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Experimental Raw Materials and Contents.
References [1] Groza J R, Zavaliangos A: Materials Science and Engineering.Vol. 287 (2000), p. 171
[2] Shimizu H, Yoshinaka M, H irota K: Materials Research Bulletin.
Mu: Journal of Material and Metallurgy(in Chinese).Vol. 6(2007), p. 133 [4] Y.F.
Xu: Materials Research Bulletin (in Chinese).Vol. 8(2007), p. 102 [5] S.Y.

"Decomposition" means in order to offer more convenient to use, the original whole materials should be cut into smaller materials according to differences of materials’ features or purposes.
The "combination" of bamboo split is its inverse process of "decomposition", the original smaller several materials unit joining together with a certain way, combing into one new whole to meet the functional requirements.
Nowadays, as people’s rethinking to material and design have arisen, beyond scope of application to single material, the combining way matching bamboo with other materials also begins to common occurrence,, for instance, a few easy wear or aging node can use a meta ( more sturdy material) to manufacture.
Just weaving process form, is based on simple structure and materials containing orderly whole with complex combination.
References [1] Wensheng Ai etc: journal of hunan forestry science and technology Vol.3 (2005), p. 7–9, in Chinese.

Materials and Methods Raw Materials.
The chemical composition of raw materials was given in Table 1.
Table 1 Chemical composition of raw materials (%) Materials SiO2 Al2O3 Fe2O3 CaO MgO SO3 K2O Na2O IL Cement 20.24 4.43 5.30 63.83 0.97 2.85 0.64 0.08 2.68 Fly ash 60.81 24.12 5.76 3.03 0.55 1.31 0.71 0.32 3.26 Slag 34.20. 13.39 1.20 38.20 9.02 0.28 0.20 0.51 2.73 Fig.1 XRD pattern of stone dust Experimental Methods and Test Methods.
References [1] M.D.A.Thomas, J.D.Matthews: Cement and Concrete Composites.Vol.26 (2004), p.5 [2] Li Pengping, Su Dagen, Wang Shengnian:Journal of Wuhan University of Technology-Materials Science.
Vol.30 (2000), p.1073 [10] Yongjuan Zhang, Xiong Zhang: Construction and Building Materials.

The most frequently used continuous system for the material transportation in the process of extracting and processing of raw materials is the belt conveyance.
The most critical location of CB damage is where the materials falls onto the CB.
Pavliskova, Annalysis of regression model of functional dependency in impact force from height and weight of ram for conveyor, Annals of Faculty Engineering Hunedoara: international journal of engineering 8(3) (2010) 267-270
Jablonska, Mathematical modeling of hyperelastic materials, Transactions of the Universities of Košice 1 (2001) 18-25
Jablonska, Determination of material's characteristics of conveyor belt by using Mooney-Rivlin's material model, Transactions of the Universities of Košice 1 (2001) 26-32

It is well known that fatigue fracture will occur at the material surface under cyclic loading condition, so the fatigue fracture will happen at the peak firstly and the material of the asperity is removed from the top to the bottom.
The asperity surface material is silicon.
It indicated that only when the material at higher position is removed then the material at lower position can be removed.
It is a top to bottom material removal process.
Journal of the electrochemical society.

Acknowledgements The authors appreciate the financial support for this research by the National Natural Science Foundation of China in general program under grant No. 50390061 and the National Science Fund for Distinguished Young Scholars under grant No. 50325518.
Sikder: Materials Science and Engineering Vol. 45 (2004), p. 89-220
Jin: Chinese Journal of Mechanical Engineering Vol. 39 (2003), P. 100-105
Richardson: Materials Characterization Vol. 49 (2002), p.35-44
Shaw: Signal Processing: discret power spectrum analysis, detecting and estimation (Science and Technology Publisher, Beijing, 1982)

Journal of Mining & Safety Engineering.
Journal of China University of Mining &Technology.
Journal of China Coal Society.
Journal of China Coal Society.
Chinese Journal of Rock Mechanics and Engineering.

The raw materials of experiment Nickel slag.
Yu: Materials Review, Vol. 24 (2010) NO.16, p. 432
Huo: Guangdong building materials, Vol. (2009) NO.9, p. 9
Perdikatsis: Journal of Hazardous Materials, Vol. 161 (2009) NO.2, p.760
Jiang: Henan building materials, Vol. (2003) NO.4, p.25

An inventory of all the equipment, raw materials, auxiliary materials and by-products as well as the final product was made during a walkthrough survey for the identification of all the obvious hazards.
The storage of hazardous materials was also investigated.
Fire risks from flammable materials using organic solvents Cuts and lacerations to fingers and hands by blades and other sharp edges.
Safety Science.
Facilities Journal.

Several factors, such as water to cementitious materials ratio (w/c), amount of mineral additive, compounding between different aggregates and cementitious property, amount of water-reducing agent, amount of steel fibers, curing temperature, and curing regiment were considered.
Acknowledgement This study is financially supported by National Natural Science Fund of China (granted No. 50478064).
[3] J.Dugat, N.Roux and G.Bernier: Materials and Structures, Vol.29, No.188, (1996), pp. 233-240
[4] N.Roux, C.Andrade and M.Sanjuan: Journal of Materials in Civil Engineering, Vol.8, No.1 (1996), pp. 1-6
[6] R.Adeline, M.Lachemi and P.Blais: Design and Behaviour of the Sherbrooke Footbridge, Int'l Symposium on High-Performance and Reactive Powder Concretes, Quebec, August, 1998, [7] M.D.William, E.D.Christophe and R.Adeline: Reactive Powder Concrete for Bridge Construction, ASCE Materials Engineering Division: MatCong. 5 th Materials Engineering Congress Materials and Construction, Exploring the Connection, May 10-12, 1999, pp. 359-366