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Online since: October 2011
Authors: M.A. Abdel-Rahman, Emad A. Badawi, Yahia A. Lotfy, N.A. Kamel, Abdullah A. Refeay
Badawi: Defect and Diffusion Forum, 316-317 (2011) 119-126
[6] R.
Abdel-Rahman: Defect and Diffusion Forum, 278 (2008) 1 [9] M.A.
Badawi: Defect and Diffusion Forum .Volume 278 (2008) 11-14 [10] M.A.
Badawi: Defect and Diffusion Forum, 265 (2007) 13-18 [11] R.
Torriani: Materials Science and Engineering A, 334[1-2], (2002) 1-5 [17] K.
Abdel-Rahman: Defect and Diffusion Forum, 278 (2008) 1 [9] M.A.
Badawi: Defect and Diffusion Forum .Volume 278 (2008) 11-14 [10] M.A.
Badawi: Defect and Diffusion Forum, 265 (2007) 13-18 [11] R.
Torriani: Materials Science and Engineering A, 334[1-2], (2002) 1-5 [17] K.
Online since: July 2023
Authors: Michaela T. Espino, John Ryan C. Dizon, Brian Jumaquio Tuazon
Dizon1,3,c
1Department of Industrial Engineering, College of Engineering and Architecture, Bataan Peninsula State University – Main Campus, City of Balanga, Bataan, 2100, Philippines
2Department of Mechanical Engineering, College of Engineering and Architecture, Bataan Peninsula State University – Main Campus, City of Balanga, Bataan, 2100, Philippines
3DR3AM Center, Bataan Peninsula State University – Main Campus, City of Balanga, Bataan, 2100, Philippines
amtespino@bpsu.edu.ph*, bbjtuazon@bpsu.edu.ph, cjrcdizon@bpsu.edu.ph
Keywords: Additive Manufacturing, Tensile Strength, Fused Deposition Modeling, Mechanical Properties, Taguchi Methodology, Range Analysis
Abstract.
The identified mechanical properties to be applied in the printed model ensures that the 3D model will be beneficial for each engineering and non-engineering applications [5-8].
Wong, “A study of the state-of-the-art rapid prototyping technologies,” The International Journal of Advanced Manufacturing Technology, vol. 14, no. 2, pp. 146–152, 1998
Dizon, Application of Taguchi Methodology in Evaluating the Rockwell Hardness of SLA 3D Printed Polymers, Materials Science Forum Submitted: 2020-01-23 ISSN: 1662-9752, Vol. 1005, pp 166-173 [8] B.
Taguchi’s Quality Engineering Handbook.
The identified mechanical properties to be applied in the printed model ensures that the 3D model will be beneficial for each engineering and non-engineering applications [5-8].
Wong, “A study of the state-of-the-art rapid prototyping technologies,” The International Journal of Advanced Manufacturing Technology, vol. 14, no. 2, pp. 146–152, 1998
Dizon, Application of Taguchi Methodology in Evaluating the Rockwell Hardness of SLA 3D Printed Polymers, Materials Science Forum Submitted: 2020-01-23 ISSN: 1662-9752, Vol. 1005, pp 166-173 [8] B.
Taguchi’s Quality Engineering Handbook.
Online since: April 2021
Authors: Krishna Murari Pandey, Saikat Ranjan Maity, Guttikonda Manohar
Journal of King Saud University – Engineering sciences (2017) 29, 295-299
Advanced powder Technology 28(2017) 2126-2134
Materials science & Engineering A 601(2014) 20-28
Archives of civil and mechanical engineering 16(2016) 147-158
Ain Shams Engineering Journal 9 (2018) 1489-1496
Advanced powder Technology 28(2017) 2126-2134
Materials science & Engineering A 601(2014) 20-28
Archives of civil and mechanical engineering 16(2016) 147-158
Ain Shams Engineering Journal 9 (2018) 1489-1496
Online since: June 2014
Authors: Jing Tao Han, Jing Liu, Xing Wen Yang, Shuai Ji
Effect of diffusion annealing on defects reduction of 6.5wt% high silicon steel composite plate after hot deformation
Shuai Ji1,a, Jing-tao Han1,b, Jing Liu1,c and Xing-wen Yang1,d
1School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing, China
acarven0910@sina.com, bhanjt@ustb.edu.cn, cliujing @mater.ustb.edu.cn,
dYangxingwen1111@163.com
Keywords:6.5wt%Si composite plate; Hot rolling; Warm rolling; Diffusion annealing
Abstract. 6.5wt% high silicon electrical sheet is hard to be obtained through conventional different rolling processes due to its remarkable brittleness at room temperature and appearance of ordered phases in the alloy substrates, especially it has very excellent soft magnetic properties.
In this study, 6.5wt%Si three-layer composite panels were prepared by advanced technology of laminar composite.
Mater Sci Forum, 2005, 498-499:111-118 [7] Shuai Ji, Jingtao Han, Jing Liu.
Advanced Materials Research, 2014, 902:7-11
In this study, 6.5wt%Si three-layer composite panels were prepared by advanced technology of laminar composite.
Mater Sci Forum, 2005, 498-499:111-118 [7] Shuai Ji, Jingtao Han, Jing Liu.
Advanced Materials Research, 2014, 902:7-11
Online since: October 2010
Authors: Piotr Klimczyk
Comparison of commercial advanced Si3N4/SiC-based ceramics [15] with Si3N4+70vol.
Richerson, Advanced ceramic materials, in J.
Choa, Multi-Functional Ceramic Composites trough Nanocomposite Technology, Key Engineering Materials 161-163 (1999) 527-534
Bordia, Processing and properties of nanophase SiC/Si3N4 composites, Composites Part B: Engineering, 30/7 (1999) 647-655
KG, Ceradyne Inc. and Saint-Gobain Advanced Ceramics.
Richerson, Advanced ceramic materials, in J.
Choa, Multi-Functional Ceramic Composites trough Nanocomposite Technology, Key Engineering Materials 161-163 (1999) 527-534
Bordia, Processing and properties of nanophase SiC/Si3N4 composites, Composites Part B: Engineering, 30/7 (1999) 647-655
KG, Ceradyne Inc. and Saint-Gobain Advanced Ceramics.
Online since: October 2013
Authors: Xiao Dong Li, Wan Cai Xu, Zhou Ya Wang, Cheng Shen
Especially, since China promised to increase the support to African countries in China-Africa Forum, 2007, large amount of EPC projects which were funded or loaned by Chinese government have been taken into implementation in the areas of infrastructure construction and industrial engineering.
Survey focuses on experts from CSCEC Headquarters of the overseas business and the second direct company and Asian Development Bank, covering contract management, law, cost, technique, market, project management, procurement, engineering and finance, etc.
For example, when advance payment does not meet with the terms of payment, supplemental contract is set up to make the owner increase advance payment of equipment.
They are to form a high quality bidding document which complies with the local engineering terms and code of language in Congo (Brazzaville).
Wang, Risk measures in tender offering, international engineering and services, 3 (2013) 36-38
Survey focuses on experts from CSCEC Headquarters of the overseas business and the second direct company and Asian Development Bank, covering contract management, law, cost, technique, market, project management, procurement, engineering and finance, etc.
For example, when advance payment does not meet with the terms of payment, supplemental contract is set up to make the owner increase advance payment of equipment.
They are to form a high quality bidding document which complies with the local engineering terms and code of language in Congo (Brazzaville).
Wang, Risk measures in tender offering, international engineering and services, 3 (2013) 36-38
Microstructure and Mechanical Properties of a Cobalt-Based Superalloy Used for Nuclear Power Station
Online since: April 2015
Authors: Yong An Guo, Chang Shuai Wang, Xue Zhi Qin, Wan Hui Lai, Lan Zhang Zhou
Therefore, constructing an advanced power station with high safety factor is an important aspect, where the development of advanced materials is much more important [3].
Zhao, Sustainable development of Chinese nuclear power, Engineering Science. 2 (2000) 33-41 [2] Q.F.
Shen, Overview of the main materials of key equipment for non-dynamic series of nuclear power plant, New Achievements of forum on technology innovation, enterprise development, and new material and equipment Manufacture (2012) 154-164
Guo, Materials Science and Engineering for Superalloys, Science Publications, Beijing 2008
Zhao, Sustainable development of Chinese nuclear power, Engineering Science. 2 (2000) 33-41 [2] Q.F.
Shen, Overview of the main materials of key equipment for non-dynamic series of nuclear power plant, New Achievements of forum on technology innovation, enterprise development, and new material and equipment Manufacture (2012) 154-164
Guo, Materials Science and Engineering for Superalloys, Science Publications, Beijing 2008
Online since: October 2007
Authors: Leo A.I. Kestens, Roumen H. Petrov
Kopp, Modelling and
Simulation in Materials Science and Engineering, Vol. 12 (1), 2004, S1-S18.
8 N.
Langdon TG, Reviews on Advanced Materials Science, Vol. 13 (1), 2006, pp. 15-26. 10 T.G.
Langdon on Advanced Materials Science, Vol. 13 (1), 2006, pp. 6-14. 11 A.C.C Reis, L.
Science Forum, 2005, Vols. 495-497, pp. 351-356 12 B.
Larsen, Materials Science Forum Vols. 495-497 (2005) pp. 1285-1290 15 G.
Langdon TG, Reviews on Advanced Materials Science, Vol. 13 (1), 2006, pp. 15-26. 10 T.G.
Langdon on Advanced Materials Science, Vol. 13 (1), 2006, pp. 6-14. 11 A.C.C Reis, L.
Science Forum, 2005, Vols. 495-497, pp. 351-356 12 B.
Larsen, Materials Science Forum Vols. 495-497 (2005) pp. 1285-1290 15 G.
Online since: October 2009
Authors: Filippo Giannazzo, Vito Raineri, Fabrizio Roccaforte, Ming Hung Weng, Stefano Leone, Jens Eriksson
Silicon
carbide based devices have consequently been studied extensively over the last 20 years, with
ensuing improvements in process engineering and wafer growth technology.
In this context, the heterostructure formed by epitaxial growth of 3C-SiC on hexagonal silicon carbide substrates can have superior properties (the lattice mismatch between 3C/α-SiC is less than 0.1% in the growth plane), allowing the prospective fabrication of advanced devices.
Ferro: Advanced Functional Materials Vol. 16 (2006), p. 975
Forum Vol. 556 (2006), p. 705
Forum Vols. 600-603 (2009), p. 107
In this context, the heterostructure formed by epitaxial growth of 3C-SiC on hexagonal silicon carbide substrates can have superior properties (the lattice mismatch between 3C/α-SiC is less than 0.1% in the growth plane), allowing the prospective fabrication of advanced devices.
Ferro: Advanced Functional Materials Vol. 16 (2006), p. 975
Forum Vol. 556 (2006), p. 705
Forum Vols. 600-603 (2009), p. 107
Online since: October 2007
Authors: Juan Daniel Muñoz-Andrade
[2] Juan Daniel Muñoz Andrade, "Super Plastic Flow and Cosmic Micromechanics", Key
Engineering Materials, Vols. 345-346 (2007) pp. 557 -580
[3] Juan Daniel Muñoz Andrade, "Mapping of the Granular Flow During the Irreversible Deformation Processes in Spatially Extended Crystalline Systems", The Sixth Pacific Rim International Conference on Advanced materials and Processing, PRICM-6 2007
[5] Juan Daniel Muñoz Andrade, "On the Phenomenology and Mechanics of Super plastic flow in Advanced Structural Materials", ICSAM 2006, Materials Science Forum Vols. 551-552 (2006) pp. 147 -152.
[3] Juan Daniel Muñoz Andrade, "Mapping of the Granular Flow During the Irreversible Deformation Processes in Spatially Extended Crystalline Systems", The Sixth Pacific Rim International Conference on Advanced materials and Processing, PRICM-6 2007
[5] Juan Daniel Muñoz Andrade, "On the Phenomenology and Mechanics of Super plastic flow in Advanced Structural Materials", ICSAM 2006, Materials Science Forum Vols. 551-552 (2006) pp. 147 -152.