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At present, carbon nanotubes [6], graphene [7], gold nanoparticles [8] and other composite materials are widely used in electrochemical instruments to enhance the sensitivity of luteolin detection.
So it is used as a new type of electrochemical auxiliary electrode material [9, 10].
Journal of the Science of Food and Agriculture. doi:10.1002/jsfa.10739
Journal of the Science of Food and Agriculture 101 (1):240-252. doi:10.1002/jsfa.10636
Journal of Food Science and Technology 55 (10):4304-4310. doi:10.1007/s13197-018-3373-x

Introduction Modern material engineering pays great attention to creating "smart" adaptive materials for various applications.
One of the most interesting classes of such systems is photosensitive organic materials.
Thus, the combination of various environmental effects opens new possibilities for the structure control and, ultimately, design of new "smart" materials.
To study the effect of different external factors on the materials structure a unique setup, that includes UV-lamp and heating/cooling stage, was developed.
Elyashevitch, Photochromic LC-polymer composites containing azobenzene chromophores with thermally stable Z-isomer, Journal of Materials Chemistry 2 (2014) 4482-4489

Hall, Microstructural effects in hot-explosively-consolidated W-Ti alloys, Journal of Materials Processing Technology. 94 (1999) 247-260
Mamalis, Shock synthesis and densification of tungsten based heavy alloys, Journal of Materials Processing Technology. 161 (2005) 113-120
Itoh, Optimal design of shock compaction device, Materials science forum. 566 (2008) 339-344
Itoh, The industrial Applications of Underwater Shock Wave, Materials science forum. 566 (2008) 361-372
Shen, Experiment Study on the Hot-shock Consolidation of Tungsten Powder, Materials science forum. 673 (2011) 107-112

The molecules of water in materials are polar molecules, its polarity orientation changes with the electronic magnetic field[1-2].
In a very short time，Materials have a fast drying rate when the temperature of the material cells rised rapidly and the rapid evaporation of water.
Not only the temperature of the materials rised fast, but also dry crop quality have relatively large fluctuations.
And sometimes even singed inside of materials[3].
Qptimization of Technical Parameters for Microwave-Vacuum Drying of Chinese Prickly Ash, Journal of Southwest University(Natural Science Edition), 30(2008)：182–183

Temp embrittlement of low alloy ferritic steels such as Cr-Mo steel and Cr-Mo-V steel, which are used for heat-resistant materials of the plant, occurs during long term service at 350 to 550℃.
Electrical resistivity method is useful to distinguish early degradation degree of low alloy ferritic steels, but it is difficult to distinguish the damage degree of long-term aged materials [4].
Magnetic characteristics measurement method is known superior in distinguishing the degradation degree of long-term served materials [5].
Ryu: Journal of the Korean Society for Nondestructive Testing Vol. 21 (2001), pp. 532-541 [5] K.S.
Nam: Journal of the Korean Society for Nondestructive Testing Vol. 20 (2000), pp. 424-43

Two possibilities of material behavior are considered during the relaxation procedure: purely elastic relaxation and elastic-plastic relaxation.
Chou, Experimental evaluation of minimum quantity lubrication in near micro-milling, Journal of Materials Processing Technology. 210 (2010) 2163-2170
Maulik, Effects of coolant on temperature distribution in metal machining, Materials science and technology. 4 (1988) 1006-1019
Journal of manufacturing science and engineering. 128 (2006) 416-424
Liang, Modeling of Residual Stresses in Milling, International Journal of Advanced Manufacturing Technology. 65 (2013) 717-733

Experimental Materials.
Sherwood, Studies of the effect of size on carbon fiber surfaces, Journal of Vacuum Science & Technology A 12 (1994) 2392-2397
Wang, Effects of emulsion sizing with nano-SiO2 on interfacial properties of carbon fibers/epoxy composites, Journal of materials science 42 (2007) 6347-6352
Horn, Functionalization of carbon fibers by anodic oxidation: Surface analysis by X-ray photoelectron spectroscopy, Proceeding of the 17th European Conference on Composite Materials ECCM-17 in Munich, Germany, 2016
Wendt, Estimation of the Surface Free Energy of Polymers, Journal of Applied Polymer Science 13 (1969) 1741-1747

In Journal of Materials Processing Technology.
Journal of Materials Processing Technology.
Journal of Materials Processing Technology, Vol. 211, 2011, pp. 2140 – 2151
Journal of Materials Processing Technology, Vol. 103, 2000, No.1, pp. 114 – 119
Journal of Materials Processing Technology, 159 (3), 2005, pp. 397 – 400

Misra, S.Sumithra, N.S.Chauhan, W.M.Nolting, P.F.P.Poudeu, KevinL.Stokes, Materials Science in Semiconductor Processing Vol. 40(2015), p. 453 [2] A.
Budhani, J.of Electronic Materials, Vol. 43, No. 6(2014), p.2035 [5] Li-D.
Toberer, Nature Materials vol.7, (2008) p. 105 [8] M.
Liu, International Journal of Engineering Science vol. 55 (2012) p. 35 [19] A.B.
Seidel, Computational Materials Science vol. 113 (2016) p. 154 [27] F.

Introduction Nanoscale engineering materials have significant mechanical, electrical and thermal performances that are superior to the conventional structural materials.
Carbon nanotubes are the strongest and stiffest materials yet discovered in terms of tensile strength and elastic modulus respectively [2],[7], and [13].
Journal of applied physics 54.9 (1983): 4703-4710
International Journal of Engineering Science 45.2 (2007): 288-307
Computational Materials Science 50.3 (2011): 1052-1056