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Online since: January 2013
Authors: Yan Hui Qie, Bo Liu, Jian Bing Sang, Zhong Kai Zhang
For the research on rubber material constitutive models, Gao [4] put forward a kind of strain energy function from the tensile and compressive capacity of rubber materials.
Wang, et al [5] modified Gao’s model and proved that the new model had a higher rationality in describing the action of rubber-like materials.
Shannon: International Journal of Engineering Science.
[5] Wenjia Wang, Bo Liu, Jianbing Sang, Chenhua Lu: Advanced Materials Research.
Ray: Journal of Membrane Science.
Wang, et al [5] modified Gao’s model and proved that the new model had a higher rationality in describing the action of rubber-like materials.
Shannon: International Journal of Engineering Science.
[5] Wenjia Wang, Bo Liu, Jianbing Sang, Chenhua Lu: Advanced Materials Research.
Ray: Journal of Membrane Science.
Online since: August 2013
Authors: Hao Tang, Yan Yan Xu
For this reason, waste building materials are not ideal materials for construction in this period.
They made the best of these waste materials, saying that “the usable materials should be recycled; and new materials should be brought in only when necessary”7.
In the process, the properties of the traditional materials should be combined with the new materials.
Acknowledgments This work was financially supported by Natural Science Foundation of China (51208334 ) Reference [1] The State Council Reports on Earthquake Relief and Post-disaster Reconstruction.
Journal of Technology.
They made the best of these waste materials, saying that “the usable materials should be recycled; and new materials should be brought in only when necessary”7.
In the process, the properties of the traditional materials should be combined with the new materials.
Acknowledgments This work was financially supported by Natural Science Foundation of China (51208334 ) Reference [1] The State Council Reports on Earthquake Relief and Post-disaster Reconstruction.
Journal of Technology.
Online since: March 2017
Authors: Tawatchai Charinpanitkul, Kreangkrai Maneeintr
Materials and Methods
Chemicals.
All the materials are used without further purification.
Svendsen: Chemical Engineering Science Vol. 66 (2011), p. 6393 [2] M.
Mather: The Canadian Journal of Chemical Engineering Vol. 52 (1974), p. 803 [7] K.P.
Higashii: International Journal of Greenhouse Gas Control Vol. 17 (2013), p. 99 [9] K.
All the materials are used without further purification.
Svendsen: Chemical Engineering Science Vol. 66 (2011), p. 6393 [2] M.
Mather: The Canadian Journal of Chemical Engineering Vol. 52 (1974), p. 803 [7] K.P.
Higashii: International Journal of Greenhouse Gas Control Vol. 17 (2013), p. 99 [9] K.
Online since: September 2013
Authors: Ye Tian, Jin Zhang, Nan Guo Jin, Xian Yu Jin
As a porous medium, the strength of cement-based materials is significantly affected by its porosity.
Introduction It is well known that the compressive strength of cement-based materials is an important design parameter in civil engineering.
Cement-based materials is a typical kind of porous medium with complex microstructure and it was recognized long ago that porosity plays an important role in strength of cement-based materials.
Conclusions This paper proposed a new method for predicting the strength development of cement-based materials based on a developed microstructure hydration model.
[7] Peiyu Yan, and Feng Zheng, in: Kinetic Model for The Hydration Mechanism of Cementitious Materials, volume 34 of Journal-Chinese Ceramic Society (2006)
Introduction It is well known that the compressive strength of cement-based materials is an important design parameter in civil engineering.
Cement-based materials is a typical kind of porous medium with complex microstructure and it was recognized long ago that porosity plays an important role in strength of cement-based materials.
Conclusions This paper proposed a new method for predicting the strength development of cement-based materials based on a developed microstructure hydration model.
[7] Peiyu Yan, and Feng Zheng, in: Kinetic Model for The Hydration Mechanism of Cementitious Materials, volume 34 of Journal-Chinese Ceramic Society (2006)
Online since: June 2018
Authors: Mohammed Salah Bennouna, Benaoumeur Aour, Fatiha Bouaksa, Saad Hamzaoui
Segal, Materials processing by simple shear, Materials Science and Engineering A, Vol. 197, n. 2, pp. 157-164, 1997
Orlov, Useful properties of twist extrusion, Materials Science and Engineering A, Vol. 503, n. 1-2, 14-17, 2009
[15] Shantharaja M., Mechanical Behaviour of Pure Aluminum Processed by Constrained Groove Pressing, Journal of Material Sciences & Engineering, Vol., 2, n.3, pp. 1-5, 2013
Materials Science and Engineering A 2012;532:26-30
Li, Control of orientation of lamellar structure in linear low density polyethylene via a novel equal channel angular extrusion process, Journal of Materials Science Letters, Vol. 17, n. 10, pp. 853-856, 1998
Orlov, Useful properties of twist extrusion, Materials Science and Engineering A, Vol. 503, n. 1-2, 14-17, 2009
[15] Shantharaja M., Mechanical Behaviour of Pure Aluminum Processed by Constrained Groove Pressing, Journal of Material Sciences & Engineering, Vol., 2, n.3, pp. 1-5, 2013
Materials Science and Engineering A 2012;532:26-30
Li, Control of orientation of lamellar structure in linear low density polyethylene via a novel equal channel angular extrusion process, Journal of Materials Science Letters, Vol. 17, n. 10, pp. 853-856, 1998
Online since: October 2016
Authors: Olayide Adetunji, Olayinka J. Olaniyan, Omolola O. Adedeji, Shephrah O. Ogungbesan, Enock O. Dare
Materials Sci.39:4459-4463
Peptide-conjugated chitosan membrane: application for keratinocyte delivery in wounded skin, Journal of Biomedical Materials Research Part A 79A: 716-722
Journal of Materials Science Materials in Medicine. 15, 759–65
American Journal of Applied Science. 6, 2030-2035
Journal of Materials Science: Materials in Medicine. 21: 2861-2868
Peptide-conjugated chitosan membrane: application for keratinocyte delivery in wounded skin, Journal of Biomedical Materials Research Part A 79A: 716-722
Journal of Materials Science Materials in Medicine. 15, 759–65
American Journal of Applied Science. 6, 2030-2035
Journal of Materials Science: Materials in Medicine. 21: 2861-2868
Online since: August 2014
Authors: Bin Li, Shu Ling Zhao
Introduction
As one of the most commonly used titanium alloys, titanium and its alloys are utilized in aero-engine and airframe manufacture because of their outstanding strength to density ratios relative to other materials.
Titanium and its alloys are utilized in aero-engine and airframe manufacture because of their outstanding strength to density ratios relative to other materials.
In addition the susceptibility of titanium to work-harden during machining impair their machining ability, hence they are referred to as difficult-to-machine materials.
As for capabilities, especially fatigue resistance, titanium alloy is better than other materials.
Bäker: Journal Of Materials Processing Technology Vol. 167 (2005), p. 1-13
Titanium and its alloys are utilized in aero-engine and airframe manufacture because of their outstanding strength to density ratios relative to other materials.
In addition the susceptibility of titanium to work-harden during machining impair their machining ability, hence they are referred to as difficult-to-machine materials.
As for capabilities, especially fatigue resistance, titanium alloy is better than other materials.
Bäker: Journal Of Materials Processing Technology Vol. 167 (2005), p. 1-13
Online since: October 2013
Authors: X.C. Li, J.H. Li, J.L. Ma, Y.J. Zhang, H.Y. Li
Zhang1
1Department of material processing Technology, School of materials, Beijing Institute of Technology, Beijing, 100081, China
2School of Metallurgy and Materials Engineering, Chongqing University of Science and Technology, Chongqing, 401331, China
Email*: lihongyang@bit.edu.cn
Keywords: TRIP steel, Molecular dynamics, Residual austenite, Stacking fault
Abstract.
Metals and Materials International, 2010, Vol.16, No.4: 533-541 [3] J.
International Journal of Material Forming, 2008, Suppl 1: 221-224 [4] Lin Li, Yi Gao, NaQiong Zhu, YanLin He, RenDong Liu.
Journal of Mechanical Science and Technology, 2012, Vol.26: 1841-1847 [13] Young-suk Kim, Jun-young Park.
Journal of Computer-Aided Materials Design, 1996, 3: 183-186 [16] D.
Metals and Materials International, 2010, Vol.16, No.4: 533-541 [3] J.
International Journal of Material Forming, 2008, Suppl 1: 221-224 [4] Lin Li, Yi Gao, NaQiong Zhu, YanLin He, RenDong Liu.
Journal of Mechanical Science and Technology, 2012, Vol.26: 1841-1847 [13] Young-suk Kim, Jun-young Park.
Journal of Computer-Aided Materials Design, 1996, 3: 183-186 [16] D.
Online since: February 2021
Authors: Qussay Y. Hamid, Thaer F.A. Al-Sultan, Hussein Mohammed Ibraheem
The materials were tested on two types of sand papers of grit designation 24 and 36.
Materials and Experimental Methods The selections of materials for the experiments were chosen based on their widely used in many engineering applications and their ability to wear.
Then the test run was increased to seven minutes for those three materials.
Mediratta, International Journal of Innovative Research in Science, Engineering and Technology. 2 (5) (May 2013) 1-9
[8] Micro Materials.
Materials and Experimental Methods The selections of materials for the experiments were chosen based on their widely used in many engineering applications and their ability to wear.
Then the test run was increased to seven minutes for those three materials.
Mediratta, International Journal of Innovative Research in Science, Engineering and Technology. 2 (5) (May 2013) 1-9
[8] Micro Materials.
Online since: May 2014
Authors: Enrique I. Galindo-Nava, Pedro E.J. Rivera-Díaz-del-Castillo, I. Toda-Caraballo
Discovery of new materials and heat treatments: Accelerated Metallurgy and the case of ferrous and magnesium alloys
I.
Rivera-Díaz-del-Castillo 1,c 1 Department of Materials Science and Metallurgy, University of Cambridge, 27 Charles Babbage Road, CB3 0FS Cambridge, United Kingdom 2 Department of Materials Science and Engineering, Mekelweg 2, Delft, 2628 CD, Netherlands ait247@cam.ac.uk, beg375@cam.ac.uk, cpejr2@cam.ac.uk Keywords: Alloy design; Property prediction; Ferrous alloys; Magnesium alloys, Prinicpal component analysis, Thermostatistical model Abstract.
Traditionally, the discovery of new materials has been the result of a trial and error process.
Models for guiding the discovery of new materials have been developed within the European Accelerated Metallurgy project.
All input data obtained from the literature and existing materials databases [2].
Rivera-Díaz-del-Castillo 1,c 1 Department of Materials Science and Metallurgy, University of Cambridge, 27 Charles Babbage Road, CB3 0FS Cambridge, United Kingdom 2 Department of Materials Science and Engineering, Mekelweg 2, Delft, 2628 CD, Netherlands ait247@cam.ac.uk, beg375@cam.ac.uk, cpejr2@cam.ac.uk Keywords: Alloy design; Property prediction; Ferrous alloys; Magnesium alloys, Prinicpal component analysis, Thermostatistical model Abstract.
Traditionally, the discovery of new materials has been the result of a trial and error process.
Models for guiding the discovery of new materials have been developed within the European Accelerated Metallurgy project.
All input data obtained from the literature and existing materials databases [2].