Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: January 2017
Authors: Qing Bin Liu, Da Wei Yao, Gang Lee, Heng Zhao
Journal of Rare Metal Materials and Engineering, 49(2) (2015) 300-301
Journal of Materials Science and Engineering, A (2015) (Unpublished)
Journal of Materials Science and Engineering, A, 585 (2013) 123-131
Journal of Materials Characterization, 100 (2015) 78-80
Journal of Materials Processing Technology, 214 (2014) 364
Journal of Materials Science and Engineering, A (2015) (Unpublished)
Journal of Materials Science and Engineering, A, 585 (2013) 123-131
Journal of Materials Characterization, 100 (2015) 78-80
Journal of Materials Processing Technology, 214 (2014) 364
Online since: October 2013
Authors: Zhao Liang Jiang, Zhi Li, Wen Ping Liu, Bin Li, Wei Yi
The influence of stretched fixation on face milling-machined 6061T6 aluminum alloy, a widely used material in industry, was investigated in the paper.
Experimental material and setup The chemical composition and the mechanical properties of the 6061T6 aluminum alloy are given in Tables 1 and 2, respectively.
Acknowledgements This research is supported by the Natural Science Foundation of China under Grant No. 51175304.
References [1] ZeHua Zhou and Datong Guo: The IXth ICPR (1987), p.257-263 [2] Min Wang and Lau WS: Chinese Journal of Mechanical Engineering Vol.8 (1992) ,p.104-109 [3] Huanan Hu, Zehua Zhou and Chengzhou Chen: Journal of South China University of Technology Vol.22 (1994) ,p.1-10 [4] Defu Liu and Xiaoxia Yu: Journal of Changsha Railway University Vol.18 (2000), p.48-52 [5] Guangbin Bu,Zufa Cheng and Dunwen Zou, Min Wang: Journal of Nanjing University of Aeronautics & Astronautics Vol. 37(2005), p. 21-25 [6] Hun Guo, Shudun Zuo, Shuhong Wang, Yan Wang and Min Wang: Journal of Nanjing University of Aeronautics & Astronautics Vol, 37(2005), p.72-76 [7] Honghao Xu, Dunwen Zuo, Xiaoxiao Zhu and Min Wang: Journal of South China University of Technology(Natural Science Edition) Vol.36(2008),p.89-93,100 [8] Honghao Xu, Dunwen Zuo, Xiaoxiao Zhu and Zhenjin Zhang, Can Zhao, Min Wang: Journal of Applied Sciences-Electronics and Information Engineering Vol.26(2008),p.106-110
Experimental material and setup The chemical composition and the mechanical properties of the 6061T6 aluminum alloy are given in Tables 1 and 2, respectively.
Acknowledgements This research is supported by the Natural Science Foundation of China under Grant No. 51175304.
References [1] ZeHua Zhou and Datong Guo: The IXth ICPR (1987), p.257-263 [2] Min Wang and Lau WS: Chinese Journal of Mechanical Engineering Vol.8 (1992) ,p.104-109 [3] Huanan Hu, Zehua Zhou and Chengzhou Chen: Journal of South China University of Technology Vol.22 (1994) ,p.1-10 [4] Defu Liu and Xiaoxia Yu: Journal of Changsha Railway University Vol.18 (2000), p.48-52 [5] Guangbin Bu,Zufa Cheng and Dunwen Zou, Min Wang: Journal of Nanjing University of Aeronautics & Astronautics Vol. 37(2005), p. 21-25 [6] Hun Guo, Shudun Zuo, Shuhong Wang, Yan Wang and Min Wang: Journal of Nanjing University of Aeronautics & Astronautics Vol, 37(2005), p.72-76 [7] Honghao Xu, Dunwen Zuo, Xiaoxiao Zhu and Min Wang: Journal of South China University of Technology(Natural Science Edition) Vol.36(2008),p.89-93,100 [8] Honghao Xu, Dunwen Zuo, Xiaoxiao Zhu and Zhenjin Zhang, Can Zhao, Min Wang: Journal of Applied Sciences-Electronics and Information Engineering Vol.26(2008),p.106-110
Online since: September 2011
Authors: Hong Guang Ji, Hua Cheng, Hua Wang
Huainan: Anhui University of Science and Technology
China Railway Science, 24 (2) :132-136. (2003).
Journal of Chang’an University(Natural Science Edition), 22 (5) : 48-50. (2001).
Journal of Guangxi University(Natural Science Edition), 35 (01) : 35-38. (2010).
Journal of Liaoning Technical University (Natural Science), 28 (03) :337-340. (2009).
China Railway Science, 24 (2) :132-136. (2003).
Journal of Chang’an University(Natural Science Edition), 22 (5) : 48-50. (2001).
Journal of Guangxi University(Natural Science Edition), 35 (01) : 35-38. (2010).
Journal of Liaoning Technical University (Natural Science), 28 (03) :337-340. (2009).
Online since: November 2025
Authors: Ákos Meilinger, Marcell Gáspár, Ádám Pap
Introduction
Hydrogen-assisted mechanical degradation of structural materials is one of the most complex phenomena of the metallic materials degradation, due to several new unknowns in the degradation process kinetics, compared to the degradation in the absence of hydrogen in metal.
Hydrogen may degrade the mechanical behavior of metallic materials, including steel, and lead them to failure.
Diffusible hydrogen content of different filler materials.
Verbeken, The effect of a constant tensile load on the hydrogen diffusivity in dual phase steel by electrochemical permeation experiments, Materials Science & Engineering A 773 (2020) 138872. https://doi.org/10.1016/j.msea.2019.138872
Linton, Investigation of hydrogen assisted cracking in acicular ferrite using site-specific micro-fracture tests, Materials Science & Engineering A 651 (2016) pp. 859–868. http://dx.doi.org/10.1016/j.msea.2015.11.044
Hydrogen may degrade the mechanical behavior of metallic materials, including steel, and lead them to failure.
Diffusible hydrogen content of different filler materials.
Verbeken, The effect of a constant tensile load on the hydrogen diffusivity in dual phase steel by electrochemical permeation experiments, Materials Science & Engineering A 773 (2020) 138872. https://doi.org/10.1016/j.msea.2019.138872
Linton, Investigation of hydrogen assisted cracking in acicular ferrite using site-specific micro-fracture tests, Materials Science & Engineering A 651 (2016) pp. 859–868. http://dx.doi.org/10.1016/j.msea.2015.11.044
Online since: March 2012
Authors: Dan Dan Ji, Bin Xu, Hong Xia Jia, Xin Liao, Zhi Tao Liu
Journal of Ballistics, Vol.14(2002),p.8-13
Journal of Ballistics,Vol.12(2000),p.11-14
Journal of Ballistics,Vol.20(2008),p.29-32
Journal of Nanjing university of science and technology,Vol.19(1995),p.489-492 [8] ZhiMing Jing.
Beijing: Beijing University of Science and Technology Press, Beijing, 2004.
Journal of Ballistics,Vol.12(2000),p.11-14
Journal of Ballistics,Vol.20(2008),p.29-32
Journal of Nanjing university of science and technology,Vol.19(1995),p.489-492 [8] ZhiMing Jing.
Beijing: Beijing University of Science and Technology Press, Beijing, 2004.
Online since: May 2013
Authors: Satish Chinchanikar, A. P. Kulkarni, S. K. Choudhury
Further, this technique is applicable to only those tool materials that exhibit a change in the micro-structure with temperature.
Camuscu, A numerical model to determine temperature distribution in orthogonal metal cutting, Journal of Materials Processing Technology 171 (2006) 1–9
Seker, Investigation of chip-back temperature during machining depending on cutting parameters, Materials and Design 28 (2007) 2329-2335
Brandao, Turning hardened steel using coated carbide at high cutting speeds, Journal of Brazilian Society of Mechanical Science and Engineering 30(2) (2008) 104-109
Hameedullah, Chip-tool interface temperature prediction model for turning process, International Journal of Engineering Science and Technology 2 (4) (2010) 382-393
Camuscu, A numerical model to determine temperature distribution in orthogonal metal cutting, Journal of Materials Processing Technology 171 (2006) 1–9
Seker, Investigation of chip-back temperature during machining depending on cutting parameters, Materials and Design 28 (2007) 2329-2335
Brandao, Turning hardened steel using coated carbide at high cutting speeds, Journal of Brazilian Society of Mechanical Science and Engineering 30(2) (2008) 104-109
Hameedullah, Chip-tool interface temperature prediction model for turning process, International Journal of Engineering Science and Technology 2 (4) (2010) 382-393
Online since: April 2018
Authors: Martin Müller, Réjane Hörhold, Marion Merklein, Sebastian Wiesenmayer, Daxin Han, Gerson Meschut
Table 1 describes the mechanical properties of the investigated materials.
The flow of the materials forms a huge pocket in the middle of the specimen.
Kato, Self-pierce riveting of multiple steel and aluminium alloy sheets Journal of Materials Processing Technology 214-10 (2014) 2002-2008
Kato, Joining of high strength steel and aluminium alloy sheets by mechanical clinching with dies for control of metal flow, Journal of Materials Processing Technology 212-4 (2012) 884-889
[9] Letsch, S.; Meschut, G.; Kuting, J.; Peitz, V. et al: „Mechanische Fügetechnik für die Mischbauweise, Teil 2 – Neuartige Fügeverfahren -, Schweißen und Schneiden 56, 2004, Nr. 10, pp. 518-526 [10] Hörhold, R.; Müller, M.; Merklein, M.; Meschut, G.: Specimen´s Geometry Related Influences on Load-Bearing Capacity of Joining Aluminium and UHSS by Innovative Shear-Clinching, 2017, Vol. 6, No. 4, Journal of Materials Science Research [11] Hörhold, R., Müller, M., Merklein, M., & Meschut, G.
The flow of the materials forms a huge pocket in the middle of the specimen.
Kato, Self-pierce riveting of multiple steel and aluminium alloy sheets Journal of Materials Processing Technology 214-10 (2014) 2002-2008
Kato, Joining of high strength steel and aluminium alloy sheets by mechanical clinching with dies for control of metal flow, Journal of Materials Processing Technology 212-4 (2012) 884-889
[9] Letsch, S.; Meschut, G.; Kuting, J.; Peitz, V. et al: „Mechanische Fügetechnik für die Mischbauweise, Teil 2 – Neuartige Fügeverfahren -, Schweißen und Schneiden 56, 2004, Nr. 10, pp. 518-526 [10] Hörhold, R.; Müller, M.; Merklein, M.; Meschut, G.: Specimen´s Geometry Related Influences on Load-Bearing Capacity of Joining Aluminium and UHSS by Innovative Shear-Clinching, 2017, Vol. 6, No. 4, Journal of Materials Science Research [11] Hörhold, R., Müller, M., Merklein, M., & Meschut, G.
Online since: September 2014
Authors: Eugênio José Zoqui, Luis Vanderlei Torres, Davi Munhoz Benati
Nomura, Effect of semi-solid processing on solidification microstructure and mechanical properties of gray cast iron, Materials Science and Engineering A. 417A (2006) 166-173
Nofal, Microstructure, fluidity, and mechanical properties of semi-solid processed ductile iron, Journal of Materials Science. 11 (2011) 4013-4019
Zoqui, Thixoformability of hypoeutectic gray cast iron, Journal of Materials Processing Technology. 212 (2012) 1225-1235
Essadiqui, Morphological evolution of SSM A356 during partial remelting, Materials Science and Engineering A.
Atkinson, Modelling the semisolid processing of metallic alloys, Progress in Materials Science. 50 (2005) 341-412.
Nofal, Microstructure, fluidity, and mechanical properties of semi-solid processed ductile iron, Journal of Materials Science. 11 (2011) 4013-4019
Zoqui, Thixoformability of hypoeutectic gray cast iron, Journal of Materials Processing Technology. 212 (2012) 1225-1235
Essadiqui, Morphological evolution of SSM A356 during partial remelting, Materials Science and Engineering A.
Atkinson, Modelling the semisolid processing of metallic alloys, Progress in Materials Science. 50 (2005) 341-412.
Online since: January 2017
Authors: Jakrapong Kaewkhao, Nattapon Srisittipokakun
CoO doped glasses are significantly important in the materials technology in terms of optical switching devices, visible and near- infrared (NIR) laser materials, ferromagnetic sensors, etc.
In view of this, the cobalt containing glasses are used as NIR laser materials [3].
Optical Materials, 2011; 33: 1984–1988
Materials Research Bulletin, 2012; 47: 2646–2654
Optical Materials, 1998; 10: 245–252
In view of this, the cobalt containing glasses are used as NIR laser materials [3].
Optical Materials, 2011; 33: 1984–1988
Materials Research Bulletin, 2012; 47: 2646–2654
Optical Materials, 1998; 10: 245–252
Online since: June 2012
Authors: Juan Zhang, Xian Xiang Luo, Long Jun Zhang
Then the ecological measurement against eutrophication may be to cultivate a kind of ecological environment materials (e.g. seaweed) to absorb the excessive nutrition.
Wu: Science in China Ser.
Zhu: Information Sciences Vol. 177 (2007), p. 4997-5011 [3] J.F.
Wang: Chinese Journal of Oceanology and Limnology Vol. 25 (2007) No.3, p. 261-269 [5] C.
Hui: Journal of Oceanography in Taiwan Strait Vol.17 (1998) No.1, p. 64-70, In Chinese [7] Z.Q.
Wu: Science in China Ser.
Zhu: Information Sciences Vol. 177 (2007), p. 4997-5011 [3] J.F.
Wang: Chinese Journal of Oceanology and Limnology Vol. 25 (2007) No.3, p. 261-269 [5] C.
Hui: Journal of Oceanography in Taiwan Strait Vol.17 (1998) No.1, p. 64-70, In Chinese [7] Z.Q.