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Online since: September 2003
Authors: Xi Peng Xu, Hui Huang, Yuan Li
Citation & Key Engineering Materials Vols
Introduction Natural granite materials, especially finely finished granite components, are popularly used as surface decorative materials of buildings.
Malin: Journal of Manufacturing Science and Engineering Vol. 123 (2001), p. 13 [8] F.
Davis: Proceedings of Untrahard Materials Technical Conference (University of Toledo, USA, 1998). 222 Machining of Natural Stone Materials [12] M.C.
Evans: Journal of Applied Physics Vol. 53 (1982), p. 213 [15] X.P.
Introduction Natural granite materials, especially finely finished granite components, are popularly used as surface decorative materials of buildings.
Malin: Journal of Manufacturing Science and Engineering Vol. 123 (2001), p. 13 [8] F.
Davis: Proceedings of Untrahard Materials Technical Conference (University of Toledo, USA, 1998). 222 Machining of Natural Stone Materials [12] M.C.
Evans: Journal of Applied Physics Vol. 53 (1982), p. 213 [15] X.P.
Online since: January 2020
Authors: Boris M. Goltsman, Lyubov A. Yatsenko, Natalia S. Goltsman
Production of Foam Glass Materials from Silicate Raw Materials by Hydrate Mechanism
Boris M.
Almost the only type of materials that meets all the listed requirements are foamed materials obtained using foam glass technology.
Synthesis of foam glass materials was to be carried out by single-stage technology directly from raw materials [12-13].
Then the prepared raw materials were mixed for 30 minutes in a drum mill.
Lu et al, Preparation of sintered foam materials by alkali-activated coal fly ash, Journal of Hazardous Materials. 174 (2010) 108-112
Almost the only type of materials that meets all the listed requirements are foamed materials obtained using foam glass technology.
Synthesis of foam glass materials was to be carried out by single-stage technology directly from raw materials [12-13].
Then the prepared raw materials were mixed for 30 minutes in a drum mill.
Lu et al, Preparation of sintered foam materials by alkali-activated coal fly ash, Journal of Hazardous Materials. 174 (2010) 108-112
Online since: May 2011
Authors: Xiao Qing Lian, Xiu Mei Feng, Ming Xue Jiang
Stress and System Energy in Erosion Process for Brittle Materials
Xiaoqing Lian1,a, Xiumei Feng1,b, Mingxue Jiang1,c
1School of Material Science and Engineering, Xi’an University of Architecture and Technology,Xi’an ,Shanxi,710055, China
alianxiaoqing0304@126.com, bfengxm1973@126.com, cmingxuejiang@163.com,
Keywords: Solid Particle Erosion, Stress, System Energy, Impact Angle, Brittle Materials, Finite Element Method
Abstract.
The latest prediction equations for erosion of ceramic materials were proposed by Y.I.Oka[7],which were verified in cases of metallic materials.
Although many studies on the solid particle erosion of brittle materials may be found[5-10], most of their targets were homogeneous materials.
They were heterogeneous brittle materials other than homogeneous brittle materials.
The erosion rate of brittle materials is at its maximum at normal incidence at room tempetature [5-10], which is different from ductile materials whose maximun erosion rate occurs at shallow impact angles.
The latest prediction equations for erosion of ceramic materials were proposed by Y.I.Oka[7],which were verified in cases of metallic materials.
Although many studies on the solid particle erosion of brittle materials may be found[5-10], most of their targets were homogeneous materials.
They were heterogeneous brittle materials other than homogeneous brittle materials.
The erosion rate of brittle materials is at its maximum at normal incidence at room tempetature [5-10], which is different from ductile materials whose maximun erosion rate occurs at shallow impact angles.
Online since: July 2006
Authors: Jef Vleugels, Omer Van der Biest, Guy Anné, Kim Vanmeensel
To overcome these problems, the concept of functionally graded materials (FGM) was used to
develop ceramic graded Al2O3/ZrO2 composites (fig. 1).
References [1] Black J., Biological performance of materials. 2 ed.
A., Journal of Bone and Joint Surgery-American Volume, 85A, (2003) p. 73
Van der Biest: Materials Science Forum Vol. 423-425 (2003) p. 33
Van der Biest: Materials Science Forum Vol. 423-425 (2003) p. 171
References [1] Black J., Biological performance of materials. 2 ed.
A., Journal of Bone and Joint Surgery-American Volume, 85A, (2003) p. 73
Van der Biest: Materials Science Forum Vol. 423-425 (2003) p. 33
Van der Biest: Materials Science Forum Vol. 423-425 (2003) p. 171
Online since: February 2024
Authors: Gurjeet Singh, Neeraj Agarwal, Rohit Sahu, Jitendra Malviya, Mritunjay Kumar Singh, Anil Singh Yadav, Preeti Chincholkar, Ramesh Bokade
Advanced Materials Research 1119 (2015): 201-206
In IOP Conference Series: Materials Science and Engineering, vol. 1136, no. 1, p. 012012.
In International Journal of Management and Applied Science, vol. 4, pp. 73-75. 2018
In IOP Conference Series: Materials Science and Engineering, vol. 406, no. 1, p. 012018.
Journal of the mechanical behavior of biomedical materials 63 (2016): 303-313.
In IOP Conference Series: Materials Science and Engineering, vol. 1136, no. 1, p. 012012.
In International Journal of Management and Applied Science, vol. 4, pp. 73-75. 2018
In IOP Conference Series: Materials Science and Engineering, vol. 406, no. 1, p. 012018.
Journal of the mechanical behavior of biomedical materials 63 (2016): 303-313.
Online since: September 2013
Authors: Ming Yi Tsai, Shi Xing Jian, J. H. Chiang
Grinding, a technique for removing abrasive materials, is a chip-removal process that uses an individual abrasive grain as the cutting tool.
Introduction Removal processes of abrasive materials can be very challenging owing to the high power requirements and resulting high temperatures, especially at the workpiece-wheel interface.
Before machining, the test materials were premachined with a 1 mm cut to remove any possible surface irregularities and ensure similar surface properties for all the specimens.
In general, for harder materials and to reduce residual stresses and thermal damage to the workpiece, softer bonds are recommended.
Liu, Journal of Material Process Technology, 211 (2011) 356-263
Introduction Removal processes of abrasive materials can be very challenging owing to the high power requirements and resulting high temperatures, especially at the workpiece-wheel interface.
Before machining, the test materials were premachined with a 1 mm cut to remove any possible surface irregularities and ensure similar surface properties for all the specimens.
In general, for harder materials and to reduce residual stresses and thermal damage to the workpiece, softer bonds are recommended.
Liu, Journal of Material Process Technology, 211 (2011) 356-263
Online since: September 2023
Authors: Te Li, Laire Tier
Review of Research on Conductive Cement-Based Material
Te Li1,a*, Laire Tier2, b
1Faculty of Materials Science and Engineering, Chongqing University, Chongqing 400000, China
2Faculty of Materials Science and Engineering, Southeast University, Nanjing 210000, China
alairetier@seu.edu.cn, bTeLi@cqu.edu.cn
Keywords: Cement-Based Materials; Electrical Conductivity; Nanomaterials
Abstract.
In the study of conductive cement-based materials, the size and shape of conductive materials have a direct impact on the electrical conductivity of cement-based materials.
Effect of Conductive Materials on Conductivity Long ago, steel fibers were added to cement-based materials to increase the conductivity of cement-based materials[23].
Some studies have also added industrial waste to cement-based materials to improve the conductivity of cement-based materials, Vasudevan [39] added copper slag to cement-based materials, effectively improving the conductivity of cement-based materials.
Vasudevan, Investigation of the Influence of Unburnt Carbon and Aggregate Type on Electrical Resistivity of Cement Mortar, Journal of The Institution of Engineers (India): Series A 103(3) (2022) 797-802
In the study of conductive cement-based materials, the size and shape of conductive materials have a direct impact on the electrical conductivity of cement-based materials.
Effect of Conductive Materials on Conductivity Long ago, steel fibers were added to cement-based materials to increase the conductivity of cement-based materials[23].
Some studies have also added industrial waste to cement-based materials to improve the conductivity of cement-based materials, Vasudevan [39] added copper slag to cement-based materials, effectively improving the conductivity of cement-based materials.
Vasudevan, Investigation of the Influence of Unburnt Carbon and Aggregate Type on Electrical Resistivity of Cement Mortar, Journal of The Institution of Engineers (India): Series A 103(3) (2022) 797-802
Online since: August 2022
Authors: Basappa C. Yallur, Sheetal Batakurki, Maalathi Challa, M.R. Ambika, S.R. Usharani
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181
IOP Conference Series: Materials Science and Engineering. 872, 1 (2020) 012099
In IOP Conference Series: Materials Science and Engineering.
Journal of Materials Science: Materials in Electronics. 29, 10 (2018) 8535-8546
Journal of Materials Chemistry A. 9, 7 (2021) 4103-4116
IOP Conference Series: Materials Science and Engineering. 872, 1 (2020) 012099
In IOP Conference Series: Materials Science and Engineering.
Journal of Materials Science: Materials in Electronics. 29, 10 (2018) 8535-8546
Journal of Materials Chemistry A. 9, 7 (2021) 4103-4116
Online since: February 2013
Authors: Aditya Deshpande, Pankaj Sharma, Kuldip Singh Sangwan, Girish Kant
The second one is viscosity term and it shows the flow stress of material increases when material is exposed to high strain rates and the last one is temperature softening term.
References [1] Mohaveddy, M., (1999), “Simulation of orthogonal metal cutting process using an arbitrary Lagrangian-Eulerian finite-element method”, Journal of Materials Processing Technology, Vol. 103, pp. 267-275
[2] Shet, Chandrakanth and Deng, Xiaomin, (2000), “Finite element analysis of orthogonal metal cutting process”, Journal of Materials Processing Technology, Vol. 105, pp. 95-109
[4] Fang, N. and Fang, G., (2007), “Theoretical and experimental investigations of finish machining with a rounded edge tool”, Journal of Materials Processing Technology, Vol. 191, pp. 334-337
[6] Syed Amir Iqbal, Paul T Mativenga, and Mohammad A Sheikh, (2009), “An investigative study of thee interface heat transfer coefficient for finite ekement Modeling of high speed machining”, NED University Journal of Research, Vol. 6, pp. 1-6 [7] Luigino Filice, FabrizioMicari, StefaniaRizzuti, DomenicoUmbrello, (2008) “Dependence of machining simulation effectiveness on material and friction modelling”, Journal of Machining Science And Technology, Vol. 12, pp 370–389.
References [1] Mohaveddy, M., (1999), “Simulation of orthogonal metal cutting process using an arbitrary Lagrangian-Eulerian finite-element method”, Journal of Materials Processing Technology, Vol. 103, pp. 267-275
[2] Shet, Chandrakanth and Deng, Xiaomin, (2000), “Finite element analysis of orthogonal metal cutting process”, Journal of Materials Processing Technology, Vol. 105, pp. 95-109
[4] Fang, N. and Fang, G., (2007), “Theoretical and experimental investigations of finish machining with a rounded edge tool”, Journal of Materials Processing Technology, Vol. 191, pp. 334-337
[6] Syed Amir Iqbal, Paul T Mativenga, and Mohammad A Sheikh, (2009), “An investigative study of thee interface heat transfer coefficient for finite ekement Modeling of high speed machining”, NED University Journal of Research, Vol. 6, pp. 1-6 [7] Luigino Filice, FabrizioMicari, StefaniaRizzuti, DomenicoUmbrello, (2008) “Dependence of machining simulation effectiveness on material and friction modelling”, Journal of Machining Science And Technology, Vol. 12, pp 370–389.
Online since: October 2010
Authors: Ji Hu Wang, Hong Bo Liu, Shao Guo Wen, Yan Shen
Tensile property, hardness and wear resistance of composite materials were studied by various methods.
Park: Journal of Polymer Science Part B: Polymer Physics, Vol. 21(2001) , p.2589 ], PP[[]K.
Zhou and C.X.Zhou: Polymer Materials Science and Engineering, Vol. 23 (2007), p.144.
Different composite materials were prepared by direct blending.
Then, the obtained materials can be modified barium sulfate (MBS).
Park: Journal of Polymer Science Part B: Polymer Physics, Vol. 21(2001) , p.2589 ], PP[[]K.
Zhou and C.X.Zhou: Polymer Materials Science and Engineering, Vol. 23 (2007), p.144.
Different composite materials were prepared by direct blending.
Then, the obtained materials can be modified barium sulfate (MBS).