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The general stage and key stage for quasi-brittle materials can be effectively captured by the software.
Introduction Rock and concrete are as heterogeneous materials as other quasi-brittle materials [1-5], mechanical properties and fracture mechanism of which are particularly complex.
Mechanical experiment [5-7] is an important method to study mechanical behavior of the quasi-brittle materials.
The mechanical properties of materials in the localization band has great difference with out-band, similarly, stress and deformation in-band also are greatly different with out-band.
High-speed camera is applied to capture image in experimental research [11-13], the method is available for dynamical capturing image in deformation or failure process of quasi-brittle materials.

Materials and Methods Materials.
On the other hand, Spectrum 2 exhibited elements coming only from the epoxy and hardener materials.
Novák, Environmental Deterioration of Materials, Transactions on State of the Art in Science and Engineering, Ch. 2, WIT Press, UK, 2007 [15] E.
Chawla, Mechanical Properties of Epoxy Resin – Fly Ash Composite, Journal of Minerals & Materials Characterization & Engineering. 9 (2010) 199-210
Corrosion Engineering, Science and Technology 50(2015) 628-632.

FA-based Optimal Strategy of Train’s Energy Saving with Energy Materials Hui Hu1, 2,a 1 East China Jiaotong University, Nanchang 330013, P.R.China 2 State Key Laboratory of Rail Traffic Control and safety, Beijing Jiaotong University, Beijing 100044, P.R.China ahh24895@163.com Keywords: Energy Saving, Optimal Strategy, Firefly Algorithm, Comparison Analysis;Energy Materials Abstract.
Clem: submitted to Journal of Materials Research (2003) [5] Fu Yinping.
Yang, Firefly algorithms for multimodal optimization, Proceeding of the Stochastic Algorithms Foundations and Applications (SAGA’09),vol.5792 of Lecture Notes in Computing Sciences.
Yang, Firefly algorithm, stochastic test functions and design optimisation, International Journal of Bio-Inspired Comutation, 2010,2(2): 78-84.

Exothermic reaction processes are possible not only for high-energy materials, but also for substances not intended for combustion as objects of research [1–5] (for example, polymers).
Polymeric materials products are widely used as construction elements (pipes, ducts) and decor elements (panel, covering) for production, public and premises buildings.
Polymeric materials have essential shortcomings such as change of thermophysical characteristics over the time, high fire danger and toxicity of pyrolysis products released during heating.
It is known results [6,7] of numerical research for polymeric materials (polystyrene, polymethyl methacrylate, et al.) ignition by single particle heated to a high temperature.
Sheremet, Conjugate Natural Convection in an Enclosure with Local Heat Sources, Computational Thermal Sciences, Vol. 1, No. 3 (2009), pp. 341–360.

Preparation of Green Packaging Materials of Synthetic Paper and its Performance Research Yin Enqiang 1, a, Sun Hongguang 1, b and Li Kai 2, c 1 School of Printing and Packaging, Wuhan University, Wuhan 430079, China 2 School of Light Industry, Zhejiang University of Science and Technology, Hangzhou 310023, China a yeq@whu.edu.cn, b sunhg99@163.com, c peoplestar@126.com Keywords: Synthetic Paper; manufacture; Performance Research Abstract.
It analysises the performance advantages of the green packaging materials made by synthetic paper and the feasibility that it replaces the materials made by paper and plastic, it elaborate the raw material ratio of synthetic paper material and production process, and a study on the mechanical properties of synthetic paper honeycomb paperboard was been done, it provides a theoretical basis to drive the developmental application of green packaging materials made by synthesis paper.
Introduction Today, amang all packaging materials, paper and plastic packaging products occupy the most part of the packaging materials.
Journal of agricultural machinery,2000,31(6)
Journal of Applied Polymer Science . 2009 [6] Chung J, WaasAM.

Research on Biological Materials by Applied Technology with An Algorithm for Identifying and Counting Cells in Microscopic Particle Image Suiyuan Zhang1,a, Rui Wang2,Xianqiao Chen1, Zewu Jiang3 and Xiang Cai1 1Wuhan University of Technology, School of Computer Science and Technology, Wuhan, Hubei, China 2Wuhan University of Technology, School of Energy and Power Engineering, Wuhan, Hubei, China 3Wuhan University of Technology, School of Logistics Engineering, Wuhan, Hubei, China aa_dayuanzi@163.com Keywords: cell microscopic images ; image edge detection ; particle identification ; Biological Materials ; counting cells Abstract.
Summary As the development as science, we pay more and more attention to the Biological Materials.
Huazhong University of Science and Technology, 2012 [2] Zhong Cai.
Journals of images and graphics, 2005, 10(1): 1-10
Journal of Wuhan University of Technology: Information and Management Engineering Edition, 2005, 27(5): 25-27

Dynamic Hydrothermal Synthesis of Super-Low Density Xonotlite Thermal Insulation Materials from Industrial Quartz Powder Hongzhi Yue1, a *, Xin Wang2,b , Zanzhong Yang1,c, Chuncheng Wei1,d 1 School of Materials Science and Engineering, Shandong University of Technology, Zibo, China 2 Institute of Materials Science and Engineering, Ocean University of China, Qingdao, China a zbyhz@163.com, b wangxin.hd@163.com, c yzz@sdut.edu.cn, dchun_cheng@sdut.edu.cn Keywords: xonotlite;dynamic hydrothermal synthesis;thermal insulation materials Abstract.
To widen the application of xonotlite materials needs a very extensive resource of silceous raw materials.
Experimental Materials.
New Building Materials. 6(2006):55-58
International Journal of Thermal Sciences. 50(2011):1838-1844.

Materials with even higher tensile strength are found to fail at less number of cycles after welding.
The performance of components in any application depends on the life of the materials.
Hill “The effects of laser peening and shot peening on high cycle fatigue in 7050-T7451 aluminum alloy”, Journal of Materials Science and Engineering ,2010, pp 699–707 [13] S.
Nemati “The effects of deep rolling and shot peening on fretting fatigue resistance of Aluminum-7075-T6”, Materials Science and Engineering A 516 (2009) 235–247 [15] A.L.M.
Korsunsky “An eigenstrain-based finite element model and the evolution of shot peening residual stresses during fatigue of GW103 magnesium alloy”, International Journal of Fatigue 42 (2012) 284–295 [17] Kyun Taek Cho, Kyung Song, Sang Ho Oh, Young-Kook Lee, Kyoung Mook Lim, Won Beom Lee “Surface hardening of aluminum alloy by shot peening treatment with Zn based ball”, Journal of Materials Science and Engineering A 543 (2012) 44– 49 [18] S.

Optical microscope and Electron microscopy were employed to evaluate the properties and morphology of the materials.
Introduction Phase change materials (PCMs) can store and release energy during phase change processes [1,2].
Microencapsulated phase change materials (MPCMs) not only have the ability of phase change from solid-liquid to presolid-solid in the meantime avoiding the influence of outside moisture, oxygen and other factors, but also can improve the stability of phase change materials.
Experimental (1) Materials and experimental equipment Low melt-point paraffin wax (Tsinghua university CP) was employed as core material.
Chinese Journal of Pesticide Science, Vol. 8 (2006), p. 152

Preparing soil samples from the rocky slope, the cultivated and uncultivated slopes by using ultrasonic methods, we measured the organic materials with a chromatograph mass spectrometer (QP2100).
The results show that the number and types of organic materials decrease from the cultivated slopes to uncultivated slopes and then to rocky slopes.
The spraying-soil-and-seeding technique is to spray artificial soil on the wounded rock slopes paved with a protective net, which builds planting materials for growing vegetation.
Materials and Methods Research Area The area studied is located near the Suining Station of the Suining-Chongqing Railway in the hilly area of Sichuan Province (30°32′N, 105°32′E).
International Journal of Rock Mechanics and Mining Sciences, 2009, 46(1): 148-158