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These suggested that there are a lot of deficiencies on the CNTs and are difficult to disperse in matrix materials.
The line structure means that WMWCNTs are easily dispersed in matrix materials than traditional CNTs which are twined together.
The cooked CNTs also have low crystallinity and are difficult to be dispersed in matrix materials such as cathode and anodes of lithium ion battery and polymer composite material.
The WMWCNTs can be dispersed easily in matrix materials.
WMWCNTs can be used widely as addition for application in lithium ion battery and nanocomposite materials.

Materials and Methods Materials used in this study are as follow: TPC natural rubber with mooney viscosity of 83.59 (PT.
Journal of Metals, Materials and Minerals.
Int’l Journal Polymeric Materials 54,(2005) pp. 9-20 [8] Grazyna Janowska and P.
Advanced Materials Research Vol. 626 (2013) pp.114-120 [16] Hoffman W.
Journal of Applied Polymer Science,Vol. 119 (2011) pp.1398–1409 [19] Mark E.

Materials and Experimental Method Materials.
The selected materials used in this work are polypropylene (PP) and flax fibres.
Journal of Materials Science, 2012. 47(6): p. 2700-2711
JOM Journal of the Minerals, Metals and Materials Society, 2006. 58(11): p. 80-86
Journal of Solid Mechanics and Materials Engineering, 2007. 1(9): p. 1073-1084

However, the relevant LCA of graphite anode materials has not been reported in China.
The functional unit of transportation defined as 1 ton kilometers for materials transport.
Technology Review of Anode Materials for Lithium Ion Batteries.
GB/T 24533-2009 Graphite negative electrode materials for lithium ion battery.
Journal of Cleaner Production. 66 (2014) 113-120

Experimental Raw Materials.
References [1]Suryanarayana C, Yoo S H, Groza J R: Journal of Materials Science Letters.
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[5]Yang Y F, Zong Y P, Xu N, Mu Q: Journal of Materials and Metallurgy(in Chinese).

Fabrication and Characterization of Nanocrystalline NiO Prepared by Sol-Gel Process Yu Cai1,a, Zhaoyang Wu2,b, Shengli Zhao2,c and Jine Zhu2,d 1Institute of Information management, Henan University of Science & Technology, Luoyang, Henan, 471003, China; 2School of Materials Science and Engineering, Henan University of Science & Technology, Luoyang, Henan, 471003, China ahappycaiyu@163.com, bwuzhaoyang870203@126.com, cslzhao@mail.haust.edu.cn, djine0736@163.com Keywords: Nickel Oxide; Nano-Crystalline; Sol-Gel.
Among lithium ion battery anode materials, the traditional carbon graphite anode materials are widely used but it can’t staisfy the requirement of high capacity, so more and more researchers pay their attentions on searching for materials owning high capacity and stable performance.
Liu: Materials Science Vol. 270 (1995), p. 590
Yu and S M Li: Journal of Materials Engineering, zl(2006): 110
Shen: Journal of Inorganic Materials.Vol. 19(2004), p. 289

Studies on photodegradation kinetics of Rhodamine B by Titanium dioxide - carbon composite materials Shengmin Sun Chemical center, Harbin University of Commerce, Harbin, Heilongjiang 150076 xdoubao@163.com Key Words: Titanium dioxide; Activated carbon; Photocatalyst Abstract: The composite materials were prepared with high-viscosity clay as carrier, activated carbon as adsorbent, and titanium dioxide as photocatalyst.Kinetic process of photocatalytic degradation of rhodamine B was investigated at different reaction conditions using the composite materials.The results shown that : rhodamine B was the maximum catalytic activity when the initial reaction solution concentration is 5mg/L,pH=6,and composite material dosing quantity is 5g/L.The kinetics of photocatalytic degradation reaction can be expressed by the first-order reaction kinetic model.
Therefore, this study combines the characteristics of the activated carbon and titanium dioxide, makes composite materials with activated carbon and TiO2 as raw materials, and uses Rhodamine B dye wastewater as target degradation to study the composite kinetic of photocatalytic degradation of rhodamine B under different conditions.
Expect to help the development of titanium dioxide composite photocatalyst. 1 Experiments 1.1 The synthesis of titanium dioxide-carbon composite materials Composite material is made of using tetrabutyl titanate as the main raw materials, to prepared titanium dioxide photocatalyst by ultrasonic dispersion method,and clay as the carrier and activated carbon as help adsorbent to be mixed by a certain percentage and then dried at 100℃. 1.2 Measurement and characterization The phases of the compounds are characterized by Rigaka D/max-ⅢA type X-ray Diffraction (XRD) with voltage of 40kV and current of 150mA. 1.3 Photocatalysis To preparate a series of concentrations of standard solution of rhodamine B 1, 2, 3, 4, 5 mg / L.
The kinetics of photocatalytic degradation reaction can be expressed by the first-order reaction kinetic model. 4 Acknowledgements This work was supported by the Natural Science Foundation of Heilongjiang Province (B200902).
[J].Journal of Photochemistry and photobiology A: Chemistry. 2005, (169): 279-287

Materials and Methods.
Bezuglov, Mathematical modeling of fire-proof efficiency of coatings based on silicate composition, Materials Science Forum, 1006 (2020) 70–75
Starova, Experimental and computer researches of ferroconcrete beams at high-temperature influences, Materials Science Forum, 968 (2019) 355–360
Materials Science Forum, 1006 (2020)166–172
Lapovska, Construction materials science: Textbook, Rivne: NUVHP, 2016

According to simulation results, main materials of the wall in ITIS have to endure larger range of temperature than ETIS that leads to the life of materials shorter.
However, moisture has a big influence on the thermal characteristic of building materials and heat transfer.
Temperature inside of the concrete in the ITIS, main body of the wall, is larger in summer and lower in winter than in ETIS, which means, main materials of the wall in ITIS have to endure larger range of temperature than ETIS that leads to the life of materials shorter.
Main materials of the wall in ITIS have to endure larger range of temperature than ETIS that leads to the life of materials shorter.
Westford Massachusetts: Building Science Press Inc, 293-365 [2] ASHRAE (2006).

But these materials are lack of bioactivity.
Cheang: Journal of Materials Processing Technology.
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Kumta: Materials Science and Engineering.
Zhang: Materials Letters.