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Acknowledgment The authors gratefully acknowledge support for this study from the National Natural Science Foundation of China (No.50975286 and No.50765030), National Ministries Foundation (9140A27040310OC8501) and National Key Laboratory Foundation (9140C85020210OC8505).
Li: Journal of Xi’an Jiao tong university, Vol.33 (1999), p.74.
El-Kaddah, in: Joining of advanced and specialty materials III, edited by M.
Singh et al., ASM International, Materials Park, OH, 2001
[9] Dupont J N and Marder A R: Welding Journal, Vol. 74(1995), p.406

Introduction Additive Manufacturing (AM) defined by ASTM [1], as the “process of joining materials to make objects from 3D model data, usually layer upon layer, as opposed to subtractive manufacturing methodologies, such as traditional machining”.
As the scaffold's material properties and geometry plays a vital role in deciding its compatibility with the tissues, a biocompatible material, medical grade MED 610, has been selected and fabricated using 3D printing. 3D printing is a process in which water-based liquid binder is supplied in a jet onto a starch-based powder to print the data from a CAD drawing.
The 27 scaffolds (3 pore shapes, 3 pore sizes and 3 inter distances) were fabricated using 3D printing technique with Bio-compatible PolyJet photopolymer Medical Grade 610 material.
Gentry et al., “Photopolymerization of powder suspensions for shaping ceramics,” Journal of the European Ceramic Society, vol. 31, no. 14, pp. 2613–2619, 2011 [5] Cooper, Rapid Prototyping Technology, Marcel Dekker, 2001
Journal of Materials science: Materials in Medicine 12, 471-478

As one of lightweight materials, aluminum alloy with low density, vibration reduction, energy-absorbing, anticorrosion, recycling and other advantages, has been the main material in the place of ordinary steel.
Among multiple aluminum alloys, AA6111 aluminum alloy is one of materials which are widely applied in the automobile industry.
Miller: Materials Science and Engineering Vol. 280 (2000), p.37
Nakagawa: Journal of Mater Processing Technology, Vol. 46 (1994): p.455
Jain: Materials Science and Engineering, Vol. 256 (1998), p.69

The system boundary of all materials (cement mortar, clay brick, wood doors, plastic-steel window (60 series), reinforced concrete, rebar, insulation materials etc.) are “from-cradle-to-gate”, involving raw materials acquisition, component production, related transport and energy generation processes [9-13].Meanwhile, the transportation of materials to construction site and construction processes are also considered in materials production phase. 2) Building operation phase.
The main conclusions are as follows: 1) For insulation system with different materials, material/energy consumption ratios of each flow to the total materials/energy consumption is consistent.
Acknowledgements This work is financially supported by the National High Technology Research and Development Program of China (“863” Program, Grant No.2013AA031602), Beijing Natural Science Foundation of China Project—Research on the key issues of the environmental performance of new energy-saving building materials evaluation and design (Grant No.2141001), and Beijing municipal science & technology commission project (D161100002416001) and international cooperation project(SQ2013ZOA000019).
The International Journal of Life Cycle Assessment. 17(2012) 105-118
Building Science. 26(12) (2012) 97-101

Experimental Program Materials.
Ezziane, Activation of Algerian slag in mortars, Construction and Building Materials. 23(1) (2009) 542-547
Etman, Microstructure and durability of ground granulated blast furnace slag cement Mortars, Iranian Journal of Science and Technology, Transactions of Civil Engineering. 45(3) (2021) 1457-1465
Subramaniam, Blast Furnace Slag Hydration in an Alkaline Medium: Influence of Sodium Content and Sodium Hydroxide Molarity, Journal of Materials in Civil Engineering. 32(12) (2020) 04020371
Adesina, A critical review on application of alkali activated slag as a sustainable composite binder, Case Studies in Construction Materials. 11 (2019), e00268

The Debris Flow Disaster Faster-than-early Forecast System（DFS）with Multi-Sensors Integrated Wireless Sensor Networks Rong-Zhao13, a, Caihong- Li1, b, Yunjian-Tan1, Jun-Shi1, Fuqiang- Mu2, Xiaofan-Chen1, Lian -Li1 1School of Information Science & Engineering, Lanzhou University, Lanzhou, 730000, China 2Gansu Wanwei Company,Lanzhou, 730000, China 3Department of Military Logistics, Military Transportation University, Tianjin, 300161, China aemail: sdadanuoer@163.com,bemail:licaihong@lzu.edu.cn Keywords: Debris flow, Faster-than-early Forecast System, wireless sensors networks, Multi-Sensor Abstract.
Debris flows carrying saturated solid materials in water flowing downslope often cause severe damage to the lives and properties in their path.
ACKNOWLEDGMENT The authors acknowledge supports from by the Natural Science Foundation of P.
R. of China (90912003, 61073193), the Key science and technology Foundation of Gansu Province (1102FKDA010), Natural Science Foundation of Gansu Province (1107RJZA188), the Fundamental Research Funds for the Central Universities (lzujbky-2012-47, lzujbky-2012-48).
[8] Huang, Chinje., Ye, Chihhui., Yin Hsiaoyuan., and Wang, Jinde (2005): “Study of debris flow for integration with a geophone,” Chinese Water and Landscape Conservation Journal, Vol. 36 (1), pp.39-53

The primary materials parameter of the building is: the floor use C30 concrete and the elasticity coefficient is E=3.0×104MPa, other component use C40 concrete and the elasticity coefficient is E=3.25×104MPa, the density unification uses 2700kg/m3; The building use pile foundation, the material parameter is the same with the frame.
This article mainly refers to the Nanjing subway peripheral geology to carry on the model, the material supposition which the numerical simulation uses for the elasticity material.
Building's damage degree which causes under the vibration is not only decided in inspiring source, moreover receives influence of the building structural strength, the building materials characteristic as well as the dynamic characteristic and so on[4].
References [1]Xia He, Wu Xuan,Yu Da-ming: The ambient vibration question which caused by urban track transportation system, Beijing (Beijing Jiaotong University journal, 1999)
[2] Beta M: Effects on buildings of vibrations caused by traffic (Building science, 1971)

The purpose of this study is to present the objective materials related to the 3D CAD system.
For this, we use the materials that allow the operator to easily figure out characteristics on each apparel system by defining the common functions in each apparel and arranging them systematically.
Sewing Information and Define Material and Textures are all processed in a garment construction step.
The first, the material properties of representative sample fabrics are provided as presets.
Istook: A Comparative Study on Virtual Try-on Systems using Body Measurement Input, The International Journal of Costume Culture, Vol.13, No.2 (2010) [2] Elena FILIPESCU, Garment Simulation: 3D Virtual Dressing Room, The 7th International Scientific Conference eLearning and Software for Education (2011) [3] Young-A Ko: A Study on the Utilization of Digital Clothing Technology in Apparel Industry, Textile Science and Engineering (2008) [4] Jong-jun Kim: A Study on the Dynamic Bending Properties of Textile Fabrics, Journal of Fashion Business (2011) [5] Information on http://www.optitex.com [6] Information on http://www.browzwear..com [7] Information on http://www.digitalclothing.org

Journal Citation (to be inserted by the publisher) Copyright by Trans Tech Publications Preparation and Characterization of Organic-Inorganic Nanocomposite Films for Holographic Recording Jiyoung Park, Eunkyoung Kim ∗ Advanced Materials Division Lab, Korea Research Institute of Chemical Technology, P.
In this light, photopolymerizable materials are of considerable interest to the development of holographic data storage devices [1,2] because of their high sensitivity and large refractive index change.
These polymerizerable materials have been studied for holographic recording since the late 1960's [3] and over the ensuing years they have become increasingly important to the development of holography storage [4,5,6].
Experimental Results Materials.
Kim: ETRI Journal Vol. 25 (2003), p. 253

Materials Electrically Conductive Yarns.
Vališevskis, I.Baltiņa, S.Ozola, Development of Textile Based Sewn Switches for Smart Textile.Advanced Materials Research.
International Journal of Clothing Science and Technology, Vol.27 (2015) 34-46
The effects of stretching, cyclic straining and washing on their electro-conductive properties: Materials and Design 32 (2011) 4247-4256
Journal of the Textile Institute.