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Bongkarn: Materials Science and Engineering A 438-440 (2006), 395-398
Li: Journal of Materials Science 29 (1994), no. 10, 2671-2677
Walter: Journal of Materials Processing Technology 133 (2003), no. 1-2, 195-198
Zhongyu: Journal of Materials Processing Technology 89-90 (1999), 405-409
Havancsak: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 203 (2003), 136-140

Tomohisa[4] et al put forward and experienced an effective method, which was about the reinforcing treatment of the soil rich in water and organic matters with the materials of concrete power, pulp slag, fly coal ash, volcanic ash soil and so on.
Experiments Materials and Chemicals Acrylic acid (Tianjin Bodi Chemical Co., Ltd.), & ammonium persulfate , purified; acrylamide (Beijing Chemical Reagent Company), & isopropanol, impurified.
Acknowledgments The project is supported by Construction Ministry of Science & Technology Project in 2006(Grant Nos 06-K7-5),2008 National Natural Science Fund Project(Grant Nos 20771004), 2008 Anhui research program face project(Grant Nos 08010202144) and Functional Polymer & Chemical Building Materials Innovation Group School of Materials & Chemical Engineering Anhui Institute of Architecture & Industry.
Sample name Blank soil sample WSP+soil sample CaO+WS P+soil sample CBRl=2.5[ mm%] 4.1 4.7 25 CBRl=5[mm %] 3.9 4.2 24.9 Sample name Blank soil sample WSP+ soil sample CaO+WSP+ soil sample Resilient modulus[Mpa] 53.4 66.8 195 References [1] FAN Henghui, GAO Jianen, WU Pute: Journal of Northwest Science Technology of University Agriculture Forest (Natural Science Edition) Vol. 34 (2006) , p.142 [2] WANG Yinmei, YANG Zhongcun, CHEN Wenwu, et al: Rock Mechanics and Engineering Vol. 24 (2005) , p.2556 [3] [3] TANG Xueqin, SONG Maolin, LIU Xiuzhen: Shanxi Science & Technology of Communications Vol. 174 (2005) , p. 44 [4] Tomohisa S, Sawa K, Naitoh N: Zairyo Journal of the Society of Materials Science Japan Vol. 44 (1995) , p. 1025 [5] LIU Jin, CHEN Xiaoming, ZHANG Fengjun, et al: Materials Science & Engineering Vol. 34 (2002) , p. 233 [6] Theca C: Mycological Research Vol. 106 (2002) , p. 935 [7] WANG Yimin, ZHANG Lijuan, CHEN
Yekai, et al: Journal of South China University of Technology(Natural Science Edition) Vol. 34 (2006) , p. 56 [8] WANG Yinhei, HAN Wenfeng, CHEN Wenwu: The Chinese Journal of Geological Hazard and Control Vol. 15 (2004) , p.79 [9] XIANG Wei , CUI Deshan , LIU Li: Earth Science-Journal of China University of Geosciences Vol. 32 (2007) , p. 401 [10] Hyun-Joon Kong, Stacy G.

Fig. 8 The Graph showing the relationship between Actual Vs Theoretical in Aluminum product Fig. 9 The Graph showing the relationship between Actual Vs Theoretical in Mild Steel product Fig. 10 The Graph showing the relationship between Mild Steel and Aluminum References [1] Daw-Kwei Leu, Chung-Ming Hsieh, The influence of coining force on spring back reduction in V-die bending process, journal of materials processing technology 196 (2008) 230–235
Zimniak, The system for sheet metal forming design of complex parts, Journal of Materials Processing Technology 157–158 (2004) [3] J.
Zimniak, The system for sheet metal forming design of complex parts, Journal of Materials Processing Technology, 157 – 158 (2004) [4] W.M.
Rao, Influence of material properties on sheet metal formability limits, Journal of Materials Processing Technology 48 (1995) 35-41
Gorji, The study of spring-back of CK67 steel sheet in V-die and U-die bending processes, Materials and Design 30 (2009) 2410–2419.

Nevertheless, the classical models that depict hygric transport within building materials seem not accurate enough for bio-based materials as they are simplified on several points of view.
Hygrothermal properties of light-earth building materials.
Modelling of hysteresis influence on mass transfer in building materials.
Moisture hysteresis influence on mass transfer through bio-based building materials in dynamic state.
Soil Science Society of America Journal 44. https://doi.org/10.2136/sssaj1980.03615995004400050002x [25] Workshop on Moisture Buffer Capacity - Summary Report, 2003

Fan: Materials Science and Engineering R. 52 (2006) 49-91
Morales: Optical Materials 27 (2005)1295-1300
Bribiesca: Optical Materials 29 (2006) 31-37
Gapontsev: Journal of Luminescence 125 (2007) 271-278
Li: Journal of Luminescence 124 (2007) 351-356.

In biomedical engineering, essential titanium materials are multicompound Ti-Al-X alloys where the ”X” compound is usually vanadium or niobium.
Materials and equipment In the investigations, Ti-Al alloys were used, containing 6.62, 14.11, 24.11 or 48.32%mass Al.
Kriz, Properties of the multi-layer Ti/CrN and Ti/TiAlN coatings deposited with the PVD technique onto the brass substrate, Journal of Materials Processing Technology 143-144 (2003) 832-837
Young, Electron-beam melting of Ti–6Al–4V, Journal of Vacuum Science Technology. 14 (3) (1977) 808-814
Siwiec G.: The Kinetics of Aluminum Evaporation from the Ti-6Al-4V Alloy, Archives of Metallurgy and Materials 58 (4) (2013) 1155 – 1160

High concentration of siloxane groups represent the mesoporous or microporous [5, 6] in silica-pectin materials.
This result show similar data saying that the carbon chains produced from pectin (apples) strengthen the hydrostability of the materials.
However, the temperature of calcination may influence the carbon chains bonding in the silica-pectin materials.
Diniz da Costa, Cobalt oxide silica membranes for desalination, Journal of Colloid and Interface Science 368(1) (2012) 70-76
Nenkova, Synthesis and characterization of pectin/SiO2 hybrid materials, Journal of Sol-Gel Science and Technology (2017)

In the work described in this paper, the change in thermoelastic constant for three materials (316L stainless steel, AA2024 and AA7085) with different strain hardening characteristics is investigated.
Success in detecting these changes has been achieved by applying very large residual stress or plastic strain, or by using materials that are very sensitive to the mean stress effect.
Secondly, since it was suggested that the material dislocation that occurs during strain hardening affects the magnitude of the change in K, three materials with different strain hardening characteristics are investigated.
L., Journal of Applied Physics, Vol. 27, (1956), p. 154-156
L., Measurement Science and Technology, Vol. 21, 8, (2010), doi:10.1088/0957-0233/21/8/085502.

Materials Science and Engineering A , 426 (2006) 85–94
Engineering Science and Technology, an International Journal. 19 (2016) 40-44
He, Phase Transformation and Lattice Parameter Changes of Trivalent Rare Earth Doped YSZ as a Function of Temperature, Journal of Materials Engineering and Performance, 25 (2016) 4686–4694
Materials Processing Technology. 155-156, (2004) 2002-2006
Materials Science: Materials in Electronics. 29, (2018) 4743-4748

Because period of testing call is long, sometimes it cannot accurately characterize for cathode materials.
By using Electrochemical Impedance Spectrum, it would be better to describeperformance of materials.
Because of quick response and preciseness of electrochemical method, it would be better to analyze cathode materials.
This new way is faster than ever before, besides it is also convenient and accurate to analyze materials.
[5] PADHI A K, NANJUNDAWAMY K S,GOODENOUGH J B,Phospho-olivines as positive-elevtrode materials for rechargeable lithium batteries,Journal of the Electrochemical Society,144 (1997) 1188-1194