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Online since: October 2011
Authors: Ya Fang Zhang, Hao Liu, Lin Li
Construction and Building Materials 25(2011) 2458-2464
Materials J., 2005, 102(6), p438
Wang: Hybrid Effect of Steel-Polypropylene Fiber on Fracture Property of High Strength Concrete, New Building Materials,2009,(2), pp24-27.
Wang: Mechanical Properties and Impermeability of Hybrid Fiber Reinforced Concrete, J. of Building Materials, 2008, 11(1), pp89-93.
New Building Materials, 2007(3), pp80-83.
Materials J., 2005, 102(6), p438
Wang: Hybrid Effect of Steel-Polypropylene Fiber on Fracture Property of High Strength Concrete, New Building Materials,2009,(2), pp24-27.
Wang: Mechanical Properties and Impermeability of Hybrid Fiber Reinforced Concrete, J. of Building Materials, 2008, 11(1), pp89-93.
New Building Materials, 2007(3), pp80-83.
Online since: January 2015
Authors: Darya Nemova, Nikolay Vatin, Ekaterina Talan, Daria Marinenko
Article’s materials are based on estimated data, different Internet resources and information taken from Media.
The panels of facade system ‘Polialpan’ are one of such up-to-date materials.
Methods of calculating depreciation expenses of construction machinery (2012) Journal of Applied Engineering Science, № 1 (10), pp. 43‒48
Hydraulic methods for calculation of system of rear ventilated facades (2014) Applied Mechanics and Materials, Vols. 633‒634, pp. 1007‒1012
Comprehensive method of energy efficiency of residential house (2014) Advanced Materials Research, pp. 1570‒1577
The panels of facade system ‘Polialpan’ are one of such up-to-date materials.
Methods of calculating depreciation expenses of construction machinery (2012) Journal of Applied Engineering Science, № 1 (10), pp. 43‒48
Hydraulic methods for calculation of system of rear ventilated facades (2014) Applied Mechanics and Materials, Vols. 633‒634, pp. 1007‒1012
Comprehensive method of energy efficiency of residential house (2014) Advanced Materials Research, pp. 1570‒1577
Online since: February 2021
Authors: Tahereh Heidarzadeh, Daryoush Zareyee, Navabeh Nami
Due to the importance of this metal oxide, a wide range of synthetic routes have been used for it [28,29], but the use of environmentally benign materials for generating ZnO NPs has been considered as an eco-friendly approach [30,31].
ZnO-CaO NPs as an efficient heterogeneous catalyst was prepared by simple operation from available cheap starting materials such as the low-cost zinc acetate and waste eggshell.
Majlesara, Fast response ZnO/PVA nanocomposite-based photodiodes modified by graphene quantum dots, Materials & Design, 162(2019) 249-255
Jang, Calcined oyster shell powder as an expansive additive in cement mortar, Materials, 12 (2019) 1322
Nami, Efficient solvent-free synthesis of amidines using nano-Fe3O4, encapsulated-sillica particles bearing sulfonic acid, Journal of Chemical, Biological and Physical Sciences, Section B, 5 (2015) 1195-1204
ZnO-CaO NPs as an efficient heterogeneous catalyst was prepared by simple operation from available cheap starting materials such as the low-cost zinc acetate and waste eggshell.
Majlesara, Fast response ZnO/PVA nanocomposite-based photodiodes modified by graphene quantum dots, Materials & Design, 162(2019) 249-255
Jang, Calcined oyster shell powder as an expansive additive in cement mortar, Materials, 12 (2019) 1322
Nami, Efficient solvent-free synthesis of amidines using nano-Fe3O4, encapsulated-sillica particles bearing sulfonic acid, Journal of Chemical, Biological and Physical Sciences, Section B, 5 (2015) 1195-1204
Online since: January 2010
Authors: S.J. Bull
Finite element analysis of indentation load displacement
curves can be used to extract materials properties for design; as coating thicknesses decrease it
is observed that the yield strength required to fit the curves increases and scale-dependent materials
properties are essential for design.
The system hardness and elastic modulus were determined by the standard Oliver and Pharr method [1] since these materials do not display significant pile-up or sink-in.
To successfully develop a design model for nanostructured devices such as MEMS both non linear materials properties and geometric non-linearities need to be considered.
J.: Journal of Materials Research.
Device and Materials Reliability Vol. 7 (2007), p. 356
The system hardness and elastic modulus were determined by the standard Oliver and Pharr method [1] since these materials do not display significant pile-up or sink-in.
To successfully develop a design model for nanostructured devices such as MEMS both non linear materials properties and geometric non-linearities need to be considered.
J.: Journal of Materials Research.
Device and Materials Reliability Vol. 7 (2007), p. 356
Online since: September 2011
Authors: Zhi Chen, Xing Guo Geng, Feng Li, Lei Zhao
However, most of these methods have weakness that needs expensive materials, complex process, special equipments, etc.
Table 1 The roughness of sandpapers Grit designation 80 100 120 150 180 240 280 320 360 400 600 800 1000 1200 1500 2000 roughness (μm) 16.5 15.2 14.5 12.7 11.6 9.3 7.9 6.7 6.5 6.2 4.9 3.3 2.9 2.5 2.1 1.8 Experiment and characterization Materials.
The copper carboxylate material were fabricated by ethanol solution of CuCl2·2H2O and fatty acid, and fabricated on the sandpaper substrates.
Acknowledgements The authors would like to acknowledge the financial support of the National Natural Science Foundation of China under Grant No 10872172, and the Graduate Starting Seed Fund of Northwestern Polytechnical University under Grant No Z2010080.
Turner: Journal of Supercritical Fluids Vol. 49 (2009), p. 117 [6] J.
Table 1 The roughness of sandpapers Grit designation 80 100 120 150 180 240 280 320 360 400 600 800 1000 1200 1500 2000 roughness (μm) 16.5 15.2 14.5 12.7 11.6 9.3 7.9 6.7 6.5 6.2 4.9 3.3 2.9 2.5 2.1 1.8 Experiment and characterization Materials.
The copper carboxylate material were fabricated by ethanol solution of CuCl2·2H2O and fatty acid, and fabricated on the sandpaper substrates.
Acknowledgements The authors would like to acknowledge the financial support of the National Natural Science Foundation of China under Grant No 10872172, and the Graduate Starting Seed Fund of Northwestern Polytechnical University under Grant No Z2010080.
Turner: Journal of Supercritical Fluids Vol. 49 (2009), p. 117 [6] J.
Online since: May 2011
Authors: Tao Chen, Hua Dong He
Steel material with Q345, which is according to Chinese code for design of steel structures (GB 50017-2003), is employed.
Support Figure 3 Finite element model of the staircase Material models The steel material was modeled as an isotropic, linear elastic material.
The same material properties were used for all load cases.
Liu: Journal of Guizhou University (Natural Sciences) Vol. 26 (2009), P. 120-122 (in Chinese) [3] Z.H.
Support Figure 3 Finite element model of the staircase Material models The steel material was modeled as an isotropic, linear elastic material.
The same material properties were used for all load cases.
Liu: Journal of Guizhou University (Natural Sciences) Vol. 26 (2009), P. 120-122 (in Chinese) [3] Z.H.
Online since: September 2013
Authors: Ying Cai Yuan, Qin Qin Jia, Zi Yaun Shi
The stress and deformation of fold cutter is hard to solved by mechanics of materials, for the complex structure.
Example The material of fold cutter is steel.
The maximum stress is 1.876Mpa, which is far less than the allowable stress of material.
The maximum stress is far less than the allowable stress of material in Woking condition.
Machine Design and Research, Vol.6 (2006), p.112-115 [2] YUAN Ying-cai, LI Yang, LI Guang, Trace Sensitivity Analysis of the Web Print Fold Mechanism, Journal of Beijing Institute Of Graphic Communication, 2 (2008), p.44-46
Example The material of fold cutter is steel.
The maximum stress is 1.876Mpa, which is far less than the allowable stress of material.
The maximum stress is far less than the allowable stress of material in Woking condition.
Machine Design and Research, Vol.6 (2006), p.112-115 [2] YUAN Ying-cai, LI Yang, LI Guang, Trace Sensitivity Analysis of the Web Print Fold Mechanism, Journal of Beijing Institute Of Graphic Communication, 2 (2008), p.44-46
Online since: November 2012
Authors: Dong Mei Yu, Jin Jiang Pang, Chuan Shan Zhao, Wen Jia Han
Thermal insulation material is usually a light, loose, porous, small thermal conductivity.
Because of the thermal insulation material has some excellent features such as unique insulation, thermal insulation and fire safe, so, it is widely used in steel, furnaces, pipelines and chemical industry.
It wastes a lot of manpower and material resources however the process is simple.
Experiment Materials Aluminum silicate fibers, from Shandong province Zhang qiu Alert Ecological Ceramic Fiber Co, a diameter of 2~6μm which main component is Al2O3 content of ≥ 46%, Al2O3+SiO2 content of ≥ 99%, the other as ≤ 1%, long-term use temperature is 1260˚C.
Journal of Nanjin University of Aeronautic & Astronautics.
Because of the thermal insulation material has some excellent features such as unique insulation, thermal insulation and fire safe, so, it is widely used in steel, furnaces, pipelines and chemical industry.
It wastes a lot of manpower and material resources however the process is simple.
Experiment Materials Aluminum silicate fibers, from Shandong province Zhang qiu Alert Ecological Ceramic Fiber Co, a diameter of 2~6μm which main component is Al2O3 content of ≥ 46%, Al2O3+SiO2 content of ≥ 99%, the other as ≤ 1%, long-term use temperature is 1260˚C.
Journal of Nanjin University of Aeronautic & Astronautics.
Online since: March 2018
Authors: Dan B. Marghitu, Nicolae Dumitru, Nicolae Craciunoiu, Adrian Sorin Rosca
So, in [2] the authors reviews the prediction of complex, unsteady and chaotic dynamics associated with material-cutting processes through nonlinear dynamical models study, and show that on of the principal nonlinear effects on cutting dynamics is friction at the tool-chip interface.
Materials: Pure Titanium bar with f45 mm diameter.
Moon and Tamas Kalmar-Nagy, Nonlinear models for complex dynamics in cutting materials, Phil.
[6] Grzegorz LITAK, Rafał Rusinek and Andrzej Teter, Nonlinear Analysis of Experimental Time Series of a Straight Turning Process, Meccanica 39: pp. 105–112, 2004 [7] Bartosz Powałka, Mirosław Pajor, Stefan Berczyński, Identification of nonlinear cutting process model in turning, Advances in manufacturing science and technology, Vol. 33, No. 3, 2009, pp. 17-25
[11] Abdelkader Karas, Mohamed Bouzit, Development of a thermal model in the metal cutting process for prediction of temperature distributions at the tool-chip-workpiece interface, Journal of theoretical and applied mechanics, 51, 3, pp. 553-567, Warsaw 2013.
Materials: Pure Titanium bar with f45 mm diameter.
Moon and Tamas Kalmar-Nagy, Nonlinear models for complex dynamics in cutting materials, Phil.
[6] Grzegorz LITAK, Rafał Rusinek and Andrzej Teter, Nonlinear Analysis of Experimental Time Series of a Straight Turning Process, Meccanica 39: pp. 105–112, 2004 [7] Bartosz Powałka, Mirosław Pajor, Stefan Berczyński, Identification of nonlinear cutting process model in turning, Advances in manufacturing science and technology, Vol. 33, No. 3, 2009, pp. 17-25
[11] Abdelkader Karas, Mohamed Bouzit, Development of a thermal model in the metal cutting process for prediction of temperature distributions at the tool-chip-workpiece interface, Journal of theoretical and applied mechanics, 51, 3, pp. 553-567, Warsaw 2013.
Online since: June 2013
Authors: Jian Qiang Li, Yan Hui Zhang, Zeng Hua Lin
Research of the Vibration Signal for the Bridge Structure Base on Stochastic Minus Method
Yanhui Zhang1,a , Zenghua Lin1,b and Jianqiang Li1,c
1School of Civil, University of Science and Technology LiaoNing, China
aTy-zhangyanhui-1@163.com bLzh1981@163.com cLijq992@163.com
Keywords: Bridge Structure; Vibration Signal; Seismic Excitation ; Stochastic Minus Method.
We use MATLAB software to achieve Stochastic Minus method by programming, and deal with the vibration signal of this bridge. 2.1 The Establishment of Finite Element Model According to the material properties and geometric characteristics of the bridge structure, we establish the spatial finite element model of the bridge.
Shown in Fig.1 Fig 1 The Object Model of Continuous Beam Bridge The initial parameters of materials which is used in model calculations is shown in Table 1.
Table 1 Initial Parameters of Materials Modulus of Elasticity Poisson Ratio Density Prestressed Steel Beam Concrete 1.95×105 3.45×104 0.3 7850 2.2 Simulation of Earthquake Load With the software MATLAB, we get the Simulated Time-histories Curve of earthquake action.
Journal of Structural Engineering,ASCE,1991,117(11):3396-3416
We use MATLAB software to achieve Stochastic Minus method by programming, and deal with the vibration signal of this bridge. 2.1 The Establishment of Finite Element Model According to the material properties and geometric characteristics of the bridge structure, we establish the spatial finite element model of the bridge.
Shown in Fig.1 Fig 1 The Object Model of Continuous Beam Bridge The initial parameters of materials which is used in model calculations is shown in Table 1.
Table 1 Initial Parameters of Materials Modulus of Elasticity Poisson Ratio Density Prestressed Steel Beam Concrete 1.95×105 3.45×104 0.3 7850 2.2 Simulation of Earthquake Load With the software MATLAB, we get the Simulated Time-histories Curve of earthquake action.
Journal of Structural Engineering,ASCE,1991,117(11):3396-3416