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Online since: June 2015
Authors: Vânia Caldas Sousa, Sergio Cava, Tiago Delbrücke, Jose R. Jurado, Sergio M. Tebcheranic, Evaldo T. Kubaski, Rogério A. Gouvêa, Cristiane W. Raubach, Mário Lúcio Moreira, Elson Longo
Jurado1,2,5,i
and Sergio Cava1,j
1Graduate Program in Science and Materials Engineering, Technology Development Center, Federal University of Pelotas, 96010-900, Pelotas,RS, Brazil
2Laboratory of Biomaterials & Advanced Ceramics, Federal University of Rio Grande do Sul, 91509-900, Porto Alegre, RS, Brazil
3Interdisciplinary Laboratory of Ceramic Materials, Ponta Grossa State University,84030-900 , Ponta Grossa, PR, Brazil
4National Institute of Science and Technology of Materials in Nanotechnology, Paulista State University, 14801-907, Araraquara, SP, Brazil
5Glass Department, Institute of Glass and Ceramic, 28049, Madrid, Spain
6Institute of Physics and Mathematics, Federal University of Pelotas, 96010-900, Pelotas, RS, Brazil
a*tiagodt@gmail.com, brogerio-gouvea@hotmail.com, ccrica_wr@yahoo.com.br, delson.liec@gmail.com, evania.sousa@ufrgs.br, fsergiomt@uepg.br, gevaldotk@outlook.com, hmlucio3001@gmail,com, ipepejuradoegea@gmail.com, jsergiocava@gmail.com
Keywords: Porous ceramic
An increasing number of applications which demand for ceramics with advanced properties has been attracting attention in the last decades, specially in environments where high temperatures, extensive wear and corrosive reactants are present.
Paschoal: Materials Science Forum Vols. 416 (2003), p. 681
An increasing number of applications which demand for ceramics with advanced properties has been attracting attention in the last decades, specially in environments where high temperatures, extensive wear and corrosive reactants are present.
Paschoal: Materials Science Forum Vols. 416 (2003), p. 681
Online since: January 2012
Authors: Ai Ling Wang, Qun Chen, Zhong Ren Zhou, Lian Di Zhou
In recent years, with the support of policies such as “New Village Construction” and “Green Olympics, Green Beijing”, the government has made considerable advances towards using clean biomass energy in rural areas, which promotes the rapid development of modern biomass energy.
This includes technology and knowledge for developing the biomass energy industry in terms of policy, marketing, technology, and engineering, and high-level institutions for research and development (R&D) and training.
The research force examining biomass energy technology is comparatively weak in China, and has huge gaps in core technologies compared with the advanced technology abroad.
[4] Geller H, Schaeffer R, Szklo A, et al. (2004): Policies for advancing energy efficiency and renewable energy use in Brazil.
Conference Proceedings of 2006 forum of biomass energy science and technology in China.
This includes technology and knowledge for developing the biomass energy industry in terms of policy, marketing, technology, and engineering, and high-level institutions for research and development (R&D) and training.
The research force examining biomass energy technology is comparatively weak in China, and has huge gaps in core technologies compared with the advanced technology abroad.
[4] Geller H, Schaeffer R, Szklo A, et al. (2004): Policies for advancing energy efficiency and renewable energy use in Brazil.
Conference Proceedings of 2006 forum of biomass energy science and technology in China.
Online since: March 2014
Authors: Len Reid
Over the past 50 years, mitigating cracks from holes has been a major focus of aerospace research, design, and stress engineers.
The need to prevent fatigue failures has lead engineers to quantify and optimize life improvement methodologies.
Maintainers also have had the need to extend or operate aircraft beyond their original design service life that requires quantifiable and reliable life enhancement methods and advanced manufacturing processes.
American Helicopter Society 56th Forum, Virginia Beach FL, May 2000 [7] Petrak, G.J. and Stewart, R.P., “Retardation of Cracks Emanating from Fastener Holes,” Engineering Fracture Mechanics, Vol. 6, Pergamon Press, 1974, pp. 275-282
[8] Clark, G., “Modeling Residual Stresses and Fatigue Crack Growth at Cold Expanded Fastener Holes,” Fatigue Fracture of Engineering Materials Structures, Vol. 14, No. 5
The need to prevent fatigue failures has lead engineers to quantify and optimize life improvement methodologies.
Maintainers also have had the need to extend or operate aircraft beyond their original design service life that requires quantifiable and reliable life enhancement methods and advanced manufacturing processes.
American Helicopter Society 56th Forum, Virginia Beach FL, May 2000 [7] Petrak, G.J. and Stewart, R.P., “Retardation of Cracks Emanating from Fastener Holes,” Engineering Fracture Mechanics, Vol. 6, Pergamon Press, 1974, pp. 275-282
[8] Clark, G., “Modeling Residual Stresses and Fatigue Crack Growth at Cold Expanded Fastener Holes,” Fatigue Fracture of Engineering Materials Structures, Vol. 14, No. 5
Online since: October 2025
Authors: Dmytro Ivashchenko, Vladimir Lebedev, Alina Lytvyn, Maksym Riabchenko
Composites Part B: Engineering. 176 (2019) 107207
Composites Part B: Engineering. 96 (2016) 231–41
Composites Part B: Engineering. 134 (2018) 91–7
Composites Part B: Engineering. 91 (2016) 505–12
Journal of Engineering Sciences. 10(1) (2023) C1-C8
Composites Part B: Engineering. 96 (2016) 231–41
Composites Part B: Engineering. 134 (2018) 91–7
Composites Part B: Engineering. 91 (2016) 505–12
Journal of Engineering Sciences. 10(1) (2023) C1-C8
Online since: August 2013
Authors: Bo Liu, Jian Hui Yang
[5] Xiaobing Zhou, Wu Che: Water & Wastewater Engineering Vol. 3 (2009),p.120-124(In Chinese)
[20] Wu Che,Lan Ou,Hong Liu, et al: Water & Wastewater Engineering Vol. 9 (2001),p.38-41(In Chinese)
[25] Jindong Xiao, Daizong An, Heng Liu, et al: Journal of Materials Science and Engineering Vol. 5 (2004),p.757-759(In Chinese)
[35] Jianhui Yang,Bo Liu,Zonggang Liu: Advanced Materials Research Vol. 374-377(2012), p.2421-2425(In Chinese)
[42] Steven Strom, Kurt Nathan, Jake Woland: Site Engineering for Landscape Architects (John Wiley & Sons,Inc.
[20] Wu Che,Lan Ou,Hong Liu, et al: Water & Wastewater Engineering Vol. 9 (2001),p.38-41(In Chinese)
[25] Jindong Xiao, Daizong An, Heng Liu, et al: Journal of Materials Science and Engineering Vol. 5 (2004),p.757-759(In Chinese)
[35] Jianhui Yang,Bo Liu,Zonggang Liu: Advanced Materials Research Vol. 374-377(2012), p.2421-2425(In Chinese)
[42] Steven Strom, Kurt Nathan, Jake Woland: Site Engineering for Landscape Architects (John Wiley & Sons,Inc.
Online since: May 2014
Authors: Ernst Kozeschnik, Georg Stechauner
Forum 500-501 631.
].
In the present paper, the conventional treatment is advanced by consideration of the following effects: (i) nucleation with variable precipitate composition according to minimum G*, (ii) size correction for the interfacial energy due to curvature as proposed in ref. [[] Sonderegger B, Kozeschnik E, 2009 Scr.
Conference Solid-Solid Phase Transformations in Inorganic Materials, PTM 2005, Phoenix, AZ, USA, 2005, 301-310. ,[] “Computational Materials Engineering - An Introduction to Computational Microstructure Evolution of Polycrystalline Materials”, K.G.
Summary An advanced simulation approach is developed for the numerical simulation of Cu-precipitation in ferritic steel, taking into account the major mechanisms affecting the precipitation kinetics in Cu-alloyed ferritic steels.
In the present paper, the conventional treatment is advanced by consideration of the following effects: (i) nucleation with variable precipitate composition according to minimum G*, (ii) size correction for the interfacial energy due to curvature as proposed in ref. [[] Sonderegger B, Kozeschnik E, 2009 Scr.
Conference Solid-Solid Phase Transformations in Inorganic Materials, PTM 2005, Phoenix, AZ, USA, 2005, 301-310. ,[] “Computational Materials Engineering - An Introduction to Computational Microstructure Evolution of Polycrystalline Materials”, K.G.
Summary An advanced simulation approach is developed for the numerical simulation of Cu-precipitation in ferritic steel, taking into account the major mechanisms affecting the precipitation kinetics in Cu-alloyed ferritic steels.
Online since: November 2016
Authors: David A. Porter, Antti Kaijalainen, Severi Anttila, Pasi Suikkanen, Mia Liimatainen, Vili Kesti
Porter1
1Centre for Advanced Steels Research, University of Oulu, P.O.
Acknowledgements The financial support of the Finnish Funding Agency for Technology and Innovation (Tekes) in the Breakthrough Steels and Applications Program of the Finnish Metals and Engineering Competence Cluster (FIMECC Ltd) is gratefully acknowledged.
Forum. 783-786 (2014) 246–251
Merklein, Bendability of advanced high strength steels—A new evaluation procedure, CIRP Ann. - Manuf.
Acknowledgements The financial support of the Finnish Funding Agency for Technology and Innovation (Tekes) in the Breakthrough Steels and Applications Program of the Finnish Metals and Engineering Competence Cluster (FIMECC Ltd) is gratefully acknowledged.
Forum. 783-786 (2014) 246–251
Merklein, Bendability of advanced high strength steels—A new evaluation procedure, CIRP Ann. - Manuf.
Online since: November 2011
Authors: Chun Sheng Ma, Jing Wen Hu, Jin Huan Zhang
The FE method is the most up-to-date advanced technology and available to aid all types of automotive safety research.
ASME Mechanical Engineering Congress and Exposition, Crashworthiness, Occupant Protection and Biomechanics in Transportation Systems., 2007
"Advanced roof design for rollover protection". 17th International Technical Conference on the Enhanced Safety of Vehicles, 2001
Proceedings of the 5th International Forum of Automotive Traffic Safety, 2007.
ASME Mechanical Engineering Congress and Exposition, Crashworthiness, Occupant Protection and Biomechanics in Transportation Systems., 2007
"Advanced roof design for rollover protection". 17th International Technical Conference on the Enhanced Safety of Vehicles, 2001
Proceedings of the 5th International Forum of Automotive Traffic Safety, 2007.
Online since: December 2014
Authors: Xin Ping Mao, Ming Tu Ma, Guang Ying Li, Chang Xu Zhao
Advanced Q-P-T Treatment for Higher Strength-Ductility
In 2003 Speer and his co-workers proposed a new process Quenching and Partitioning for creating steel microstructures with retained austenite.
Forum., 426-432 (2003): pp. 1089-1094
Matlock, Microstructural Aspects of Advanced High Strength Sheet Steels , Advanced High Strength Steel Workshop , Arlington, Virginia, USA ,Oct. 22-23, 2006, [8] Z Y.
Sietsma, New low carbon Q&P steels containing film-like intercritical ferrite, Materials Science and Engineering A 527 (2010) 6429–6439 [37] D.
Nový , Properties of Advanced Experimental CMnSiMo Steel Achieved by QP Process Procedia Engineering 10 (2011) 2961–2966 [38] Yuan Peng-ju, Zhou Shu, Liu Chun-wei, Wang Ying, Wu Yu-li, Rong Yong-hua, Quenching- Partitioning Process and Its Engineering Feasibility of 900 MPa Grade Hot-Rolled Plate, Iron & Steel, 47 ( 2012), 3:70-75 [39] Wang Ying, Zhang Ke, Guo Zheng-hong etc.
Forum., 426-432 (2003): pp. 1089-1094
Matlock, Microstructural Aspects of Advanced High Strength Sheet Steels , Advanced High Strength Steel Workshop , Arlington, Virginia, USA ,Oct. 22-23, 2006, [8] Z Y.
Sietsma, New low carbon Q&P steels containing film-like intercritical ferrite, Materials Science and Engineering A 527 (2010) 6429–6439 [37] D.
Nový , Properties of Advanced Experimental CMnSiMo Steel Achieved by QP Process Procedia Engineering 10 (2011) 2961–2966 [38] Yuan Peng-ju, Zhou Shu, Liu Chun-wei, Wang Ying, Wu Yu-li, Rong Yong-hua, Quenching- Partitioning Process and Its Engineering Feasibility of 900 MPa Grade Hot-Rolled Plate, Iron & Steel, 47 ( 2012), 3:70-75 [39] Wang Ying, Zhang Ke, Guo Zheng-hong etc.