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Online since: January 2021
Authors: Evgeny V. Naydenkin, Il'ya V. Ratochka, Ivan P. Mishin, Anna I. Manisheva, Olga Lykova
Manisheva1,2,e
1Institute of Strength Physics and Materials Science of Siberian Branch Russian Academy of Sciences, 2/4, pr.
Engineering materials, processes, Berlin: Springer (2007) 1-39
Mouritz, Introduction to Aerospace Materials, Woodhead, Publishing in Materials, 2012
The effect of alpha-case formation on plastic deformation and fracture of near β titanium alloy, Materials Science & Engineering A 769 (2020) 138495
Microstructure evolution during warm working of Ti-5Al-5Mo-5V-1Cr-1Fe at 600 and 800oC, Materials Science and Engineering A. 563 (2013) 168-176
Engineering materials, processes, Berlin: Springer (2007) 1-39
Mouritz, Introduction to Aerospace Materials, Woodhead, Publishing in Materials, 2012
The effect of alpha-case formation on plastic deformation and fracture of near β titanium alloy, Materials Science & Engineering A 769 (2020) 138495
Microstructure evolution during warm working of Ti-5Al-5Mo-5V-1Cr-1Fe at 600 and 800oC, Materials Science and Engineering A. 563 (2013) 168-176
Online since: February 2022
Authors: Rittichai Phaoniam, Bovornchok Poopat, Jesada Kaewwichit
Table 1 Chemical compositions of materials (wt%)
Materials
C
Si
Mn
P
S
Cr
Ni
Co
Cu
Ti
Fe
Low carbon steel
0.071
0.190
0.424
<0.01
<0.01
0.040
0.041
-
0.128
-
Bal.
Wypych, "Application of thermovision method to welding thermal cycle analysis," Journal of Achievements in Materials and Manufacturing Engineering, vol. 40, 06/01 2010
Ravisankar, "Automatic defect identification using thermal image analysis for online weld quality monitoring," Journal of Materials Processing Technology, vol. 212, pp. 1557-1566, 2012
G. de Souza, "Characterization of “Humping” in the GTA welding process using infrared images," Journal of Materials Processing Technology, vol. 223, pp. 216-224, 2015
Song, "Infrared temperature measurement and interference analysis of magnesium alloys in hybrid laser-TIG welding process," Materials Science and Engineering A-structural Materials Properties Microstructure and Processing - MATER SCI ENG A-STRUCT MATER, vol. 447, pp. 239-243, 2007
Wypych, "Application of thermovision method to welding thermal cycle analysis," Journal of Achievements in Materials and Manufacturing Engineering, vol. 40, 06/01 2010
Ravisankar, "Automatic defect identification using thermal image analysis for online weld quality monitoring," Journal of Materials Processing Technology, vol. 212, pp. 1557-1566, 2012
G. de Souza, "Characterization of “Humping” in the GTA welding process using infrared images," Journal of Materials Processing Technology, vol. 223, pp. 216-224, 2015
Song, "Infrared temperature measurement and interference analysis of magnesium alloys in hybrid laser-TIG welding process," Materials Science and Engineering A-structural Materials Properties Microstructure and Processing - MATER SCI ENG A-STRUCT MATER, vol. 447, pp. 239-243, 2007
Online since: February 2014
Authors: Yu Nong Zhang, Matthew R. Stanco, Z.C. Li
Nikouei: Advanced Materials Research Vol. 410 (2011), p. 279
Wang: Advanced Materials Research Vol. 500 (2012), p. 269
Lin: Key Engineering Materials Vol. 419-420 (2003), p. 373
Zhang: Advanced Materials Research Vol. 189-193 (2011), p. 4059
Pei: Key Engineering Materials Vol. 416 (2009), p. 182
Wang: Advanced Materials Research Vol. 500 (2012), p. 269
Lin: Key Engineering Materials Vol. 419-420 (2003), p. 373
Zhang: Advanced Materials Research Vol. 189-193 (2011), p. 4059
Pei: Key Engineering Materials Vol. 416 (2009), p. 182
Online since: May 2011
Authors: Ting Zhang, Kun Jie Wang, De Yi Zhang, Yi Wang
On the other hand, environmental concerns have led to an increased demand for renewable materials in many industrial applications.
Materials and Methods Chemicals.
Cai: submitted to Journal of Environmental Sciences (2008) [2] B.
Fan and Di Zhang: submitted to Journal of Hazardous Materials (2008) [3] P.
Serife: submitted to Journal of Hazardous Materials (2009) [4] C.
Materials and Methods Chemicals.
Cai: submitted to Journal of Environmental Sciences (2008) [2] B.
Fan and Di Zhang: submitted to Journal of Hazardous Materials (2008) [3] P.
Serife: submitted to Journal of Hazardous Materials (2009) [4] C.
Online since: March 2025
Authors: Chee Ying Tan, Khurram Munir, Duyao Zhang, Cuie Wen, Hua Qian Ang
In contrast to other permanent metallic implant materials like titanium and stainless steel, Mg alloys are biodegradable, they can fully resorb after healing and eliminate the necessity for revision surgery to remove the implant [2].
Li et al., "Microstructure, mechanical properties, corrosion resistance and cytocompatibility of WE43 Mg alloy scaffolds fabricated by laser powder bed fusion for biomedical applications," Materials Science and Engineering: C, vol. 119, p. 111623, 2021/02/01/ 2021, doi: https://doi.org/10.1016/j.msec.2020.111623
Liu et al., "Biodegradable magnesium alloy WE43 porous scaffolds fabricated by laser powder bed fusion for orthopedic applications: Process optimization, in vitro and in vivo investigation," Bioactive Materials, vol. 16, pp. 301-319, 2022/10/01/ 2022, doi: https://doi.org/10.1016/j.bioactmat.2022.02.020
Santhanakrishnan et al., "Macro- and Microstructural Studies of Laser-Processed WE43 (Mg-Y-Nd) Magnesium Alloy," Metallurgical and Materials Transactions B, vol. 44, no. 5, pp. 1190-1200, 2013/10/01 2013, doi: 10.1007/s11663-013-9896-7
Zhang et al., "Enhanced strength of WE43 magnesium-rare earth alloy via combining extrusion and aging," Materials Science and Engineering: A, vol. 880, p. 145329, 2023/07/26/ 2023, doi: https://doi.org/10.1016/j.msea.2023.145329
Li et al., "Microstructure, mechanical properties, corrosion resistance and cytocompatibility of WE43 Mg alloy scaffolds fabricated by laser powder bed fusion for biomedical applications," Materials Science and Engineering: C, vol. 119, p. 111623, 2021/02/01/ 2021, doi: https://doi.org/10.1016/j.msec.2020.111623
Liu et al., "Biodegradable magnesium alloy WE43 porous scaffolds fabricated by laser powder bed fusion for orthopedic applications: Process optimization, in vitro and in vivo investigation," Bioactive Materials, vol. 16, pp. 301-319, 2022/10/01/ 2022, doi: https://doi.org/10.1016/j.bioactmat.2022.02.020
Santhanakrishnan et al., "Macro- and Microstructural Studies of Laser-Processed WE43 (Mg-Y-Nd) Magnesium Alloy," Metallurgical and Materials Transactions B, vol. 44, no. 5, pp. 1190-1200, 2013/10/01 2013, doi: 10.1007/s11663-013-9896-7
Zhang et al., "Enhanced strength of WE43 magnesium-rare earth alloy via combining extrusion and aging," Materials Science and Engineering: A, vol. 880, p. 145329, 2023/07/26/ 2023, doi: https://doi.org/10.1016/j.msea.2023.145329
Online since: March 2014
Authors: Hong Yang, Jing Liu, Ling Xu, Fang Yin, Wu Di Zhang, Xing Ling Zhao
With the expansion of the treatment on organic waste materials by anaerobic digestion (such as crop straw, livestock, kitchen waste, domestic sludge), more and more using two-phase anaerobic digestion of co-generation hydrogen and methane were reported.
Water Science & Technology, 2005, 52: 21-29
International Journal Hydrogen Energy, 2002, 27: 1185-1193
Sequential Anaerobic Fermentative Production of Hydrogen and Methane from Organic Fraction of Municipal Solid Waste [J], Chinese Journal of Applied and Environmental Biology, 2009, 15: 250-257
[8] Liu Shuang, Technical Research on Hydrogen and Methane Production by Anaerobic Fermentation of Mixed Material[D], Harbin, China.
Water Science & Technology, 2005, 52: 21-29
International Journal Hydrogen Energy, 2002, 27: 1185-1193
Sequential Anaerobic Fermentative Production of Hydrogen and Methane from Organic Fraction of Municipal Solid Waste [J], Chinese Journal of Applied and Environmental Biology, 2009, 15: 250-257
[8] Liu Shuang, Technical Research on Hydrogen and Methane Production by Anaerobic Fermentation of Mixed Material[D], Harbin, China.
Online since: November 2011
Authors: Duo Qiang Liang, Feng Qin, Ji Bo Jiang
These materials often cause disposal problems and environmental pollution[10-12].
Containing some toxic elements, manganese slag is definitely one of hazardous materials[14].
Science of The Total Environment, 2005; 341(1-3):159-172 [13] Delian Fan, Peiji Yang.
Journal of Hazardous Materials, 2003, 96(2-3):201-216 [15] A.
International Journal of Rock Mechanics and Mining Sciences, 2009; 46(8):1349-1357 [17] Wang W, Ye TM, Wang Q, Gao XB, Wan X.
Containing some toxic elements, manganese slag is definitely one of hazardous materials[14].
Science of The Total Environment, 2005; 341(1-3):159-172 [13] Delian Fan, Peiji Yang.
Journal of Hazardous Materials, 2003, 96(2-3):201-216 [15] A.
International Journal of Rock Mechanics and Mining Sciences, 2009; 46(8):1349-1357 [17] Wang W, Ye TM, Wang Q, Gao XB, Wan X.
Online since: January 2011
Authors: Jing Zhang, Hong Xian Yu, Ling Ma
Methods and Materials
Sample collection and processing Zoobenthos was sampled at seven river cross-sections along the Songhua River on a river segment of around 66 km between Zhushuntun and Dadingzishan (Figure 1).
London: Elsevier Applied Sciences Publishers(1986) [8] HELLAWELL J M.
China: Environmental Science(1977) [12] LIU B Y, WANG S D, WANG Y M.
China: Journal of Environmental Science (1982) [14] LIU L S, LIU ZY.
China: Journal of Environmental Science (2007) [15] "Specification for environmental monitoring", the fourth book, biological monitoring (water environment section).
London: Elsevier Applied Sciences Publishers(1986) [8] HELLAWELL J M.
China: Environmental Science(1977) [12] LIU B Y, WANG S D, WANG Y M.
China: Journal of Environmental Science (1982) [14] LIU L S, LIU ZY.
China: Journal of Environmental Science (2007) [15] "Specification for environmental monitoring", the fourth book, biological monitoring (water environment section).
Online since: September 2015
Authors: Tatsuo Sakai, Shoichi Kikuchi, Akio Kokubu, Hiroshi Tanaka, Fumiharu Ikai, Kazutaka Okumoto
Sakai, Review and prospects for current studies on very high cycle fatigue of metallic materials for machine structural use", Journal of Solid Mechanics and Materials Engineering, Vol.3, No.3, (2009), pp.425-439
Nakai et al., Strength and Fracture of Materials, The Society of Materials Science, Japan, (2005), pp.99-100
Sakai et al., Engineering Design of Machines, The Society of Materials Science, Japan, (2013), pp.56-59
Hong, “Prediction of threshold value for FGA formation”, Materials Science and Engineering, A, 528 (2011), pp.6872-6877
Zhao, “Effect of inclusion size and location on very-high-cycle fatigue behavior for high strength steels”, Materials Science and Engineering, A, 558 (2012), pp.234-241.
Nakai et al., Strength and Fracture of Materials, The Society of Materials Science, Japan, (2005), pp.99-100
Sakai et al., Engineering Design of Machines, The Society of Materials Science, Japan, (2013), pp.56-59
Hong, “Prediction of threshold value for FGA formation”, Materials Science and Engineering, A, 528 (2011), pp.6872-6877
Zhao, “Effect of inclusion size and location on very-high-cycle fatigue behavior for high strength steels”, Materials Science and Engineering, A, 558 (2012), pp.234-241.
Online since: April 2014
Authors: Ivo Černý, Stanislav Němeček, Nikolaj Ganev, Michal Míšek, Jiří Sís, Kamil Kolařík
In addition, the growth of crystallites within polycrystalline materials is severely limited during laser hardening [4].
Sanz, Applied Surface Science 257 (2011) 7101–7106
[8] Jablonski F., Varvarikes J.: Materials Science and Engineering: A, 2008, Vols. 483-484, pp. 440-443
[9] Kocanacuteda D., Kocanacuteda S., Tomaszek H.: Materials Science, 2001, Vol. 37, No. 3, pp. 374-382
[10] Tsay L.W., Lin Z.W.: Fatigue & Fracture of Engineering Materials & Structures, 1998, Vol. 21, No. 12, pp. 1549-1558
Sanz, Applied Surface Science 257 (2011) 7101–7106
[8] Jablonski F., Varvarikes J.: Materials Science and Engineering: A, 2008, Vols. 483-484, pp. 440-443
[9] Kocanacuteda D., Kocanacuteda S., Tomaszek H.: Materials Science, 2001, Vol. 37, No. 3, pp. 374-382
[10] Tsay L.W., Lin Z.W.: Fatigue & Fracture of Engineering Materials & Structures, 1998, Vol. 21, No. 12, pp. 1549-1558