Water-based infrared stealth coating in 8-14μm wavebands

Ye Shengtian; Cheng Shengyue; Liu Zhaohui; Wang Fei; Jia Yifan

doi:10.3788/IRLA201645.0204004

Volume 45 Issue 2

Mar. 2016

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Article Navigation > Infrared and Laser Engineering > 2016 > 45(2): 204004-0204004(6)

Ye Shengtian, Cheng Shengyue, Liu Zhaohui, Wang Fei, Jia Yifan. Water-based infrared stealth coating in 8-14μm wavebands[J]. Infrared and Laser Engineering, 2016, 45(2): 204004-0204004(6). doi: 10.3788/IRLA201645.0204004

Citation:

Ye Shengtian, Cheng Shengyue, Liu Zhaohui, Wang Fei, Jia Yifan. Water-based infrared stealth coating in 8-14μm wavebands[J]. Infrared and Laser Engineering, 2016, 45(2): 204004-0204004(6). doi: 10.3788/IRLA201645.0204004

Water-based infrared stealth coating in 8-14μm wavebands

doi: 10.3788/IRLA201645.0204004

1.
Deptartment of Chemistry &Material,PLA Logistic Engineering University,Chongqing 401311,China;
2.
Unit 92493 of PLA,Huludao 125001,China

Received Date: 2015-06-17
Rev Recd Date: 2015-07-03
Publish Date: 2016-02-25

Abstract

Water-based infrared stealth coating in 8-14m wavebands was studied from three aspects, matrix resin, filler and the properties of coating. Infrared emissivity in 8-14m wavebands was measured by infrared emissometer, infrared absorption was measured by infrared spectrometer(IR), and the surface morphology of the coating was observed by scanning electron microscope(SEM). The results show that acrylic resin are infrared transparent in 8-14m wavebands and suitable for matrix resin; the aluminum paste with low infrared emissivity is easily disperse in water-based coating and suitable for filler. The size, content and form of filler are great influence on the emissivity of coating. Steel plate was chosen as a substrate, the acrylic resin as matrix resin. When the size of the aluminum paste is 2000 mesh, the aluminum paste with 50% leafing aluminum is chosen as the filler, and the content of filler is 15%, the coating infrared emissivity is 0.34.
- water-based coating,
- infrared stealth,
- acrylic resin,
- aluminum paste

References

[1]	Li Bo. Application and development trend of infrared stealth technology[J]. Chinese Optics, 2013, 6(6):818-822.(in Chinese)李波. 红外隐身技术的应用及发展趋势[J]. 中国光学, 2013, 6(6):818-822.
[2]
[3]	Li Junshan, Chen Xia, Li Jianhua. Infrared radiation characteristics contrast betweem target and background on different grounds[J]. Infrared and Laser Engineering, 2014, 43(2):424-428.(in Chinese)李俊山, 陈霞, 李建华. 不同地面背景下目标与背景红外辐射量对比特性[J]. 红外与激光工程, 2014, 43(2):424-428.
[4]
[5]	Chen Shiguo, Jiang Yong, Fang Haobai, et al. IR radiation imaging test, process and evaluation of jet aeroengine[J]. Infrared and Laser Engineering, 2014, 43(3):727-731.(in Chinese)陈世国, 江勇, 方浩百, 等. 喷气发动机红外辐射成像测试、处理与评估[J]. 红外与激光工程, 2014, 43(3):727-731.
[6]
[7]
[8]	Wang Rui. Compound guided system with active laser imaging and passive infrared imaging[J]. Chinese Optics, 2013, 6(4):536-543.(in Chinese)王锐. 激光红外主被动复合导引系统[J]. 中国光学, 2013, 6(4):536-543.
[9]
[10]	Yang Ciyin, Cao Lihua, Zhang Jianping. Measurement of infrared radiation for target airplane based on real-time atmospheric correction[J]. Optics and Precision Engineering, 2014, 22(7):1751-1759.(in Chinese)杨词银, 曹立华, 张建萍. 基于大气实时修正的飞机辐射特性测量[J]. 光学精密工程, 2014, 22(7):1751-1759.
[11]
[12]	Wang Ning. Research on multi-spectral stealth tarpaulin materials[D]. Chongqing:Chongqing University, 2006:4-5.(in Chinese)汪宁. 多频谱隐身篷布材料的研究[D]. 重庆:重庆大学,2006:4-5.
[13]
[14]	Chen Xuan, Zhang Jian, Wang Yanwu, et al. Infrared stealth technology based on performance parameters of camouflage coating[J]. Optics and Precision Engineering, 2009, 17(2):280-285.(in Chinese)陈翾, 张健, 王艳武, 等. 基于涂料性能参数的红外隐身技术[J]. 光学精密工程, 2009, 17(2):280-285.
[15]
[16]	Xu Feifeng, Xu Guoyue, Tan Shujuan, et al. Preparation methods of low infrared emissivity and low glossiness coatings for 8-14m wave band[J]. Ordnance Material Science and Engineering, 2011, 34(4):5-9.(in Chinese)徐飞凤, 徐国跃, 谭淑娟, 等. 8~14m波段低红外发射率与低光泽度兼容涂层的制备方法初探[J]. 兵器材料科学与工程, 2011, 34(4):5-9.
[17]
[18]	Yu H, Xu G, Shen X, et al. Low infrared emissivity of polyurethane/Cu composite coatings[J]. Applied Surface Science, 2009, 255(12):6077-6081.
[19]	Yu H, Xu G, Shen X, et al. Effects of size, shape and floatage of Cu particles on the low infrared emissivity coatings[J]. Progress in Organic Coatings, 2009, 66(2):161-166.
[20]
[21]
[22]	Zhang Weigang, Xu Guoyue, Qiao Jialiang, et al. Low emissivity at 8 to 14m and low near-infrared reflective properties of Al-Sm2O3/polyurethane composite coatings[J]. Acta Materiae Compositae Sinica, 2014, 34(2):436-440.(in Chinese)张伟钢, 徐国跃, 乔加亮, 等. Al-Sm2O3/聚氨酯复合涂层的近红外低反射与8~14m低发射率性能[J]. 复合材料学报, 2014, 34(2):436-440.
[23]
[24]	Li Jingyu, Shi Dongmei. Study on the property of several adhesives for infrared stealth coatings[J]. Modern Paint Finishing, 2010, 13(7):18-20.(in Chinese)李靖宇, 施冬梅. 几种红外隐身涂料黏合剂的性能研究[J]. 现代涂料与涂装, 2010, 13(7):18-20.
[25]
[26]	Zhang Jianqi. Infrared Physics[M]. Xi'an:Xidian University Press, 2013:60-62.(in Chinese)张建奇. 红外物理[M]. 西安:西安电子科技大学出版社,2013:60-62.
[27]
[28]	Sun Handong, Fan Zhen, Chang Dading, et al. The road to enhance emissivity of high temperature infrared emissivity coating[J]. Infrared Technology, 1990, 12(3):31-34.(in Chinese)孙汉东, 樊震, 常大定, 等. 提高高温红外辐射涂层发射率的途径[J]. 红外技术, 1990, 12(3):31-34.
[29]	Liu Lingyun, Gong Rongzhou, Nie Yan, et al. Computation model of the thermal infrared emittance of a coating[J]. Acta Photonica Sinica, 2006, 35(12):1903-1907.(in Chinese)刘凌云, 龚荣洲, 聂彦, 等. 涂层的热红外发射率计算模型[J]. 光子学报, 2006, 35(12):1903-1907.
[30]
[31]
[32]	Liu Xiaodong, Dai Jingmin. Measurement of the complex refractive index of particles based on Mie theory index and transmission method[J]. Infrared and Laser Engineering, 2009, 38(5):820-824.(in Chinese)刘晓东, 戴景民. Mie散射理论测量粒子系复折射率的透射方法[J]. 红外与激光工程, 2009, 38(5):820-824.
[33]	Ren Yue, Hua Ping, Gong Rongzhou. Materials with low infrared emissivity based on epoxy resin[J]. Ordnance Material Science and Engineering, 2011, 34(2):45-48.(in Chinese)任玥, 华萍, 龚荣洲. 基于环氧树脂的低红外发射率材料研究[J]. 兵器材料科学与工程, 2011, 34(2):45-48.

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

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Water-based infrared stealth coating in 8-14μm wavebands

1. Deptartment of Chemistry &Material,PLA Logistic Engineering University,Chongqing 401311,China;

2. Unit 92493 of PLA,Huludao 125001,China

Received Date: 2015-06-17

Rev Recd Date: 2015-07-03

Publish Date: 2016-02-25

Key words:

Abstract: Water-based infrared stealth coating in 8-14m wavebands was studied from three aspects, matrix resin, filler and the properties of coating. Infrared emissivity in 8-14m wavebands was measured by infrared emissometer, infrared absorption was measured by infrared spectrometer(IR), and the surface morphology of the coating was observed by scanning electron microscope(SEM). The results show that acrylic resin are infrared transparent in 8-14m wavebands and suitable for matrix resin; the aluminum paste with low infrared emissivity is easily disperse in water-based coating and suitable for filler. The size, content and form of filler are great influence on the emissivity of coating. Steel plate was chosen as a substrate, the acrylic resin as matrix resin. When the size of the aluminum paste is 2000 mesh, the aluminum paste with 50% leafing aluminum is chosen as the filler, and the content of filler is 15%, the coating infrared emissivity is 0.34.

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Reference (33)

[1]	Li Bo. Application and development trend of infrared stealth technology[J]. Chinese Optics, 2013, 6(6):818-822.(in Chinese)李波. 红外隐身技术的应用及发展趋势[J]. 中国光学, 2013, 6(6):818-822.
[2]
[3]	Li Junshan, Chen Xia, Li Jianhua. Infrared radiation characteristics contrast betweem target and background on different grounds[J]. Infrared and Laser Engineering, 2014, 43(2):424-428.(in Chinese)李俊山, 陈霞, 李建华. 不同地面背景下目标与背景红外辐射量对比特性[J]. 红外与激光工程, 2014, 43(2):424-428.
[4]
[5]	Chen Shiguo, Jiang Yong, Fang Haobai, et al. IR radiation imaging test, process and evaluation of jet aeroengine[J]. Infrared and Laser Engineering, 2014, 43(3):727-731.(in Chinese)陈世国, 江勇, 方浩百, 等. 喷气发动机红外辐射成像测试、处理与评估[J]. 红外与激光工程, 2014, 43(3):727-731.
[6]
[7]
[8]	Wang Rui. Compound guided system with active laser imaging and passive infrared imaging[J]. Chinese Optics, 2013, 6(4):536-543.(in Chinese)王锐. 激光红外主被动复合导引系统[J]. 中国光学, 2013, 6(4):536-543.
[9]
[10]	Yang Ciyin, Cao Lihua, Zhang Jianping. Measurement of infrared radiation for target airplane based on real-time atmospheric correction[J]. Optics and Precision Engineering, 2014, 22(7):1751-1759.(in Chinese)杨词银, 曹立华, 张建萍. 基于大气实时修正的飞机辐射特性测量[J]. 光学精密工程, 2014, 22(7):1751-1759.
[11]
[12]	Wang Ning. Research on multi-spectral stealth tarpaulin materials[D]. Chongqing:Chongqing University, 2006:4-5.(in Chinese)汪宁. 多频谱隐身篷布材料的研究[D]. 重庆:重庆大学,2006:4-5.
[13]
[14]	Chen Xuan, Zhang Jian, Wang Yanwu, et al. Infrared stealth technology based on performance parameters of camouflage coating[J]. Optics and Precision Engineering, 2009, 17(2):280-285.(in Chinese)陈翾, 张健, 王艳武, 等. 基于涂料性能参数的红外隐身技术[J]. 光学精密工程, 2009, 17(2):280-285.
[15]
[16]	Xu Feifeng, Xu Guoyue, Tan Shujuan, et al. Preparation methods of low infrared emissivity and low glossiness coatings for 8-14m wave band[J]. Ordnance Material Science and Engineering, 2011, 34(4):5-9.(in Chinese)徐飞凤, 徐国跃, 谭淑娟, 等. 8~14m波段低红外发射率与低光泽度兼容涂层的制备方法初探[J]. 兵器材料科学与工程, 2011, 34(4):5-9.
[17]
[18]	Yu H, Xu G, Shen X, et al. Low infrared emissivity of polyurethane/Cu composite coatings[J]. Applied Surface Science, 2009, 255(12):6077-6081.
[19]	Yu H, Xu G, Shen X, et al. Effects of size, shape and floatage of Cu particles on the low infrared emissivity coatings[J]. Progress in Organic Coatings, 2009, 66(2):161-166.
[20]
[21]
[22]	Zhang Weigang, Xu Guoyue, Qiao Jialiang, et al. Low emissivity at 8 to 14m and low near-infrared reflective properties of Al-Sm2O3/polyurethane composite coatings[J]. Acta Materiae Compositae Sinica, 2014, 34(2):436-440.(in Chinese)张伟钢, 徐国跃, 乔加亮, 等. Al-Sm2O3/聚氨酯复合涂层的近红外低反射与8~14m低发射率性能[J]. 复合材料学报, 2014, 34(2):436-440.
[23]
[24]	Li Jingyu, Shi Dongmei. Study on the property of several adhesives for infrared stealth coatings[J]. Modern Paint Finishing, 2010, 13(7):18-20.(in Chinese)李靖宇, 施冬梅. 几种红外隐身涂料黏合剂的性能研究[J]. 现代涂料与涂装, 2010, 13(7):18-20.
[25]
[26]	Zhang Jianqi. Infrared Physics[M]. Xi'an:Xidian University Press, 2013:60-62.(in Chinese)张建奇. 红外物理[M]. 西安:西安电子科技大学出版社,2013:60-62.
[27]
[28]	Sun Handong, Fan Zhen, Chang Dading, et al. The road to enhance emissivity of high temperature infrared emissivity coating[J]. Infrared Technology, 1990, 12(3):31-34.(in Chinese)孙汉东, 樊震, 常大定, 等. 提高高温红外辐射涂层发射率的途径[J]. 红外技术, 1990, 12(3):31-34.
[29]	Liu Lingyun, Gong Rongzhou, Nie Yan, et al. Computation model of the thermal infrared emittance of a coating[J]. Acta Photonica Sinica, 2006, 35(12):1903-1907.(in Chinese)刘凌云, 龚荣洲, 聂彦, 等. 涂层的热红外发射率计算模型[J]. 光子学报, 2006, 35(12):1903-1907.
[30]
[31]
[32]	Liu Xiaodong, Dai Jingmin. Measurement of the complex refractive index of particles based on Mie theory index and transmission method[J]. Infrared and Laser Engineering, 2009, 38(5):820-824.(in Chinese)刘晓东, 戴景民. Mie散射理论测量粒子系复折射率的透射方法[J]. 红外与激光工程, 2009, 38(5):820-824.
[33]	Ren Yue, Hua Ping, Gong Rongzhou. Materials with low infrared emissivity based on epoxy resin[J]. Ordnance Material Science and Engineering, 2011, 34(2):45-48.(in Chinese)任玥, 华萍, 龚荣洲. 基于环氧树脂的低红外发射率材料研究[J]. 兵器材料科学与工程, 2011, 34(2):45-48.

Water-based infrared stealth coating in 8-14μm wavebands

doi: 10.3788/IRLA201645.0204004

Abstract

References

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通讯作者: 陈斌, bchen63@163.com

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