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Online since: May 2019
Authors: Ying Wang, Ying Ge Lei, Yun Chang, Li Fang Zhang
Journal of Bridge Engineering. 11(2006) 33-47
Journal of Bridge Engineering. 21(2016) 04016006
Construction and Building Materials. 25(2011): 1580-1586
Construction and Building Materials. 77(2015) 179-186
Journal of Fuzhou University (Natural Science Edition).43(2015)231-237
Journal of Bridge Engineering. 21(2016) 04016006
Construction and Building Materials. 25(2011): 1580-1586
Construction and Building Materials. 77(2015) 179-186
Journal of Fuzhou University (Natural Science Edition).43(2015)231-237
Micro-Structure Evolution of SAF2205 Steel Subjected to Single Direction Torsion at Room Temperature
Online since: February 2017
Authors: Fu Guo Li, Fu Qiang Liu, Jie Liu, Chu Lun Tian, Han Chen
Materials Science & Engineering A. 2007;456:305-316
Materials Science & Engineering A. 2002;338:142-159
Materials Science & Engineering A. 2016;671:17-31
Jom the Journal of the Minerals Metals & Materials Society. 2015;67:2303-2309
Materials Science & Engineering A. 2014;598:7-14
Materials Science & Engineering A. 2002;338:142-159
Materials Science & Engineering A. 2016;671:17-31
Jom the Journal of the Minerals Metals & Materials Society. 2015;67:2303-2309
Materials Science & Engineering A. 2014;598:7-14
Online since: June 2021
Authors: Vladimir Jean Paul, Christopher Kneel Stewart Brown, Paschal Chimeremeze Chiadighikaobi
The properties of materials and designs used in constructing this structural element are very important.
This combination of values exceeds, to the researchers' knowledge, the performance of all other lightweight building materials.
Materials and Methods of Research In the research to examine the flexural strength of the lightweight expanded clay basalt fiber concrete, some materials were used.
Rizkalla, Use of Basalt Fibers for Concrete Structures, Construction and Building Materials, 96 (2015) 37–46
Zhurbin, Integrated Steamhydroinsulating Material, Internet Journal of VolgGASU, 2,33(2014) 1
This combination of values exceeds, to the researchers' knowledge, the performance of all other lightweight building materials.
Materials and Methods of Research In the research to examine the flexural strength of the lightweight expanded clay basalt fiber concrete, some materials were used.
Rizkalla, Use of Basalt Fibers for Concrete Structures, Construction and Building Materials, 96 (2015) 37–46
Zhurbin, Integrated Steamhydroinsulating Material, Internet Journal of VolgGASU, 2,33(2014) 1
Online since: June 2025
Authors: Roshan Maroti Vaghode, Vijay Kumar Meena, Anil Meena
References
[1] Yadroitsev, Igor, Yadroitsava, Ina, Du Plessis, Anton, Macdonald, Eric: Fundamentals of Laser Powder Bed Fusion of Metals ( Elsevier publication 2021)
[2] DebRoy T, Wei HL, Zuback JS, Mukherjee T, Elmer JW, Milewski JO, Beese AM, Wilson-Heid AD, De A, Zhang W: Progress in Materials Science Vol. 92 (2018), p. 112-224
[3] Al Dawood M, El Mahallawi IS, Abd El Azim ME, El Koussy MR: Materials science and technology Vol. 20 (2004), p. 363-369
[4] Lashgari HR, Xue Y, Onggowarsito C, Kong C, Li S: Materials Today Communications Vol. 25 (2020), p. 101535
[11] Guennouni N, Barroux A, Grosjean C, Maisonnette D, Nivet E, Andrieu E, Poquillon D, Laffont L, Blanc C: Materials Science and Engineering Vol. 823 (2021), p. 141718
[12] Nezhadfar PD, Shrestha R, Phan N, Shamsaei N: International Journal of Fatigue Vol. 124 (2019), p. 188-204 [13] Eskandari H, Lashgari HR, Ye L, Eizadjou M, Wang H: Materials Today Communications Vol. 30 (2022), p. 103075
[14] Sun Y, Moroz A, Alrbaey K: Journal of materials engineering and performance Vol. 23 (2014), p. 518-526
[15] Collazo A, Figueroa R, Pérez C, Nóvoa XR: Materials Vol. 15 (2022), p. 1353 [16] Tiamiyu AA, Eduok U, Odeshi AG, Szpunar JA; Materials Science and Engineering Vol. 745 (2019), p. 1-9
[11] Guennouni N, Barroux A, Grosjean C, Maisonnette D, Nivet E, Andrieu E, Poquillon D, Laffont L, Blanc C: Materials Science and Engineering Vol. 823 (2021), p. 141718
[12] Nezhadfar PD, Shrestha R, Phan N, Shamsaei N: International Journal of Fatigue Vol. 124 (2019), p. 188-204 [13] Eskandari H, Lashgari HR, Ye L, Eizadjou M, Wang H: Materials Today Communications Vol. 30 (2022), p. 103075
[14] Sun Y, Moroz A, Alrbaey K: Journal of materials engineering and performance Vol. 23 (2014), p. 518-526
[15] Collazo A, Figueroa R, Pérez C, Nóvoa XR: Materials Vol. 15 (2022), p. 1353 [16] Tiamiyu AA, Eduok U, Odeshi AG, Szpunar JA; Materials Science and Engineering Vol. 745 (2019), p. 1-9
Online since: September 2008
Authors: Francisco Ambrozio Filho, Maria do Carmo Silva, L.C.E. da Silva
Stöver," Mechanical Behavior
of NiTi parts prepared by powder metallurgical methods" Materials Science and Engineering A
378 (2004) p 185
[6] M.
Stöver," Powder metallurgical fabrication processes for NiTi shape memory alloy parts" Materials Science and Engineering, A 337, 2002, p 254 [7] M S.Yong et all "Solid state synthesis of nanocrystalline and/or amorphous 50Ni-50 Ti alloy" Materials Science Engineering A 392, 2005, p 222 [8] M.
Coelho," Extrusion of aluminum alloys prepared from mechanically alloyed powder" Materials Science Forum, V. 416-418, 2003, p176 [10] M.
Muller,"Extrusion of Nickel-titanium alloys Nitinol to hollow shapes" Journal of Materials Processing Technology, 111,2001, p 122 [12] C.
Suryanarayana "Mechanical Alloying and Milling" Review, Progress in Materials Science 46, 2001
Stöver," Powder metallurgical fabrication processes for NiTi shape memory alloy parts" Materials Science and Engineering, A 337, 2002, p 254 [7] M S.Yong et all "Solid state synthesis of nanocrystalline and/or amorphous 50Ni-50 Ti alloy" Materials Science Engineering A 392, 2005, p 222 [8] M.
Coelho," Extrusion of aluminum alloys prepared from mechanically alloyed powder" Materials Science Forum, V. 416-418, 2003, p176 [10] M.
Muller,"Extrusion of Nickel-titanium alloys Nitinol to hollow shapes" Journal of Materials Processing Technology, 111,2001, p 122 [12] C.
Suryanarayana "Mechanical Alloying and Milling" Review, Progress in Materials Science 46, 2001
Online since: September 2011
Authors: Yi Min Li, Yu Liu, Qing Kun Xia, Hao He, Guang Yao Wang
Acknowledgements
This work is supported by Innovation Research Group Foundation of National Natural Science Foundation Committee(No.50721003),National Natural Science Foundation of China National Natural Science Foundation Council(51075405),Hunan Education Department Research Project(10C0418),Changsha Science and Technology Plan(K0802130-11)and Changsha University Scientific Research Projects(CDJJ-09010207)
References
[1] Liu Yu: Powder Metallurgy Materials Science and Engineering, 2010, 15 (5):427-432
[2] Zhang Jianguang, Li Yimin, Liu Yu: Powder Metallurgy Materials Science and Engineering, 2009, 14 (2): 89-95
[3] T.
Aizawa, Kihara: Advances in powder metallurgy and particular materials, 1996, 5(2): 19-20 [4] Wang Anlin: Shanghai Jiao Tong University, 2005, 39 (5) :790-794 [5] Wei Qun:The numerical methods and the procedures of the basic principles of discrete element method.
Beijing: Science Press, 1991:5-24 [6] C.
Tamagnini: Journal of Engineering Mathematics, 2005, 52: 265-291
Aizawa, Kihara: Advances in powder metallurgy and particular materials, 1996, 5(2): 19-20 [4] Wang Anlin: Shanghai Jiao Tong University, 2005, 39 (5) :790-794 [5] Wei Qun:The numerical methods and the procedures of the basic principles of discrete element method.
Beijing: Science Press, 1991:5-24 [6] C.
Tamagnini: Journal of Engineering Mathematics, 2005, 52: 265-291
Online since: September 2013
Authors: Hao Xu
Applied Mechanics and Materials, Volume411-414, pp. 152-155, 2013
[2] Hao Xu, Liang Feng Sun, Mi Zou, An Ning Meng: A Survey of Scientific Metadata Schema.
Applied Mechanics and Materials, Volume411-414, pp. 349-352, 2013 [3] Hao Xu: Semantic Relationships of Scientific Discourses.
Applied Mechanics and Materials, Volume411-414, pp. 380-384, 2013 [4] Hao Xu, Yu Tao Bie: Social JLU: Towards Building Social Learning Networks.
Journal of Computational Information Systems.
Lecture Notes in Computer Science, Volume 6059, Springer, AST 2010, Miyazaki, Japan, 2010, pp.378-384
Applied Mechanics and Materials, Volume411-414, pp. 349-352, 2013 [3] Hao Xu: Semantic Relationships of Scientific Discourses.
Applied Mechanics and Materials, Volume411-414, pp. 380-384, 2013 [4] Hao Xu, Yu Tao Bie: Social JLU: Towards Building Social Learning Networks.
Journal of Computational Information Systems.
Lecture Notes in Computer Science, Volume 6059, Springer, AST 2010, Miyazaki, Japan, 2010, pp.378-384
Online since: July 2011
Authors: Hai Bo Qi, Yang Zhang, Hao Zhu
Microstructure and fracture behavior of ceramic particle reinforced composite bond with the assistance of ultrasonic waves
Yang Zhang1,a, Haibo Qi1, b, Hao Zhu1,c
1College of Materials Science and Engineering, Shijiazhuang Tiedao University, Shijiazhuang 050043, China
azhangyang@stdu.edu.cn, bhbqi@mail.tsinghua.edu.cn, czhuhao_mallory@163.com
Key words: composite bond, Ultrasonic brazing, fracture behavior.
In this study, 55 vol.% SiCp/A356 composite materials were brazed by filling with a Zn-based alloy with the assistance of ultrasonic waves.
From Fig. 1a, the bond zone was broadened to 850 µm because of base material dissolution and ~ 37 vol.% of the particles from the base materials were well-distributed in the bond zone.
Conclusions Composite materials (55 vol.% SiCp/A356) were brazed by filling with a Zn-based alloy with the assistance of ultrasonic waves.
Weis: Welding Journal. 86(2007), p. 67 [8] J.
In this study, 55 vol.% SiCp/A356 composite materials were brazed by filling with a Zn-based alloy with the assistance of ultrasonic waves.
From Fig. 1a, the bond zone was broadened to 850 µm because of base material dissolution and ~ 37 vol.% of the particles from the base materials were well-distributed in the bond zone.
Conclusions Composite materials (55 vol.% SiCp/A356) were brazed by filling with a Zn-based alloy with the assistance of ultrasonic waves.
Weis: Welding Journal. 86(2007), p. 67 [8] J.
Online since: May 2021
Authors: Mahmoud M. Maghawry, Mohamed K. Elfawakhry, Hoda El-Faramwy, Sabreen A. Abdelwahab
Materials Science and Engineering: A 114 (1989): 51-59
Journal of materials science 24.7 (1989): 2449-2453
Materials Science and Engineering: A 160.2 (1993): 261-270
Materials Science and Engineering: A 508.1-2 (2009): 234-240
Materials Letters 189 (2017): 13-16.
Journal of materials science 24.7 (1989): 2449-2453
Materials Science and Engineering: A 160.2 (1993): 261-270
Materials Science and Engineering: A 508.1-2 (2009): 234-240
Materials Letters 189 (2017): 13-16.
Online since: April 2014
Authors: Chong Chang Yang, Pei Feng, Jing Pu Liu
Finishing needle is a micro finishing tool, used for increasing smooth finish and enhancing the material performance of the mipor finishing.
Finishing needle local figure Operational principle Finishing needle’s materials is hard alloy, and its characteristic is with a series of excellent properties, such as high hardness, wear resistance, good strength and toughness, heat resistance, corrosion resistance.
Abrasive cuts workpiece’s material removal in a certain feed way and speed, while the detection device feedback real-time measurement of workpiece’s size and shape to compare with the finishing needle shape of system input.
Journal of Harbin university of science and technology, 2004, 9 (5): 84-87.
Finishing needle local figure Operational principle Finishing needle’s materials is hard alloy, and its characteristic is with a series of excellent properties, such as high hardness, wear resistance, good strength and toughness, heat resistance, corrosion resistance.
Abrasive cuts workpiece’s material removal in a certain feed way and speed, while the detection device feedback real-time measurement of workpiece’s size and shape to compare with the finishing needle shape of system input.
Journal of Harbin university of science and technology, 2004, 9 (5): 84-87.