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Online since: June 2025
Authors: Agung Nugroho, Nonni Soraya Sambudi, Muhammad Wahyu Nugraha, Khee Chung Hui, Noorfidza Yub Harun, Dita Floresyona, Norashikin Ahmad Kamal
Materials Today Chemistry, 2022. 23: p. 100692
Chemistry of Materials, 2014. 26: p. 3104–3112
Journal of Colloid and Interface Science, 2019. 533: p. 227-237
IOP Conference Series: Materials Science and Engineering, 2016. 107: p. 012006
Materials Science in Semiconductor Processing, 2018. 87: p. 142-154
Chemistry of Materials, 2014. 26: p. 3104–3112
Journal of Colloid and Interface Science, 2019. 533: p. 227-237
IOP Conference Series: Materials Science and Engineering, 2016. 107: p. 012006
Materials Science in Semiconductor Processing, 2018. 87: p. 142-154
Online since: September 2013
Authors: Jun Wei Song
There is not carried out the study of the mechanism of the hydration characteristics of the system of the microscopic structure and cementitious materials and the hydration process of copper slag in cementitious materials system.
Development Guide to Building Materials, No. 1, 1988
Iron Raw Materials to Formation of the Cement Clinker and its Properties [J].
Nanchang University Academic Journal (Engineering Science Edition), No.2, 2000
University Journal (Engineering Science Edition), No.2, 2000
Development Guide to Building Materials, No. 1, 1988
Iron Raw Materials to Formation of the Cement Clinker and its Properties [J].
Nanchang University Academic Journal (Engineering Science Edition), No.2, 2000
University Journal (Engineering Science Edition), No.2, 2000
Online since: June 2023
Authors: Hao Hu, Kari Ullakko
Khovaylo, Volume change during intermartensitic transformations in Ni-Mn-Ga alloy, Journal of Materials Engineering and Performance, (2014), 23, 3180-3183
Irfan, J.Feng, Magnetization behavior of NiMnGa alloy nanowires prepared by DC electrodeposition, Journal of Magnetism and Magnetic Materials, (2020), 498, 166232
Peng, Structure, magnetic and magnetocaloric properties of Ni2MnGa Heusler alloy nanowires, Journal of Magnetism and Magnetic Materials, (2020), 513, 167100
Ullakko, Magnetically controlled shape memory alloys: a new class of actuator materials, Journal of Materials Engineering and Performance, (1996), 5, 405-409
Rohan, MEMS based fabrication of high-frequency integrated inductors on Ni-Cu-Zn ferrite substrates, Journal of Magnetism and Magnetic Materials, (2016), 406, 89-94
Irfan, J.Feng, Magnetization behavior of NiMnGa alloy nanowires prepared by DC electrodeposition, Journal of Magnetism and Magnetic Materials, (2020), 498, 166232
Peng, Structure, magnetic and magnetocaloric properties of Ni2MnGa Heusler alloy nanowires, Journal of Magnetism and Magnetic Materials, (2020), 513, 167100
Ullakko, Magnetically controlled shape memory alloys: a new class of actuator materials, Journal of Materials Engineering and Performance, (1996), 5, 405-409
Rohan, MEMS based fabrication of high-frequency integrated inductors on Ni-Cu-Zn ferrite substrates, Journal of Magnetism and Magnetic Materials, (2016), 406, 89-94
Online since: September 2014
Authors: Sheng Wei Qiu, Xiang Li, Min Li, Bin Wu, Xiao Hong Wu
Garrido-Varo: Journal of the Science of Food and Agriculture, Vol. 89 (2009), p. 781-790
Shao: International Journal of Food Properties, Vol. 10 (2007), p. 9-18
Wu: Advanced Materials Research, Vol. 710 (2013), p. 524-528
Sun: Advanced Materials Research, Vol. 710 (2013), p. 768-771
Zhao: Journal of Information and Computational Science, Vol. 7, p. 777-783.
Shao: International Journal of Food Properties, Vol. 10 (2007), p. 9-18
Wu: Advanced Materials Research, Vol. 710 (2013), p. 524-528
Sun: Advanced Materials Research, Vol. 710 (2013), p. 768-771
Zhao: Journal of Information and Computational Science, Vol. 7, p. 777-783.
Online since: December 2013
Authors: Muhammad Afifi Amalina, Mahsyuri Yusof
Materials and method
Materials.
Journal of applied polymer science, 2003. 44(1): p. 151-158
Materials letters, 2006. 60(6): p. 805-809
Journal of applied polymer science, 2003. 49(4): p. 617-621
Journal of Materials Science, 1980. 15(11): p. 2884-2888.
Journal of applied polymer science, 2003. 44(1): p. 151-158
Materials letters, 2006. 60(6): p. 805-809
Journal of applied polymer science, 2003. 49(4): p. 617-621
Journal of Materials Science, 1980. 15(11): p. 2884-2888.
Online since: February 2018
Authors: Hong Jun Hu, Ding Fei Zhang, Zhao Sun
Journal of Materials Processing Technology, 210 (2010) 1386-1396
Journal of Materials Processing Technology, 124 (2002) 19-24
Journal of Materials Processing Technology, 141 (2003) 207-212
Materials Science & Engineering A, 544 (2012) 70-79
Materials Science Forum, 610-613 (2009) 780-782.
Journal of Materials Processing Technology, 124 (2002) 19-24
Journal of Materials Processing Technology, 141 (2003) 207-212
Materials Science & Engineering A, 544 (2012) 70-79
Materials Science Forum, 610-613 (2009) 780-782.
Online since: December 2013
Authors: Petrică Vizureanu, Alida Abdullah, Andrei Victor Sandhu, Mohd Mustafa Al Bakri Abdullah, Dragos Cristian Acitei
Ishida, Materials Science and Engineering A, 438-440 (2006) 743-746
Stanciu, Journal of Optoelectronics and Advanced Materials, 12 (8) (2010) 1772-1776
Romero, Materials Science and Engineering A 437 (2006) 328-333
Lopez Pavon, E.Lopez Cuellar, C.Ballesteros, et al., Materials Research-Ibero-American Journal of Materials, 15 (3) (2012) 341-346
Cimpoeşu, Journal of Materials Engineering and Performance, 20 ( 3) (2011) 468-475
Stanciu, Journal of Optoelectronics and Advanced Materials, 12 (8) (2010) 1772-1776
Romero, Materials Science and Engineering A 437 (2006) 328-333
Lopez Pavon, E.Lopez Cuellar, C.Ballesteros, et al., Materials Research-Ibero-American Journal of Materials, 15 (3) (2012) 341-346
Cimpoeşu, Journal of Materials Engineering and Performance, 20 ( 3) (2011) 468-475
Online since: August 2013
Authors: Qing Song Jiang, Jian Ping Ye
The gearbox was optimized on structure and material according to the calculation results.
The traditional design method usually use big safety coefficient, and therefore the weight and volume of gearbox are heavy and waste many materials [1-4].
The material of original gear box is cast iron, the ultimate stress is 250MPa.
The third is to change material from cast iron to aluminum.
Liu: Design Box Optimization System of YND100 Series Decelerator Based on APDL and VC++6.0, Mechanical Science and Technology for Aerospace Engineering, Vol. 31(2012), pp.987-990
The traditional design method usually use big safety coefficient, and therefore the weight and volume of gearbox are heavy and waste many materials [1-4].
The material of original gear box is cast iron, the ultimate stress is 250MPa.
The third is to change material from cast iron to aluminum.
Liu: Design Box Optimization System of YND100 Series Decelerator Based on APDL and VC++6.0, Mechanical Science and Technology for Aerospace Engineering, Vol. 31(2012), pp.987-990
Online since: August 2014
Authors: Xiao Yang Li, Rong Chen, Yan Jun Zeng, Lin Lin Zhang
The structures are continuum model (CM), joint interface model with different materials (JIM1) and joint interface model with same materials (JIM2).
Materials and Methods Materials The parameters and properties of materials (MAT1 and MAT2) are shown in Table 1.
Table 1: Materials’ Parameters Young’s Modulus (Gpa) Poisson’s rario Yield Strength (Mpa) MAT1 210 0.3 100 MAT2 1140 0.07 N/A FEM Model This analysis follows Mises yield criterion.
Journal of mechanical engineering. 47 (2011), 53-58
Journal of mechanical engineering.49 (2013), 108-121.
Materials and Methods Materials The parameters and properties of materials (MAT1 and MAT2) are shown in Table 1.
Table 1: Materials’ Parameters Young’s Modulus (Gpa) Poisson’s rario Yield Strength (Mpa) MAT1 210 0.3 100 MAT2 1140 0.07 N/A FEM Model This analysis follows Mises yield criterion.
Journal of mechanical engineering. 47 (2011), 53-58
Journal of mechanical engineering.49 (2013), 108-121.
Online since: August 2017
Authors: Ganesh R. Karthikeyan, S. Vincent, Ketul Arvindbhai Patel
It is used to obtain certain macroscopic properties of materials.
[2] Wang WH, Dong C, Shek CH, Bulk metallic glasses, Materials Science and Engineering: R: Reports. 44 (2004) 45-89
[6] Wei XF, Sun YF, Guan SK, Terada D, Shek CH, Compressive and tensile properties of CuZrAl alloy plates containing martensitic phases, Materials Science and Engineering: A 517. (2009) 375-380
[13] Telford M, The case for bulk metallic glass, Materials today 7 (2004) 36-43
[15] Wang XD, Yi S, Effect of Zr/Ni ratio on the stability and ductility of Zr–Al–Ni–Cu bulk metallic glasses, Materials Science and Engineering: A 449. (2007) 613-616
[2] Wang WH, Dong C, Shek CH, Bulk metallic glasses, Materials Science and Engineering: R: Reports. 44 (2004) 45-89
[6] Wei XF, Sun YF, Guan SK, Terada D, Shek CH, Compressive and tensile properties of CuZrAl alloy plates containing martensitic phases, Materials Science and Engineering: A 517. (2009) 375-380
[13] Telford M, The case for bulk metallic glass, Materials today 7 (2004) 36-43
[15] Wang XD, Yi S, Effect of Zr/Ni ratio on the stability and ductility of Zr–Al–Ni–Cu bulk metallic glasses, Materials Science and Engineering: A 449. (2007) 613-616