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Construction and Building Materials 24(10): 1830-1842
Construction and Building Materials 25(11): 4126-4131
Construction and Building Materials 28(1): 333-341
Construction and Building Materials 18(3): 181-188
Construction and Building Materials 24(12): 2339-2346

Due to their wide band width and fast electromechanical response, piezoelectric materials are the most widely used smart materials that received various attentions for energy harvesting applications [1-3].
Polymer based piezoelectric materials provide some advantages over the ceramic piezoelectric materials since polymeric materials are lead free, inexpensive, light in weight, flexible and easy to process.
Furthermore, in the energy harvesting area, polymeric piezoelectric materials can generate higher voltage and power than ceramic piezoelectric materials under certain conditions, such as low impact and moderate wind [4].
Chandrakasan: IEEE Journal of Solid-State Circuits, Vol. 45 (1), (2010), p. 189-204
Siores: Smart Materials and Structures, Vol. 20 (2011), 055019

Microstructure and Properties of Resin-Based Pyrocarbon with Micro-Nano Structure Carbon and TiO2 as Additives Yufei Xiaa, Xiaowen Wub, Yangai Liu, Minghao Fang and Zhaohui Huang School of Materials Science and Technology, China University of Geosciences, Beijing 100083, China axiayufei829@163.com,b xwwu@cugb.edu.cn (Corresponding author) Keywords: Resin-based pyrocarbon; mechanical properties; oxidation resistance; additives Abstract.
Oxidation experiment at 500°C results show that add boric acid against oxidation resistance of resin carbon materials, without boric acid resin carbon the burning loss rate is only 40% of the sample.
Therefore, composite materials has the highest compressive strength when only added graphite micro chip, and on the basis of adding graphite micro chip add TiO2, boric acid or carbon black will make material compressive strength have different degrees of decline.
References [1] Zhao L, Cobalt oxide sol composite phenolic resin pyrolysis carbon structure change, Journal of Functional Polymers. 3(2012)3-7
[4] Zhu JG, Xu SJ, Solution of carbon research, Progress in Materials Science. 4(1988)35-40

Pseudoboehmite is a material with a wide application area.
It is a raw material for γ-alumina production, used as a catalyst [7].
Transmission electron microscopy (TEM): The analysis was realized using a Transmission Electron Microscope (TEM) Hitachi H-9500 from Materials Characterization Center, Whitacre College of Engineering, Texas Tech Univerisity.
Clarke's Analysis of Drugs and Poisons in Pharmaceuticals, Body Fluids and Postmortem Material.
FROST, XPS study of the major minerals in bauxite Gibbsite, bayerite and (pseudo-)boehmite, Journal of colloid and interface Science, v. 296 (2006) p.572-576

"Dust Testing Practical Skills", China Environmental Science Press, 1990.
When receiving the paper, we assume that the corresponding authors grant us the copyright to use the paper for the book or journal in question.
Color figures are welcome for the online version of the journal.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
Clem: submitted to Journal of Materials Research (2003) [6] P.G.

Study on Preparation of Zn/Al Double Metal Oxide by Ion Exchange Method WANG Ying1,2,a, LI Yansheng1,b, LI Kai1,c 1 School of Environmental and Chemical Engineering, Dalian Jiaotong University, Dalian, China, 116028; 2 School of Materials Science and Engineering, Dalian Jiaotong University, Dalian, China, 116028 awangying7919@163.com, bhjx@djtu.edu.cn, clk@163.com Keywords: Weak acid ion exchange resin; Double metal oxide; Adsorption; Calcination Abstract.
The reason was that with the increase of Zn/Al molar ratio, there were more ZnO in the product, and compared to Al2O3, ZnO was a kind of material that was easy to form a specific shape.The reason that whisker was observed was that there were channels for ion diffusion in ion exchange resin, and during the calcination ZnO was formed in the channels of ion exchange resin, namely the ion exchange resin had a neat effect on the microstructure of product.
JOURNAL OF ELECTROCHEMISTRY, 2013, 03:256-261.
Journal of Hazardous Materials, 2006, B136: 330-337
The Chinese Journal of Nonferrous Metals,2008,18(4):745-749.

After simplification, divide the drum into six parts of shaft, cylinder, hoop, plate, front clamp and back clamp, and conduct modeling, as shown in Figure 3 and 4, for the properties of materials of each part, see Table 1.
Applied Technical Guide on Light Sensitive Material and Plate [M].
Journal of Plasticity Engineering, 2007.6
Finite Element Analysis and Structural Optimization of a Vibration Feeder Based on ANSYS[J].International Journal of Plant Engineering and Management,2009
[10] Tokhi MO, Mohamed Z.Modeling of a flexible robot manipulator using finite methods:a symbolic approach[J].Journal of Low Frequency Noise Vibration and Active Control,1999,18(2).

Development of Lamb waves-based SHM systems Lukasz Ambrozinski1,a,*, Tadeusz Stepinski1,2,b, Tadeusz Uhl1,c, Janusz Ochonski1,d, Andrzej Klepka1,e 1AGH University Of Science and Technology, al.
The main advantage of the algorithm is its robustness [3], however it requires precise information on material properties and the thickness of the investigated structure which may be unavailable.
Experimental results Since this work is concerned with damage detection in isotropic materials, the experiments presented in this section were conducted using aluminum plate-like structures.
Su, “Crack identification in aluminium plates using lamb wave signals of a pzt sensor network,” Smart Materials and Structures, vol. 15, no. 3, p. 839, 2006
Fink, “Highly resolved detection and selective focusing in a waveguide using the d.o.r.t. method,” The Journal of the Acoustical Society of America, vol. 105, no. 5, pp. 2634–2642, 1999

It is noted that the different casing thread taper, materials, size parameters, the most suitable amount of variable pitch will not the same.
Acknowledgements The study is subsidized by Zhanjiang West South China Sea Oil Hezhong Offshore Construction Co., LTD (No.YH10ZF1152) and National Natural Science Foundation of China (No.50905036).
Journal of Taishan University, Vol. 32(3), p. 49-55, 2010(In Chinese)
Journal of Pressure Vessel Technology-Transactions of The ASME, 1997, Vol. 119(1), p. 91-95
Journal of Engineering Technology, 1997, Vol. 14(2), P. 42-47.

Material and Experiment Feedstock Materials.
Proximate and ultimate analysis data of the present feedstock materials can be found elsewhere [4].
Series: Earth and Environmental Science, 93, 012072 (2017) 1-13
Biofuel Research Journal, 11 (2016), 448-457
Journal of Physical Chemistry C., 116 (2012) 21416-21429