.200

[0056] β -1#分解增透剂 0. 090 [0056] β -1 # decomposing agent AR .090

[0057]蓝色剂 0. 005 [0057] The blue agent 0.005

[0058] 基料 余量 [0058] The base balance

[0059] 实施例5 [0059] Example 5

[0060] 成份 含量(wt % ) [0060] Ingredients Content (wt%)

[0061] 紫外线吸收剂 0.200 [0061] The ultraviolet absorber 0.200

[0062] 荧光增白剂 2.000 [0062] Fluorescent Brightener 2.000

[0063]变色剂 1. 000 [0063] The color agent 1.000

[0064] β -1#分解增透剂 0. 020 [0064] β -1 # decomposing agent AR .020

[0065] 基料 余量 [0065] The base balance

[0066] 实施例6 [0066] Example 6

[0067] 成份 含量(wt % ) [0067] Ingredients Content (wt%)

[0068] 紫外线吸收剂 6. 000 [0068] The ultraviolet absorber 6.000

[0069] 荧光增白剂 5.000 [0069] Fluorescent Brightener 5.000

[0070]变色剂 8. 000 [0070] The color agent 8.000

[0071] β-1#分解增透剂 0.055 [0071] β-1 # 0.055 decomposing agent AR

[0072] 咖啡色剂 1. 500 [0072] Coffee agent 1.500

[0073] 基料 余量 [0073] The base balance

[0074] 采用现有技术将实施例2至实施例6的材料分别制成板材、片材或厚度不等的膜, 采用与实施例1相同的方法测试各成品的性能。 [0074] The prior art material of Example 2 to Example 6 are made of sheet metal, sheet or film of varying thickness, using the same method as in Example 1 to test the performance of each embodiment of the finished product. 这些材料均具有全防紫外线功能,并且清晰度好。 These materials have full UV protection and clarity is good.

[0075] 上述实施例中未涉及到的内容与现有技术相同。 [0075] The contents of the above embodiments relate not to the same as the prior art.

Claims (9)

  1. 一种全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于包括:添加剂 0.010-30.000wt%基料 余量各组份之和为100wt%;其中,所述的添加剂选自荧光增白剂和/或紫外线吸收剂。 An all anti-fatigue and anti-UV malignant melanoma cell carcinoma optical protective material, comprising: an additive 0.010-30.000wt% binder and the balance of the components of 100wt%; wherein said additive is selected from fluorescence whitening agent and / or an ultraviolet absorber.
  2. 2.根据权利要求1所述的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于还包括:0. 001-0. 0 -1#分解增透剂。 The whole of the UV claimed in claim 1, anti-fatigue and anti-malignant melanoma cell carcinoma optical protective material, characterized by further comprising: decomposing # 0001-00-1 antireflection agent.
  3. 3.根据权利要求2所述的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于所述的添加剂还包括变色剂,所述变色剂的用量为0. 010-20. 000wt%。 The whole of the UV claimed in claim 2, anti-fatigue and anti-malignant melanoma cell carcinoma optical protective material, wherein said additive further comprises a color agent, the color agent in an amount of 0. 010-20. 000wt %.
  4. 4.根据权利要求3所述的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于所述变色剂的用量为0. 100-10. 000wt%。 The UV protection of the whole anti-fatigue and anti-3 melanoma cell carcinoma optical protective material, wherein said color agent is used in an amount 0. 100-10. 000wt% claims.
  5. 5.根据权利要求4所述的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于所述变色剂的用量为0. 200-4. 000wt%。 The full UV claim 4, wherein the anti-fatigue and anti-malignant melanoma cell carcinoma optical protective material, wherein said color agent is used in an amount 0. 200-4. 000wt%.
  6. 6.根据权利要求1所述的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于还包括色剂,所述色剂的添加量为0. 001-2. 000wt%。 The whole of the UV claimed in claim 1, anti-fatigue and anti-malignant melanoma cell carcinoma optical protective material, characterized by further comprising 0. 001-2. 000wt% addition amount of toner, the toner.
  7. 7.根据权利要求6所述的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于所述色剂的添加量为0. 005-1. 500wt%。 The whole of the UV claimed in claim 6, anti-fatigue and anti-malignant melanoma cell carcinoma optical protective material, wherein said toner 0. 005-1. 500wt% addition level.
  8. 8.根据权利要求1至7任一权利要求所述的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于所述添加剂的量为0. 100-15. 000wt%。 8. The all-UV according to any one of claims 1 claim 7 fatigue and anti-malignant melanoma cell carcinoma optical protective material, characterized in that the amount of the additive is 0. 100-15. 000wt%.
  9. 9.根据权利要求8所述的全防紫外线抗疲劳及防恶性黑色素细胞癌光学防护材料,其特征在于所述添加剂的用量为0. 200-8. 000wt%。 According to claim 8, the whole UV anti-fatigue and anti-malignant melanoma cell carcinoma optical protective material, wherein said additive is in an amount of 0. 200-8. 000wt%.
CN 201010169715 2010-03-22 2010-03-22 Fully anti-ultraviolet, anti-fatigue, and anti-malignant melanoma optical protective material CN101831126B (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103287013A (en) * 2013-06-19 2013-09-11 江西科为薄膜新型材料有限公司 High thermal insulation ultraviolet-proof solar film
CN103467936A (en) * 2013-09-12 2013-12-25 苏州金海薄膜科技发展有限公司 PET (polyethylene terephthalate) film capable of absorbing and converting ultraviolet light and shortwave blue light and preparation method thereof
CN105295279A (en) * 2015-10-22 2016-02-03 袁敏华 Optical protecting material preventing ultraviolet light and blue light

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104130553A (en) * 2014-08-01 2014-11-05 苏州袭麟光电科技产业有限公司 Anti-ultraviolet solar film and preparation method thereof

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1226580A (en) * 1998-02-18 1999-08-25 国际商业机器公司 High optical contrast resin composition and electronic package utilizing same
CN1422301A (en) * 2000-04-10 2003-06-04 博里利斯技术有限公司 Polymer-based composition and use thereof in packaging
CN101120051A (en) * 2005-02-17 2008-02-06 出光兴产株式会社 Thermoplastic transparent composition having ability to absorb light with wavelength of 410 nm and molded body thereof
WO2009051188A1 (en) * 2007-10-19 2009-04-23 Dai Nippon Printing Co., Ltd. Optical film, polarizing plate and image display device

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1226580A (en) * 1998-02-18 1999-08-25 国际商业机器公司 High optical contrast resin composition and electronic package utilizing same
CN1422301A (en) * 2000-04-10 2003-06-04 博里利斯技术有限公司 Polymer-based composition and use thereof in packaging
CN101120051A (en) * 2005-02-17 2008-02-06 出光兴产株式会社 Thermoplastic transparent composition having ability to absorb light with wavelength of 410 nm and molded body thereof
WO2009051188A1 (en) * 2007-10-19 2009-04-23 Dai Nippon Printing Co., Ltd. Optical film, polarizing plate and image display device

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
《激光与红外》 20080531 黄强等 复合型多波段激光防护PC材料 第421-423页 1-9 第38卷, 第5期 2 *

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103287013A (en) * 2013-06-19 2013-09-11 江西科为薄膜新型材料有限公司 High thermal insulation ultraviolet-proof solar film
CN103467936A (en) * 2013-09-12 2013-12-25 苏州金海薄膜科技发展有限公司 PET (polyethylene terephthalate) film capable of absorbing and converting ultraviolet light and shortwave blue light and preparation method thereof
CN103467936B (en) * 2013-09-12 2016-01-20 苏州金海薄膜科技发展有限公司 pet film and preparation method can be absorbed and converted to ultraviolet light and short wavelength blue light
CN105295279A (en) * 2015-10-22 2016-02-03 袁敏华 Optical protecting material preventing ultraviolet light and blue light
WO2017067091A1 (en) * 2015-10-22 2017-04-27 袁敏华 Optical protective material anti ultraviolet light and blue light

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