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Online since: June 2021
Authors: B. Ramanjaneyulu, N. Venkatachalapathi, G. Prasanthi
To determine the processing conditions of the materials.
Materials. 2016, 9, 342
[23] XIN Chun-Ling et.al., Effect of Supercritical carbon dioxide on the mechanical properties and the morphology of PPO/POE blends., Advanced Materials Research Vols. 562-564 (2012) pp 19-22
,Tensile properties of Poly(L-lactic) acid (PLLA) blend, Advanced Materials Research Vol. 1024 (2014) pp 179-183
[25] Yi Chen et.al., Preparation and Property Research of PC/PLA Composites Modified by ABS Blending, Applied Mechanics and Materials Vols 66-68 (2011) pp 1902-1907.
Materials. 2016, 9, 342
[23] XIN Chun-Ling et.al., Effect of Supercritical carbon dioxide on the mechanical properties and the morphology of PPO/POE blends., Advanced Materials Research Vols. 562-564 (2012) pp 19-22
,Tensile properties of Poly(L-lactic) acid (PLLA) blend, Advanced Materials Research Vol. 1024 (2014) pp 179-183
[25] Yi Chen et.al., Preparation and Property Research of PC/PLA Composites Modified by ABS Blending, Applied Mechanics and Materials Vols 66-68 (2011) pp 1902-1907.
Online since: April 2014
Authors: Jian Cao, Li Ling Hu, Qing Qin Yao
The manufacturer manufactures and remanufactures the raw materials which can be divided into two kinds, one is the semi-manufactured goods from the recycler, the other is from raw material suppliers.
References [1] Spicer A J, Johnson M R: Journal of Cleaner Production. 12 (1) (2004) 37-45
[2] Li F, Sun H, Da Q L: Chinese Journal of Management Science. 17 (3) (2009) 72-80
[5] Xiong Y, Li G: Journal of the Operational Research Society. 64 (9) (2012) 1314-1326
[7] Wang X, Chen M: Journal of Cleaner Production. 19(6) (2011) 680-686
References [1] Spicer A J, Johnson M R: Journal of Cleaner Production. 12 (1) (2004) 37-45
[2] Li F, Sun H, Da Q L: Chinese Journal of Management Science. 17 (3) (2009) 72-80
[5] Xiong Y, Li G: Journal of the Operational Research Society. 64 (9) (2012) 1314-1326
[7] Wang X, Chen M: Journal of Cleaner Production. 19(6) (2011) 680-686
Online since: December 2014
Authors: Raphael Lemos, Kaio Sérgio T. de Souza, Fernanda A. Sampaio da Silva, Daniel Rodrigues, José Adilson de Castro, Marcos Flavio de Campos
Introduction
It was reported in 1931 by Bitter [1] the observation of patterns in ferromagnetic materials.
Landgraf: Materials Science Forum Vols. 498-499 (2005), p. 129
Szmaja: Journal of Magnetism and Magnetic Materials Vol. 301 (2006), p. 546
Lodder: Journal of Magnetism and Magnetic Materials Vol. 123 (1993), p. 199
A. de Castro: Materials Science Forum Vols. 727-728 (2012), p. 151.
Landgraf: Materials Science Forum Vols. 498-499 (2005), p. 129
Szmaja: Journal of Magnetism and Magnetic Materials Vol. 301 (2006), p. 546
Lodder: Journal of Magnetism and Magnetic Materials Vol. 123 (1993), p. 199
A. de Castro: Materials Science Forum Vols. 727-728 (2012), p. 151.
Online since: January 2012
Authors: Nasim Mirahmadi, Esmaeel Saberi, Ebrahim Teimoury
To produce these items, they require different types of materials and components which they provide from a set of suppliers as a resource.
A manufacturing organization starts its wealth-creative activities through purchasing its needed materials, components and services from a group of suppliers, called the “supply base”.
its needed materials and components.
Pan, “Allocation of order quantity among suppliers,” Journal of Purchasing and Materials Management, vol. 25(3), PP. 36-39, 1989
A decision-analysis approach.,” Omega: International Journal of Management Sciences, vol. 32(1), PP. 9-15, 2004
A manufacturing organization starts its wealth-creative activities through purchasing its needed materials, components and services from a group of suppliers, called the “supply base”.
its needed materials and components.
Pan, “Allocation of order quantity among suppliers,” Journal of Purchasing and Materials Management, vol. 25(3), PP. 36-39, 1989
A decision-analysis approach.,” Omega: International Journal of Management Sciences, vol. 32(1), PP. 9-15, 2004
Online since: November 2015
Authors: Perumal Venkatachalam, Mariappan Senthil Kumar, Rajaram Raghavan, Karunanaithi Saravanan
Langdon, Principles of equal-channel angular pressing processing tool for grain refinement, Progress in Materials Science 51 (2006) 881–981
[2] J.O˜noroa M.D.
Cambronero, High-temperature mechanical properties of aluminum alloys reinforced with boron carbide particles, Materials Science and Engineering a 499 (2009) 421–426 [3] E.
Enayati, Fabrication and evaluation of mechanical and tribological properties of boron carbide reinforced aluminum matrix nano composites, Materials and Design 32 (2011) 3263–3271 [4] Isil Kerti, Fatih Toptan, Micro structural variations in cast B4C-reinforced aluminum matrix composites (AMCs), Materials Letters 62 (2008) 1215–1218 [5] J.
Cambroneroc, High-temperature mechanical properties of aluminum alloys reinforced with boron carbide particles, Materials Science and Engineering A 499 (2009) 421–426 [6] Mauricio Mhirdaui Peres, Luis César R.
Sci. 34 (2013) 26-36 [8]Muhammad Rifai, Hiroyuki Miyamoto, Hiroshi Fujiwara The Effect of ECAP Deformation Route on Microstructure, Mechanical and Electrochemical Properties of Low CN Fe-20% Cr Alloy Materials Sciences and Applications, 2014, 5, 568-578 [9] Venkatraman R, Raghuraman S, Kabilan S3, Ajay Kumar KS, Balaji R, Viswanath M Enhancement of microstructure and mechanical properties through equal channel angular pressing of aluminum processed by powder metallurgy route International Journal of Innovative Research in Science, Engineering and Technology Vol. 2, Issue 9, September 2013, 4964-4976 [10] Anibal de Andrade Mendes Filho*, Erika Fernanda Prados, Gustavo Trindade Valio, José Benaque Rubert, Vitor Luiz Sordi, Maurizio Ferrante Severe Plastic Deformation by Equal Channel Angular Pressing: Product Quality and Operational Details Materials Research. 2011; 14(3): 335-339 [11] E.
Cambronero, High-temperature mechanical properties of aluminum alloys reinforced with boron carbide particles, Materials Science and Engineering a 499 (2009) 421–426 [3] E.
Enayati, Fabrication and evaluation of mechanical and tribological properties of boron carbide reinforced aluminum matrix nano composites, Materials and Design 32 (2011) 3263–3271 [4] Isil Kerti, Fatih Toptan, Micro structural variations in cast B4C-reinforced aluminum matrix composites (AMCs), Materials Letters 62 (2008) 1215–1218 [5] J.
Cambroneroc, High-temperature mechanical properties of aluminum alloys reinforced with boron carbide particles, Materials Science and Engineering A 499 (2009) 421–426 [6] Mauricio Mhirdaui Peres, Luis César R.
Sci. 34 (2013) 26-36 [8]Muhammad Rifai, Hiroyuki Miyamoto, Hiroshi Fujiwara The Effect of ECAP Deformation Route on Microstructure, Mechanical and Electrochemical Properties of Low CN Fe-20% Cr Alloy Materials Sciences and Applications, 2014, 5, 568-578 [9] Venkatraman R, Raghuraman S, Kabilan S3, Ajay Kumar KS, Balaji R, Viswanath M Enhancement of microstructure and mechanical properties through equal channel angular pressing of aluminum processed by powder metallurgy route International Journal of Innovative Research in Science, Engineering and Technology Vol. 2, Issue 9, September 2013, 4964-4976 [10] Anibal de Andrade Mendes Filho*, Erika Fernanda Prados, Gustavo Trindade Valio, José Benaque Rubert, Vitor Luiz Sordi, Maurizio Ferrante Severe Plastic Deformation by Equal Channel Angular Pressing: Product Quality and Operational Details Materials Research. 2011; 14(3): 335-339 [11] E.
Online since: August 2013
Authors: Yong Liu, Xue Feng Sun, Feng Zhang
Combining the electrospinning technology with degradable materials, a kind of outstanding electrospinning nanofibers mat might be widely applied in textile, medical treatment and environment project, etc.
Materials and Methods Materials.
Yu, Journal of Modern Textile Science and Engineering: Vol. 1 (2010), p.11
Nikkanen, Journal of Modern Textile Science and Engineering: Vol. 2 (2011), p.1
Shi, Journal of Modern Textile Science and Engineering: Vol. 1 (2010), p.1.
Materials and Methods Materials.
Yu, Journal of Modern Textile Science and Engineering: Vol. 1 (2010), p.11
Nikkanen, Journal of Modern Textile Science and Engineering: Vol. 2 (2011), p.1
Shi, Journal of Modern Textile Science and Engineering: Vol. 1 (2010), p.1.
Online since: August 2022
Authors: Rudi Kurniawan, Samsul Rizal, Sabri Sabri, Hiroomi Homma, Zahrul Fuadi
Journal of Materials Science 27 (2012) 4598 - 4604
Journal of Materials Science 29 (2014) 5990 - 5996
International Journal of Polymeric Materials. 15 (2011) 1 - 16
International Journal of Polymeric Materials. 14 (2000) 223 - 234
Journal of Composite Materials 33 (2019), 480 - 495
Journal of Materials Science 29 (2014) 5990 - 5996
International Journal of Polymeric Materials. 15 (2011) 1 - 16
International Journal of Polymeric Materials. 14 (2000) 223 - 234
Journal of Composite Materials 33 (2019), 480 - 495
Online since: February 2014
Authors: Ri Jun Wang, Wei Juan Luan
Brittle materials processing equipment was used to demonstrate the modular design process.
Application examples Modular design of brittle materials processing equipment was carried out applying design rules.
(a) Rectangular plane (b) Outer cylindrical surface (c) Inner cylindrical surface (d) Rectangular guide surface Fig.3 Interface shape of brittle materials processing equipment To ensure standardization, the interface must be unified in accordance with the following specifications, as is shown in Tab.1.
References [1] J.Pandremenos, J.Paralikas, K.Salonitis, etc: CIRP Journal of Manufacturing Science and Technology Vol. 1(2009), p.248 [2] E.
Hoetker: Strategic Management Journal Vol. 27(2006), p.501 [7] K.S.
Application examples Modular design of brittle materials processing equipment was carried out applying design rules.
(a) Rectangular plane (b) Outer cylindrical surface (c) Inner cylindrical surface (d) Rectangular guide surface Fig.3 Interface shape of brittle materials processing equipment To ensure standardization, the interface must be unified in accordance with the following specifications, as is shown in Tab.1.
References [1] J.Pandremenos, J.Paralikas, K.Salonitis, etc: CIRP Journal of Manufacturing Science and Technology Vol. 1(2009), p.248 [2] E.
Hoetker: Strategic Management Journal Vol. 27(2006), p.501 [7] K.S.
Online since: July 2023
Authors: Taif Saad Al Maadhede, Methaq Abdul Razzaq Mohsin, Hadi J.M. Al-Agealy
The interface between the two materials plays more important in different solid and organic devices such as field effect transistors, light emitting diodes, and organic solar cells.
The reorientation energies are an indication of the alignment with difference energy level alignment for two Cu metal and P6 molecule materials.
Al-agealy, “Materials Science and Engineering.
Hussein," Metallic Oxides for Innovative Refrigerant Thermo-Physical Properties: Mathematical Models" Tikrit Journal of Engineering Sciences (2022) 29 (1): 1-1
[21] Smith, William F. & Hashemi, Javad., “McGraw-Hill Professional Foundations of Materials Science and Engineering”, Book.2003
The reorientation energies are an indication of the alignment with difference energy level alignment for two Cu metal and P6 molecule materials.
Al-agealy, “Materials Science and Engineering.
Hussein," Metallic Oxides for Innovative Refrigerant Thermo-Physical Properties: Mathematical Models" Tikrit Journal of Engineering Sciences (2022) 29 (1): 1-1
[21] Smith, William F. & Hashemi, Javad., “McGraw-Hill Professional Foundations of Materials Science and Engineering”, Book.2003
Online since: May 2011
Authors: Yao Ting Zhang, Rui Ge Li
Nonlinear properties of materials will be automatically ignored while structural dynamic analysis in ANSYS.
The perstressing force influence of the beam is changed to the impact of element materials elastic modulus.
In: Journal of Huazhong University of Science and Technology (Nature Science), 2006,34(6):128-121.
[D], Huazhong University of Science and Technology, 2005 (in Chinese) [10] Saiidi M,Douglas B,Feng S.
in: Journal of Structural Engineering, 1994, 120(7): 2233-2241
The perstressing force influence of the beam is changed to the impact of element materials elastic modulus.
In: Journal of Huazhong University of Science and Technology (Nature Science), 2006,34(6):128-121.
[D], Huazhong University of Science and Technology, 2005 (in Chinese) [10] Saiidi M,Douglas B,Feng S.
in: Journal of Structural Engineering, 1994, 120(7): 2233-2241