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Online since: November 2013
Authors: Rahul Ramesh Kulkarni, Nityanand Prabhu, Bhagwati Prasad Kashyap, Peter D. Hodgson
Niewczas, Effects of heat treatment on microstructure and tensile deformation of Mg AZ80 alloy at room temperature, Materials Science and Engineering A 496 (2008) 247–255
[5] S.W.
Honma, Effect of homogenization on microstructures and mechanical properties of hot compressed Mg–9Al–1Zn alloy, Materials Science and Engineering 528 (2011) 2385–2393 [6] H Westengen, Magnesium alloys for structural applications, recent advances”, Journal de Physique IV, Colloque, 3(1993) [7] A.
Chaturvedi, Phase transformation in Materials, prentice Hall, New Jersey, 1992
Wang, Hongzhen Guo, Yanwei Wang, Xiaona Peng, Yan Zhao, Zekun Yao, The effect of microstructure on tensile properties, deformation mechanisms and fracture models of TG6 high temperature titanium alloy, Materials Science and Engineering A 528 (2011) 2370–2379 [10] Teng-Shih Shih, Wen-Sun Liu, Yeong-Jern Chen, Fatigue of as-extruded AZ61A magnesium alloy, Materials Science and Engineering A 325 (2002) 152–162 [11] C.
M, Investigation on mechanical behavior of AM60 magnesium alloys, Journal of achievement in Materials and manufacturing engineering, 31(2008)
Honma, Effect of homogenization on microstructures and mechanical properties of hot compressed Mg–9Al–1Zn alloy, Materials Science and Engineering 528 (2011) 2385–2393 [6] H Westengen, Magnesium alloys for structural applications, recent advances”, Journal de Physique IV, Colloque, 3(1993) [7] A.
Chaturvedi, Phase transformation in Materials, prentice Hall, New Jersey, 1992
Wang, Hongzhen Guo, Yanwei Wang, Xiaona Peng, Yan Zhao, Zekun Yao, The effect of microstructure on tensile properties, deformation mechanisms and fracture models of TG6 high temperature titanium alloy, Materials Science and Engineering A 528 (2011) 2370–2379 [10] Teng-Shih Shih, Wen-Sun Liu, Yeong-Jern Chen, Fatigue of as-extruded AZ61A magnesium alloy, Materials Science and Engineering A 325 (2002) 152–162 [11] C.
M, Investigation on mechanical behavior of AM60 magnesium alloys, Journal of achievement in Materials and manufacturing engineering, 31(2008)
Ring Method Test on the early-Age Anti-Cracking Capability of High-Performance Lithium Slag Concrete
Online since: September 2011
Authors: Ke Bin Shi, Shan De Zhang
Acknowledgement
The paper was supported by National Natural Science Foundation of China(50969010)and Doctoral Specialty Foundation of Colleges and Universities(No.200807580007)and Xin Jiang Water Conservancy and Hydropower Project Foundation t(xjzdxk-2002-10-05).
References [1] Funahashi M.Predicating Concrete-free Service Life of a Concrete Struncture in a Chlorine Environment,ACI.Material Journal,1990
ACI Materials Journal,2000,97(4)
Creep Shrinkage and Cracking of Restrained Concrete at Early Age, ACI Materials Journal,2001, 98(4)
[7]Lanfang ZHANG,Jianxiong CHEN.Experiment Research on High Performance Lithium Slag Concrete, Architecture and Cementitious Materials ,2005(3).
References [1] Funahashi M.Predicating Concrete-free Service Life of a Concrete Struncture in a Chlorine Environment,ACI.Material Journal,1990
ACI Materials Journal,2000,97(4)
Creep Shrinkage and Cracking of Restrained Concrete at Early Age, ACI Materials Journal,2001, 98(4)
[7]Lanfang ZHANG,Jianxiong CHEN.Experiment Research on High Performance Lithium Slag Concrete, Architecture and Cementitious Materials ,2005(3).
Online since: February 2012
Authors: Wang Biao Qiu, Xue Mei Li
After LiNbO3 film preparation finished, 4 electrode are made of aluminum materials with aluminum (Al) materials with four other electrodes, the two former are located in the big toe; one is located in thenar center, the other is located in thenar heel.
Journal of tianjin university,2006(8):44~47 [3] Lihui,Zhangxin etc.
Engineering journal science and technology institute, xi'an, 2006(02):36~40 [4] Huang haijing,Wang zibin,Jing hongbin.
Japanese industrial technology centre with extend the material submitted ,2005.7 [7] Wei qihang.
Chinese medical journal of biological engineering,2002 [8] Li jianshe.
Journal of tianjin university,2006(8):44~47 [3] Lihui,Zhangxin etc.
Engineering journal science and technology institute, xi'an, 2006(02):36~40 [4] Huang haijing,Wang zibin,Jing hongbin.
Japanese industrial technology centre with extend the material submitted ,2005.7 [7] Wei qihang.
Chinese medical journal of biological engineering,2002 [8] Li jianshe.
Online since: August 2014
Authors: Jin Ju, Yi Bo Liu, Hu Zhu
Acknowledgements
This work is financially supported by the National Natural Science Foundation of China (No. 51175351).
Filice: Journal of Materials Processing Technology Vol. 191(2007), p. 390-395 [2] J .H.
Kim: Journal of Materials Processing Technology Vol. 140(2003), p. 447-453 [4] H.
Bai: Advanced Materials Research Vol. 421(2012), p. 325-328 [5] H.
Li: Journal of Liaoning Technical University Vol. 2(2007), p. 273-275, in Chinese
Filice: Journal of Materials Processing Technology Vol. 191(2007), p. 390-395 [2] J .H.
Kim: Journal of Materials Processing Technology Vol. 140(2003), p. 447-453 [4] H.
Bai: Advanced Materials Research Vol. 421(2012), p. 325-328 [5] H.
Li: Journal of Liaoning Technical University Vol. 2(2007), p. 273-275, in Chinese
Online since: May 2014
Authors: Shuai Yan, Meng Hua Wu, Zhi Ning, Yuan Gang Wang
In recent years, with the rapid development of science and technology, especially the advanced science technology, materials research and development more and more played its irreplaceable role.
And the continuous development of production technology and the actual application requirements on the properties of ceramic materials was also put forward higher and higher and more and more requirements, traditional single material in many ways cannot meet the requirements of production practice, these promote of people's material was no longer limited to the traditional design method of materials research, and toward a predetermined performance design of the new material research direction[1].Composite material was composed of two or more than two kinds of physical and chemical properties of different material combination of a multiphase solid materials[2-4].
Introduction to composite materials [M].
Unconventional rapid electrodeposition method and principle of preparation of nanometer materials [J].
Materials protection, 2009, 42 (8) : 5
And the continuous development of production technology and the actual application requirements on the properties of ceramic materials was also put forward higher and higher and more and more requirements, traditional single material in many ways cannot meet the requirements of production practice, these promote of people's material was no longer limited to the traditional design method of materials research, and toward a predetermined performance design of the new material research direction[1].Composite material was composed of two or more than two kinds of physical and chemical properties of different material combination of a multiphase solid materials[2-4].
Introduction to composite materials [M].
Unconventional rapid electrodeposition method and principle of preparation of nanometer materials [J].
Materials protection, 2009, 42 (8) : 5
Online since: June 2014
Authors: Celalettin Karadogan, Deniz Duran, Izzet Ozdemir
AISI M2 high speed steel is used as punch material.
Tekkaya, A guide for validation of FE simulations in bulk metal forming, The Arabian Journal for Science and Engineering, Volume 30, 2005, Pages 113-136
Bay, Friction stress and normal stress in bulk metal-forming processes, Journal of Mechanical Working Technology, Volume 14, Issue 2, March 1987, Pages 203-223
Altan, Evaluation of lubrication and friction in cold forging using a double backward-extrusion process, Journal of Materials Processing Technology, Volume 33, Issues 1–2, August 1992, Pages 95-108
Altan, A critical evaluation of the double cup extrusion test for selection of cold forging lubricants, Journal of Materials Processing Technology, Volume 189, Issues 1–3, 6 July 2007, Pages 36-44
Tekkaya, A guide for validation of FE simulations in bulk metal forming, The Arabian Journal for Science and Engineering, Volume 30, 2005, Pages 113-136
Bay, Friction stress and normal stress in bulk metal-forming processes, Journal of Mechanical Working Technology, Volume 14, Issue 2, March 1987, Pages 203-223
Altan, Evaluation of lubrication and friction in cold forging using a double backward-extrusion process, Journal of Materials Processing Technology, Volume 33, Issues 1–2, August 1992, Pages 95-108
Altan, A critical evaluation of the double cup extrusion test for selection of cold forging lubricants, Journal of Materials Processing Technology, Volume 189, Issues 1–3, 6 July 2007, Pages 36-44
Online since: December 2023
Authors: Antti Järvenpää, Matias Jaskari, Timo Rautio
Progress in Materials Science, 119:100707, jun
2021
International Journal of Mechanical and Materials Engineering, 16(1), nov 2021
Materials, 15(10):3517, may 2022
Materials Science and Engineering: A, 755:1-9, may 2019
Materials & Design, page 110454, feb 2022
International Journal of Mechanical and Materials Engineering, 16(1), nov 2021
Materials, 15(10):3517, may 2022
Materials Science and Engineering: A, 755:1-9, may 2019
Materials & Design, page 110454, feb 2022
Online since: August 2009
Authors: Quan Kun Liu, Sheng Lei, Yu Ping Liu, Heng Li
Li
1
1 School of Materials Science and Engineering, Hefei University of Technology, Hefei 230009, China
2 Department of Electromechanical Engineering, Anhui Institute of Architecture and Industry,
Hefei 230022, China
Key words: laser hardening, lubricated sliding wear, block specimens, GCr15 steel
Abstract.
[3] Liu Qingbin: Journal of Materials Processing Technology Vol. 88 (1999),p.77-82
Loa: Materials Letters Vol. 58 (2003),p.88-93
[6] Tamas Reti: Computational Materials Science Vol. 44 (1999),p.111-112
[7] Rakesh Kaul: Journal of Materials Processing Technology Vol. 167 (2005),p.83-90
[3] Liu Qingbin: Journal of Materials Processing Technology Vol. 88 (1999),p.77-82
Loa: Materials Letters Vol. 58 (2003),p.88-93
[6] Tamas Reti: Computational Materials Science Vol. 44 (1999),p.111-112
[7] Rakesh Kaul: Journal of Materials Processing Technology Vol. 167 (2005),p.83-90
Online since: September 2017
Authors: Nataliya Shaburova, T.D. Ratmanov, A.M. Minkin
The purity of the target material was not less than 99.99 %.
Process Engineering of Dimensional Fused Silica Etching, Materials Science Forum. 870 (2016) 20-25
Shen, Effect of deposition conditions on mechanical stresses and microstructure of sputter-deposited molybdenum and reactively sputter-deposited molybdenum nitride films, Materials Science and Engineering.
Lin, MEMS Materials and Processes Handbook, Springer, New York, 2011
Faou, Mechanics of functional thin films: instabilities and adhesion, Mechanics of Materials, Universite, Pierre et Marie Curie, Paris (2013) [9] B.D.
Process Engineering of Dimensional Fused Silica Etching, Materials Science Forum. 870 (2016) 20-25
Shen, Effect of deposition conditions on mechanical stresses and microstructure of sputter-deposited molybdenum and reactively sputter-deposited molybdenum nitride films, Materials Science and Engineering.
Lin, MEMS Materials and Processes Handbook, Springer, New York, 2011
Faou, Mechanics of functional thin films: instabilities and adhesion, Mechanics of Materials, Universite, Pierre et Marie Curie, Paris (2013) [9] B.D.
Online since: November 2013
Authors: Nadras Othman, Ismail Hanafi, Nor Hasmaniza Husna Shuhaimi, Sreenivasan Sasidharan
Experimental
Materials.
In addition, polymer chain structure has given more impact towards the mechanical properties of rubber materials.
Matsumoto, Mechanical properties and thermal aging behavior of styrene‐butadiene rubbers vulcanized using liquid diene polymers as the plasticizer, Journal of Applied Polymer Science, 118 (4) (2010) 2314-2320 [6] S.
Sasidharan, Effect of natural antioxidants on curing characteristics and crosslink density of natural rubber vulcanisate, Advanced Materials Research, 626 (2013) 366-371 [8] D.
Sasidharan, Comparative study on natural antioxidant as an aging retardant for natural rubber vulcanizates, Journal of Applied Polymer Science, 124 (2012) 1490-1500
In addition, polymer chain structure has given more impact towards the mechanical properties of rubber materials.
Matsumoto, Mechanical properties and thermal aging behavior of styrene‐butadiene rubbers vulcanized using liquid diene polymers as the plasticizer, Journal of Applied Polymer Science, 118 (4) (2010) 2314-2320 [6] S.
Sasidharan, Effect of natural antioxidants on curing characteristics and crosslink density of natural rubber vulcanisate, Advanced Materials Research, 626 (2013) 366-371 [8] D.
Sasidharan, Comparative study on natural antioxidant as an aging retardant for natural rubber vulcanizates, Journal of Applied Polymer Science, 124 (2012) 1490-1500