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For standard modular structures handling units can be estimated coefficient k2 = 2 For construction of new lightweight materials ratio will have values ​​k2 = 1.5.
Acknowledgements Paper is the result of the Project implementation: University Science Park TECHNICOM for Innovation Applications Supported by Knowledge Technology, ITMS: 26220220182, supported by the Research & Development Operational Programme funded by the ERDF References [1] D.
MM Science Journal, ISSN 1212-2572, Vol. 2, N0 june/2008, MM publishing Praha, Praha 2008 (Czech), pp. 16-17 [5] Mikolajczyk T., Manufacturing Using Robot.
Advanced Materials Research, vol. 463-464, (2012), 1643-1646 [6] Mikolajczyk T., The Robot Machining System with Surface Shape Active Control.
Applied Mechanics and Materials Vol. 282 (2013) pp. 211-220 [8] Piotrowski A.: The Spectacle of Architectural Discourses,” at Architectural Theory Review, (13:2, Routledge, 2008): 130 -144.

In a motivation to search for new prospective magnetoresistance materials, substitution of Mn for Mo, both being 4d transition metals but with different electronic configurations (Mo5+~[Kr]4d1, Mn5+~[Kr]3d2), has been selected since there were few reports on Sr2FeMnO6.
Stoichiometric amounts of high purity raw materials SrCO3 (99.99%), Fe2O3 (99.99%), MnO2 (98%) were ground and calcined for 10 h at 950 ℃ in air.
Acknowledgement This work is supported by the National Natural Science Foundation of China (Grant NOs. 10847147), the science and technology program of Suqian and the Research Foundation of Suqian College.
Ruschau: Journal of the American Ceramic Society Vol. 74(1991), p. 463-468
Sutar et al: Materials Research Bulletin Vol. 35(2000), p. 559-565

Introduction Bentonite have been international selected as buffer/backfill material for high level nuclear waste repository due to its high adsorption, expansibility, low permeability and excellent thermal conductivity.
To be the engineered barriers between parent rock and high level radioactive waste packaging, buffer/fill materials need appropriate mechanical properties so that it can buffer effect on waste cans from surrounding rock pressure and effectively prevent radionuclides overflow from cracked waste tank when the disposal site have geological changes.
For example, GrahamJ, SaadatF and GrayM.N[1] have performed the drained and undrained Triaxial experiments on the mixtures of bentonite and sand, which provided available material parameters for numerical simulation of disposal repository, forecasted the variation of shear strength and deformation as the effective stress increasing under normal condition, and established formula of material strength and deformation in critical state.
High-pressure triaxial testing on the Canadian reference buffer material[J].
International Journal of Rock Mechanics and Mining Sciences，2005，42(5)：611~638

Polymer Engineering & Science,2006,46(7)
Materials and Manufacturing Processes, 201530 (11)
Journal of Vibration and Shock,2010,29(06):149-153+226+242
Materials and Manufacturing Processes, 2017, 32(5)
Chemical propellants and polymer materials,2019(02):82-84 [14] Yang Min, Tian Yubo, Chen Feng.

New Design Concept for Reducing Torque Wear on Implant MIHAI Simona1,a * and FILIP Viviana1,b 1Valahia University of Targoviste, Faculty of Materials Engineering and Mechanics, Mechanical Engineering Department, Str.
An implant solution with tapered rolling elements is proposed by the Imperial College of Science, Technology and Medicine in London [4].
Mertic Ionut from the Emergency Hospital of Targoviste, Department of Orthopaedics-Trauma, for the materials and technical support provided.
GIL Wear tests in a hip joint simulator of different CoCrMo counterfaces on UHMWPE, Materials Science and Engineering C29 (2009), pp. 153-158 [3] L.
American Journal of Materials Science.

Assumed the cross-section properties and material properties unchanged along the length .
The study has been subsidized by the National Natural Science Foundation Project(Project ID:51078306) and the Talent Technology Foundation Project of Xi'an University of Architecture and Technology (Project ID: RC1027).
International Journal for Numerical Methods in Engineering, Vol.45(1999),p.971 [6] Mengfu Wang,Xiyuan Zhou.
Journal of Mechanical Engineering Science, Vol.20(1994),p.427 (in Chinese)

(2)Low-carbon material.This index shows whether to use low-carbon and reusable material in the process of building or not.
The evaluation focus on three indexes, they are local material, materials producing and reusable, and disposal of waste
Table 1 The evaluation system of low-carbon building Target layer Criterion layer Index layer The evaluation system of low-carbon building Low-carbon structure index (U1) Lighting system (U11) Heating system (U12) Flooring system (U13) Wall system (U14) Low-carbon material index (U2) Local material (U21) Building materials (U22) material reuse and waste disposal (U23) Low-carbon energy index (U3) Energy measurement and detection (U31) Collective heating (U32) Renewable energy utilization (U33) Clean energy utilization (U34) Low-carbon technique index (U4) Usage of low-carbon and new material (U41) New technology (U42) Usage of energy saving (U43) Investment of Intelligent electronic equipment (U44) Professional ratio of building team (U45) Low-carbon management index (U5) Greening rate (U51) Property service (U52) Waste treatment (U53) Operation management (U54) Establishment of model for evaluation system of low-carbon building Firstly, the evaluation factor set is determined.
Acknowledgements This work was financially supported by the2012 Housing and Urban-Rural Construction Department of Shandong Province Science and Technology Project (2012RK028) ,General project of Shandong Province statistical research key topics (KT12049) Reference [1] Liu CC, Qin FH, The research on development of low-carbon building[J].
Journal of Hunan University, 2012,(6):6

Experimental research shows that [1,2], it isn’t a simple linear relationship between performance indicators and mixing materials in SFRHSC.
Selection of Materials Cement: This paper chose “Hailuo brand” P.O 42.5R cement made in Anhui.
Obviously, about the concrete strength, the influence sequence of the factors were water-binder ratio → cementitious materials B → sand ratio C → blank column e.
(Shanxi Science and Technology Press, China1998)
Sun: Journal of Jiangnan University, Vol.16 (2001) No.2, p31-35

Microencapsulation is a technology that uses membranous materials to coat solids or liquids into micro particles [2].
The fabrics finished by the fresh finishing agent could have a unique and effective performance of anti-odor. 2 Materials and Methods 2.1 Fabrics’ mint cool feel finishing (1) Materials Pure cotton fabrics were used.
And fabrics were cured for 1 minute at 140 oC. 2.2 Fabrics’ fresh finishing (1) Materials Pure cotton fabrics (white and black) were used.
References [1] Zhijia Cheng, Preparation and testing of menthol microcapsules, Hunan Agricultural Sciences. 14 (2010) 43-44
[2] Dayan Hu, Jiansheng Guo, Application of microcapsule technology to the fabric finishing, Textile Dyeing and Finishing Journal. 27 (2005) 10-11

Introduction Intermetallic compounds based on Ni3Si have been considered as the basis of high-temperature structural materials and chemical parts because Ni3Si displays an increasing strength with temperature increasing and also shows excellent oxidation resistance and corrosion resistance over a wide range of temperature[1,2].
Experimental Procedures Ni-based superalloy plates, 20 mm × 15 mm × 10 mm in size, were selected as the substrate material for laser cladding treatment.
Takasugi: Materials Science and Engineering Vol.
Vilar: The international journal of powder metallurgy Vol. 37(2) (2001), p. 31-48 [8] J.M.
Wada: Materials Science and Engineering Vol.