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Online since: November 2011
Authors: Jun Ping Yuan, Wei Li, Chang Wang, Chun Yu Ma
Department of Materials Science and Engineering, Jinan University, Guangzhou, China
2.
Materials Science and Engineering, 1996 (A207):159-169
International Journal of Minerals, Metallurgy and Materials, 2009,16(5): 517-524
Materials Science and Engineering, 2004 (24): 753–760
Materials protection, 2003,36(10):9-12.
Materials Science and Engineering, 1996 (A207):159-169
International Journal of Minerals, Metallurgy and Materials, 2009,16(5): 517-524
Materials Science and Engineering, 2004 (24): 753–760
Materials protection, 2003,36(10):9-12.
Online since: February 2019
Authors: V.A. Gafarova, M.R. Abdulganiev, R.N. Khasanov
References
[1] Hertzberg R.V., Construction materials deformation and fracture mechanics.
Journal of Testing and Evaluation.
[4] American Society for Testing and Materials.
Standard Test Method for Plain-Strain (Chevron-Notch) Fracture Toughness of Metallic Materials (ASTM E 1304-97).
[6] Ashby M., Jones D., Construction materials.
Journal of Testing and Evaluation.
[4] American Society for Testing and Materials.
Standard Test Method for Plain-Strain (Chevron-Notch) Fracture Toughness of Metallic Materials (ASTM E 1304-97).
[6] Ashby M., Jones D., Construction materials.
Online since: May 2016
Authors: J.L. Wang, W.W. Song
,Computational Materials Science. 2009, 44: 858-866
Murakawa, Computational Materials Science.2008, (43):591-607
Lee, Journal of Materials ProcessingThchnology.2008, 23: 305-353
John, Materials Science and Engineering A, 2008, (490): 427-437
Goldak, Computational Materials Science. 2009, 44, : 841-849
Murakawa, Computational Materials Science.2008, (43):591-607
Lee, Journal of Materials ProcessingThchnology.2008, 23: 305-353
John, Materials Science and Engineering A, 2008, (490): 427-437
Goldak, Computational Materials Science. 2009, 44, : 841-849
Online since: July 2011
Authors: Yue Zhang, Hong Yan Ding, Mu Jian Xia, Guang Hong Zhou
Journal of Materials Processing Technology, 2007, 12(187):p140-144
Journal of Materials Processing Technology, 2007, 12(187):p128-131
International Journal of Material Forming, 2008, 1(1):p13-20
Journal of Materials Processing Technology, 2008, 3(206):p45-55
Journal of Materials Processing Technology, 2008, 3(206):p83-91
Journal of Materials Processing Technology, 2007, 12(187):p128-131
International Journal of Material Forming, 2008, 1(1):p13-20
Journal of Materials Processing Technology, 2008, 3(206):p45-55
Journal of Materials Processing Technology, 2008, 3(206):p83-91
Online since: February 2014
Authors: Ge Ning Xu, Ming Liang Yang, Qing Dong, Bin Zhang, Hui Li Ren
Dynamic Response Analysis
of Super-Long Hybrid Jib Structure under Impact Load
Qing Dong*1,a,Gening Xu1,b,Mingliang Yang1,c,Huili Ren2,d, Bin Zhang2,e
1School of Machinery and Electronics Engineering, Taiyuan University of Science and Technology, Taiyuan 030024, China
2Academia Sinica, Zoomlion Heavy Industry Science and Technology Co.
Journal of Hoisting and Conveying Machinery,2005,(5): 21-25,in Chinese
Journal of Hoisting and Conveying Machinery,2002,(2): 2-6,in Chinese
Journal of Hoisting and Conveying Machinery,2010,(10):80-87, in Chinese
Journal of Hoisting and Conveying Machinery,2010,(2),in Chinese
Journal of Hoisting and Conveying Machinery,2005,(5): 21-25,in Chinese
Journal of Hoisting and Conveying Machinery,2002,(2): 2-6,in Chinese
Journal of Hoisting and Conveying Machinery,2010,(10):80-87, in Chinese
Journal of Hoisting and Conveying Machinery,2010,(2),in Chinese
Online since: March 2019
Authors: Ainatul Mardhiah Mohd Amin, Suhaila Mohd Sauid
Materials and Methods
Materials.
Ku Hamid, "Polymer-Starch Blend Biodegradable Plastics : An Overview," Advance Materials Reserach, vol. 1113, pp. 93-98, 2015
Li, "Glass transition temperature of starches with different amylose / amylopectin ratios," Journal of Cereal Science, vol. 51, no. 3, p. 388–391, 2010
Ku Hamid, "Thermal Behavior of Tacca leontopetaloides Starch-Based Biopolymer," International Journal of Polymer Science, vol. 2013, pp. 1-7, 2013
Series: Materials Science and Engineering, vol. 358, pp. 1-6, 2018
Ku Hamid, "Polymer-Starch Blend Biodegradable Plastics : An Overview," Advance Materials Reserach, vol. 1113, pp. 93-98, 2015
Li, "Glass transition temperature of starches with different amylose / amylopectin ratios," Journal of Cereal Science, vol. 51, no. 3, p. 388–391, 2010
Ku Hamid, "Thermal Behavior of Tacca leontopetaloides Starch-Based Biopolymer," International Journal of Polymer Science, vol. 2013, pp. 1-7, 2013
Series: Materials Science and Engineering, vol. 358, pp. 1-6, 2018
Online since: January 2006
Authors: S. Nakamura, S. Sato, Yoshihiro Masuda, F.-R. Wu
Based on a large number of data
collected from several proceedings and journals published in Japan during 1981 to 2003, the
influences of fly ash property, mixture proportion and curing condition on k value were investigated.
With this as a background, this study aims to determine fly ash's contribution to concrete strength under various conditions by collecting and organizing past test data published in recent issues of the proceedings and journals of Japanese academic societies.
The subject literature included the Journal of Structural and Construction Engineering (Transactions), Journal of Technology and Design, Summaries of Technical Papers of Annual Meeting, and Journal of Architecture and Building Science by Architecture Institute of Japan (AIJ); the Journals, Proceedings of Annual Conference, and Civil engineering by the Japan Society of Civil Engineers (JSCE); the Concrete Journal, Concrete Research and Technology, and Proceedings by Japan Concrete Institute (JCI); the Cement and Concrete, Cement Science and Concrete Technology by Japan Cement Association (JCA); and Electric Power Civil Engineering by Electric Power Civil Engineering Association (JEPOC) published from 1981 to 2003.
Table 1 Overview the collected and organized data * Items Range Items Range Types of fly ash Ι, ΙΙ, ΙΙΙ, ΙV Curing conditions Standard curing, Sealed curing, Air curing** Water-binder ratio, W/B ( %) 25 ~ 65 Water-cement ratio, W/C ( %) 30 ~ 150 Fly ash permutation ratio to cementitious materials, Fa/(C+Fa) ( %) 8 ~ 70 Water content, W (kg/m3) 150 ~ 185 Cement content, C (kg/m3) 100 ~ 550 Fly ash content, Fa (kg/m3) 34 ~ 300 Slump (cm) 8.0 ~ 25.5 Air content ( %) 1.5 ~ 5.5 *: The statistic data only includes those of concrete containing fly ash. **: "Air curing" refers leaving specimens in a room atmosphere after 7-day standard curing.
Nakamura: Strength Efficiency of Fly Ash in High-strength Concrete, Journal of Structural and Construction Engineering (Transactions of Architectural Institute of Japan), No.587, January 2005, pp.1-6 (in Japanese)
With this as a background, this study aims to determine fly ash's contribution to concrete strength under various conditions by collecting and organizing past test data published in recent issues of the proceedings and journals of Japanese academic societies.
The subject literature included the Journal of Structural and Construction Engineering (Transactions), Journal of Technology and Design, Summaries of Technical Papers of Annual Meeting, and Journal of Architecture and Building Science by Architecture Institute of Japan (AIJ); the Journals, Proceedings of Annual Conference, and Civil engineering by the Japan Society of Civil Engineers (JSCE); the Concrete Journal, Concrete Research and Technology, and Proceedings by Japan Concrete Institute (JCI); the Cement and Concrete, Cement Science and Concrete Technology by Japan Cement Association (JCA); and Electric Power Civil Engineering by Electric Power Civil Engineering Association (JEPOC) published from 1981 to 2003.
Table 1 Overview the collected and organized data * Items Range Items Range Types of fly ash Ι, ΙΙ, ΙΙΙ, ΙV Curing conditions Standard curing, Sealed curing, Air curing** Water-binder ratio, W/B ( %) 25 ~ 65 Water-cement ratio, W/C ( %) 30 ~ 150 Fly ash permutation ratio to cementitious materials, Fa/(C+Fa) ( %) 8 ~ 70 Water content, W (kg/m3) 150 ~ 185 Cement content, C (kg/m3) 100 ~ 550 Fly ash content, Fa (kg/m3) 34 ~ 300 Slump (cm) 8.0 ~ 25.5 Air content ( %) 1.5 ~ 5.5 *: The statistic data only includes those of concrete containing fly ash. **: "Air curing" refers leaving specimens in a room atmosphere after 7-day standard curing.
Nakamura: Strength Efficiency of Fly Ash in High-strength Concrete, Journal of Structural and Construction Engineering (Transactions of Architectural Institute of Japan), No.587, January 2005, pp.1-6 (in Japanese)
Online since: September 2013
Authors: Jie Zhao, Jiang Fu, Yong Fu, Yu Na Zhao, Yong Chang Ma
Characterization of Cathode Materials Ln0.7Sr0.2Ca0.1Co0.7Fe0.3O2.85
( Ln=La, Pr and Nd ) Synthesized by Microwave Sintering Techniques
Jie Zhao 1,2,a, Jiang Fu 1 , Yong Fu 1, Yuna Zhao1, Yongchang Ma 1,2
1 School of Materials Science & Engineering, Tianjin University of Technology, Tianjin 300384, China;
2 Key Laboratory of Display Materials and Photoelectric Devices (Tianjin University of Technology), Ministry of Education, Tianjin 300384, China;
a vzhaoj @ tjut.edu.cn
Keywords: LnSCCF; cathode materials; microwave sintering; perovskite phase; electrical conductivity; thermal expansion behavior
Abstract.
Conventional sintering (CS) is widely used for the cathode materials.
Compared with the CS, TECs of LnSCCF cathode materials prepared by MWS reduce significantly.
This indicates that LnSCCF cathode materials prepared by MWS are more stable than those by CS.
The synthesized materials exhibit a single phase with rhombohedral or cubic perovskite structure after sintered at 1200 ℃ for 20 min.
Conventional sintering (CS) is widely used for the cathode materials.
Compared with the CS, TECs of LnSCCF cathode materials prepared by MWS reduce significantly.
This indicates that LnSCCF cathode materials prepared by MWS are more stable than those by CS.
The synthesized materials exhibit a single phase with rhombohedral or cubic perovskite structure after sintered at 1200 ℃ for 20 min.
Online since: October 2011
Authors: Yong Ping Feng, Ming Xiang Deng
Keywords: Two-scale method, homogenization, elastic materials, periodic perforated structure.
Determine the properties of basic materials, compositions and interface, boundary layer; 2).
The elastics constants of these materials and the homogenization elastic constant are listed as follows: .
*Supported by the National Natural Sciences Foundation of China(Grant: 10801042).
Feng, Multi-scale FE computation of elastic problem for perforated domain with small periodic configuration, Journal of Guangzhou University(Natural Science Edition), Vol.7(2008),p.7-11.
Determine the properties of basic materials, compositions and interface, boundary layer; 2).
The elastics constants of these materials and the homogenization elastic constant are listed as follows: .
*Supported by the National Natural Sciences Foundation of China(Grant: 10801042).
Feng, Multi-scale FE computation of elastic problem for perforated domain with small periodic configuration, Journal of Guangzhou University(Natural Science Edition), Vol.7(2008),p.7-11.
Online since: September 2021
Authors: Olga A. Moskalyuk, Diana V. Volnova, Ekaterina S. Tsobkallo, Galina P. Meshcheryakova
Some of the most suitable materials for these purposes are synthetic fibrous materials, especially in the form of nonwoven webs made of polypropylene.
In this regard, the development of a technique for predicting material properties from the type of carbon filler is one of the most important tasks of modern science.
Yudin, Transenergoplastics based on film composite materials, Materials of the 4th International Scientific Conference "Modern trends in the development of chemistry and technology of polymer materials.
Meshcheryakova Mathematical description of the electrical conductive properties of composite materials filled with carbon nanoparticles Design.
Materials.
In this regard, the development of a technique for predicting material properties from the type of carbon filler is one of the most important tasks of modern science.
Yudin, Transenergoplastics based on film composite materials, Materials of the 4th International Scientific Conference "Modern trends in the development of chemistry and technology of polymer materials.
Meshcheryakova Mathematical description of the electrical conductive properties of composite materials filled with carbon nanoparticles Design.
Materials.