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Online since: October 2014
Authors: Sorin Vasile Savu
Hartnett, Advances in Heat Transfer, Volume 33, Academic Press 24-28 Oval Road, London, NW1, 7DX, UK, ISSN 0065-2717, ISBN 0-12-020033-3, 1999
[3] I.D.
Benga - Thermal Runaway of the BaCO3 + Fe2O3 homogenous mixture and mechanical alloys at the microwave heating, Advanced Materials Research Vol. 837 (2014) pp 185-189, doi:10.4028/www.scientific.net/AMR.837.185 [4] A.C.
Metaxas – Microwave Heating – IEE Power Engineering Journal 5(5) 1991, http://www.pueschner.com/downloads [5] Ciupitu, I., et al. - The improving of the process of the iron, the cast iron and the copper powder mixing, Materials Science Forum Vol. 672 (2011), pag. 76-79, edited by Trans.
Ciupitu - Thermal Analysis to Evaluate Ageing Process in Heated Tool and Electrofusion Welding of Polymer Pipes, Advanced Materials Research Vol. 837 (2014) pp 190-195, doi:10.4028/www.scientific.net/AMR.837.190
Benga - Thermal Runaway of the BaCO3 + Fe2O3 homogenous mixture and mechanical alloys at the microwave heating, Advanced Materials Research Vol. 837 (2014) pp 185-189, doi:10.4028/www.scientific.net/AMR.837.185 [4] A.C.
Metaxas – Microwave Heating – IEE Power Engineering Journal 5(5) 1991, http://www.pueschner.com/downloads [5] Ciupitu, I., et al. - The improving of the process of the iron, the cast iron and the copper powder mixing, Materials Science Forum Vol. 672 (2011), pag. 76-79, edited by Trans.
Ciupitu - Thermal Analysis to Evaluate Ageing Process in Heated Tool and Electrofusion Welding of Polymer Pipes, Advanced Materials Research Vol. 837 (2014) pp 190-195, doi:10.4028/www.scientific.net/AMR.837.190
Online since: December 2012
Authors: You Xin Luo, Yue Hua Cai, Wei Yue Xiao
Engineering processing method of design variable In optimum designing, the values of some variables are limited by the mechanical accuracy and design specification although they are theoretically continuous.
Forum Vol. 83-87 (1992), p. 119 [2] Y.M Zhou , Y.M.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
ZHENG: Computer Engineering and Application,Vol.41,No.26 (2005), p.54-57.G.
Chen:MATLAB Solving of Advanced Applied Mathematics Problem (Tsinghua University Press, Beijing, 2008)
Forum Vol. 83-87 (1992), p. 119 [2] Y.M Zhou , Y.M.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
ZHENG: Computer Engineering and Application,Vol.41,No.26 (2005), p.54-57.G.
Chen:MATLAB Solving of Advanced Applied Mathematics Problem (Tsinghua University Press, Beijing, 2008)
Online since: August 2006
Authors: Dong Bok Lee
Lee
*Dept of Advanced Materials Science & Engineering, Sungkyunkwan University, Suwon, 440-746,
South Korea
dlee@yurim.skku.ak.kr
Keywords: TiAl, manganese, Y2O3, oxidation
Abstract.
Acknowledgment This study was supported by the Korea Science and Engineering Foundation under the ERC project.
Forum, 475/479 (2005) p. 767 [9] Y.
Forum, Vol. 369 (2001) p. 327
Acknowledgment This study was supported by the Korea Science and Engineering Foundation under the ERC project.
Forum, 475/479 (2005) p. 767 [9] Y.
Forum, Vol. 369 (2001) p. 327
Online since: December 2012
Authors: Zi Ying Jiang
The average annual solid radioactive wastes volume of operational NPP is about 70m3/unit (PWR), which is higher than the world’s advanced level (less than 40m3/unit (PWR) [8]) and has further reduction potential.
In 2010, the output of solid radioactive waste was 64.6 m3, about 50% of 1995 (127 m3), reached the advanced level as the same type NPPs in France [14].
As the end of May 2012, the “12th five-year-plan on nuclear security and radioactive contaminant treatment and a long-term goal set for 2020” had been approved [15]; however, China’s nuclear-generating capacity would reach 60-70 GW by 2020, which had declined than the previous goal (80 GW) prior to Fukushima accident, according to a nuclear energy research group’s recommendations of Chinese Academy of Engineering [16].
As China’s annual radioactive wastes generated from NPP is higher than the world’s advanced levels, there is further reduction potential to minimize the radioactive waste production during nuclear power development.
Wang: A Comparison of Radioactive Effluents Discharge on Operational NPPs of China, Proceedings of Radiation Protection Forum in the 21st Century 10th Conference on Decommissioning and Radioactive waste Treatment of Nuclear and Radiation Facilities (2012), p.99.
In 2010, the output of solid radioactive waste was 64.6 m3, about 50% of 1995 (127 m3), reached the advanced level as the same type NPPs in France [14].
As the end of May 2012, the “12th five-year-plan on nuclear security and radioactive contaminant treatment and a long-term goal set for 2020” had been approved [15]; however, China’s nuclear-generating capacity would reach 60-70 GW by 2020, which had declined than the previous goal (80 GW) prior to Fukushima accident, according to a nuclear energy research group’s recommendations of Chinese Academy of Engineering [16].
As China’s annual radioactive wastes generated from NPP is higher than the world’s advanced levels, there is further reduction potential to minimize the radioactive waste production during nuclear power development.
Wang: A Comparison of Radioactive Effluents Discharge on Operational NPPs of China, Proceedings of Radiation Protection Forum in the 21st Century 10th Conference on Decommissioning and Radioactive waste Treatment of Nuclear and Radiation Facilities (2012), p.99.
Online since: January 2012
Authors: Christian Klinkenberg, Pavel Hora, Carl Peter Reip, Long Chang Tong
Logarithmic strain and true stress are required instead of elongation and engineering stress.
Schlüter, “20 Years of Experience in Thin Slab Casting and Rolling State of the Art and Future Developments”, THERMEC’2009, August 25-29, 2009, Berlin (Germany), Materials Science Forum Vols. 638-642 (2010) pp 3610-3615 [3] C.
Hennig, “Processing of Dual-Phase Steel on CSP® Plants”, in Proc. of AIST International Conference on Advanced High Strength Sheet Steels for Automotive Applications, June 6–9, 2004 Winter Park, Colorado (USA), pp 141-151 [4] W.
Böcher, “Advanced CSP® Products and Product Quality, SEASI Seminar on Sustainable New Technology and Plant Rationalisation on Process, Product and environment in Steel Industry, Singapore, November 14-16 (2005) [5] C.P.
Bruns, “Advanced Steel Grades and Quality Issues of Compact Strip Production”, Iron & Steel Review, Special Edition SMS Demag, ISSN 0578-7661, 2007, pp 43-46 [6] A.
Schlüter, “20 Years of Experience in Thin Slab Casting and Rolling State of the Art and Future Developments”, THERMEC’2009, August 25-29, 2009, Berlin (Germany), Materials Science Forum Vols. 638-642 (2010) pp 3610-3615 [3] C.
Hennig, “Processing of Dual-Phase Steel on CSP® Plants”, in Proc. of AIST International Conference on Advanced High Strength Sheet Steels for Automotive Applications, June 6–9, 2004 Winter Park, Colorado (USA), pp 141-151 [4] W.
Böcher, “Advanced CSP® Products and Product Quality, SEASI Seminar on Sustainable New Technology and Plant Rationalisation on Process, Product and environment in Steel Industry, Singapore, November 14-16 (2005) [5] C.P.
Bruns, “Advanced Steel Grades and Quality Issues of Compact Strip Production”, Iron & Steel Review, Special Edition SMS Demag, ISSN 0578-7661, 2007, pp 43-46 [6] A.
Online since: July 2013
DAMAS
2013 is the tenth in a series of biennial international conferences, which aim to bring together the
expertise of scientists and engineers, in academia and industry in the field of damage assessment of
structures.
The conference focuses on all research topics relevant to damage assessment of engineering structures and systems including theoretical and experimental studies, numerical simulations and signal processing of sensor measurements.
The DAMAS conference is now a well established major forum for discussion and dissemination of recent advances in damage monitoring, detection, assessment and quantification following the previous nine conferences held in Pescara (Italy, 1995), Sheffield (UK, 1997), Dublin (Ireland, 1999), Cardiff (UK, 2001), Southampton (UK, 2003), Gdansk (Poland, 2005), Torino (Italy, 2007), Beijing (China, 2009) and Oxford (UK, 2011).
Wieslaw Ostachowicz, Polish Academy of Science, Poland INTERNATIONAL SCIENTIFIC COMMITTEE F Aymerich, University of Cagliari, Italy J Barton, University of Southampton, UK M Basheer, Queens University Belfast, UK B Basu, Trinity College Dublin, Ireland S K Bhalla, Indian Institute of Techonology Delhi, India F Casciati, University of Pavia, Italy R Ceravolo, Politechnico di Torino, Italy F Chu, Tsinghua University, China G De Roeck, KU Leuven, Belgium L Faravelli, University of Pavia, Italy S Fassois, Patras University, Greece M Friswell, University of Swansea, UK J D Frost, Georgia Institute of Technology, USA L Garibaldi, Politecnico di Torino, Italy A Ghosh, Bengal Engineering and Science University, India M Gilchrist, University College Dublin, Ireland A Gonzalez, University College Dublin, Ireland S Gopalkrishnan, Indian Institute of Science Bangalore, India A Guemes, Universidad Politechnica de Madrid, Spain F Gu, Huddersfield University, UK
Daniel Cantero, Roughan & O'Donovan Consulting Engineers, Ireland Mr.
The conference focuses on all research topics relevant to damage assessment of engineering structures and systems including theoretical and experimental studies, numerical simulations and signal processing of sensor measurements.
The DAMAS conference is now a well established major forum for discussion and dissemination of recent advances in damage monitoring, detection, assessment and quantification following the previous nine conferences held in Pescara (Italy, 1995), Sheffield (UK, 1997), Dublin (Ireland, 1999), Cardiff (UK, 2001), Southampton (UK, 2003), Gdansk (Poland, 2005), Torino (Italy, 2007), Beijing (China, 2009) and Oxford (UK, 2011).
Wieslaw Ostachowicz, Polish Academy of Science, Poland INTERNATIONAL SCIENTIFIC COMMITTEE F Aymerich, University of Cagliari, Italy J Barton, University of Southampton, UK M Basheer, Queens University Belfast, UK B Basu, Trinity College Dublin, Ireland S K Bhalla, Indian Institute of Techonology Delhi, India F Casciati, University of Pavia, Italy R Ceravolo, Politechnico di Torino, Italy F Chu, Tsinghua University, China G De Roeck, KU Leuven, Belgium L Faravelli, University of Pavia, Italy S Fassois, Patras University, Greece M Friswell, University of Swansea, UK J D Frost, Georgia Institute of Technology, USA L Garibaldi, Politecnico di Torino, Italy A Ghosh, Bengal Engineering and Science University, India M Gilchrist, University College Dublin, Ireland A Gonzalez, University College Dublin, Ireland S Gopalkrishnan, Indian Institute of Science Bangalore, India A Guemes, Universidad Politechnica de Madrid, Spain F Gu, Huddersfield University, UK
Daniel Cantero, Roughan & O'Donovan Consulting Engineers, Ireland Mr.
Online since: April 2015
Authors: Mohd Mustafa Al Bakri Abdullah, Dan Galusca, Dragos Achiţei, Doru Dumitru BĂITANU
The Improvement of Stainless Steels Processing by Annealing
Doru Dumitru BĂITANU1,a, Dan Gelu GĂLUŞCĂ1,b,
Dragoş Cristian ACHIŢEI1,c, Mohd Mustafa Al Bakri ABDULLAH2,3,d,
1Gheorghe Asachi Technical University of Iasi, Faculty of Materials Science and Engineering, Blvd.
Mangeron 41, 700050, Iasi, Romania 2Faculty of Engineering Technology, Universiti Malaysia Perlis (UniMAP), 01007, P.O Box 77, D/A Pejabat Pos Besar, Kangar, Perlis, Malaysia 3Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia adoru_baitanu@yahoo.ro, bdangalusca@yahoo.com, cdragos_adc@yahoo.com, dmustafa_albakri@unimap.edu.my Keywords: stainless steel, annealing, hardness, processing.
Zhu Influence of Shot Peening Pressure on Stress Corrosion Susceptibility of 304 Austenitic Stainless Steel, Advanced Materials Research,486 (2012) 524-528
Fayeulle, Ion Implantation in Stainless Steels: Microstructures and Mechanical Properties, Defect and Diffusion Forum, 57 – 58 (1988) 327-358
Bhanja, Applications of Stainless Steel in Automobile Industry, Advanced Materials Research, 794 (2013) 731-740
Mangeron 41, 700050, Iasi, Romania 2Faculty of Engineering Technology, Universiti Malaysia Perlis (UniMAP), 01007, P.O Box 77, D/A Pejabat Pos Besar, Kangar, Perlis, Malaysia 3Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia adoru_baitanu@yahoo.ro, bdangalusca@yahoo.com, cdragos_adc@yahoo.com, dmustafa_albakri@unimap.edu.my Keywords: stainless steel, annealing, hardness, processing.
Zhu Influence of Shot Peening Pressure on Stress Corrosion Susceptibility of 304 Austenitic Stainless Steel, Advanced Materials Research,486 (2012) 524-528
Fayeulle, Ion Implantation in Stainless Steels: Microstructures and Mechanical Properties, Defect and Diffusion Forum, 57 – 58 (1988) 327-358
Bhanja, Applications of Stainless Steel in Automobile Industry, Advanced Materials Research, 794 (2013) 731-740
Online since: August 2015
Authors: Ioan Gabriel Sandu, Alin Cazac, Costică Bejinariu, Petru Lazăr, Andrei Victor Sandu
Chemical Deposition of Thin Layers on Reinforcing Steel
Petru LAZĂR1a, Costică BEJINARIU1b, Andrei Victor SANDU1,2,c ,
Alin Marian CAZAC1d, Ioan Gabriel SANDU1,3e
1Gheorghe Asachi Technical University of Iasi, Faculty of Materials Science and Engineering, Blvd.
Mangeron 41, 700050, Iasi, Romania 2 Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia 3Romanian Inventors Forum, Str.
Ricketts, Standard Handbook for Civil Engineers, Fourth Edition, McGraw-Hill Book Company, 1995
Preparation and structural and chemical characterization, Journal of Optoelectronics and Advanced Materials, 14 (2012) 699-703
Evaluation of corrosion resistance, Journal of Optoelectronics and Advanced Materials, 14 (2012) 704-708
Mangeron 41, 700050, Iasi, Romania 2 Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia 3Romanian Inventors Forum, Str.
Ricketts, Standard Handbook for Civil Engineers, Fourth Edition, McGraw-Hill Book Company, 1995
Preparation and structural and chemical characterization, Journal of Optoelectronics and Advanced Materials, 14 (2012) 699-703
Evaluation of corrosion resistance, Journal of Optoelectronics and Advanced Materials, 14 (2012) 704-708
Online since: July 2013
Authors: Navid Goudarzi, Wei Dong Zhu
However, more advanced power electronics and a precise generator torque balance are required.
[2] “Advanced Wind Turbine Drivetrain Concepts,” U.S.
[6] “WindPACT Advanced Wind Turbine Drivetrain Designs Northern Power Systems, Inc.,” Wind Partnerships for Advanced Component Technology, 2000
[18] Dvorak, P., “Breaking the 9-MW Barrier”,Wind Power Engineering Journal, p.36, 2010
Petch, "Clipper Liberty Series: Advanced Low Wind Speed Technology," California Wind Energy Collaborative Forum, Davis, CA, USA, 2005
[2] “Advanced Wind Turbine Drivetrain Concepts,” U.S.
[6] “WindPACT Advanced Wind Turbine Drivetrain Designs Northern Power Systems, Inc.,” Wind Partnerships for Advanced Component Technology, 2000
[18] Dvorak, P., “Breaking the 9-MW Barrier”,Wind Power Engineering Journal, p.36, 2010
Petch, "Clipper Liberty Series: Advanced Low Wind Speed Technology," California Wind Energy Collaborative Forum, Davis, CA, USA, 2005
Online since: June 2014
Authors: Bo Jiang, Ying Pan
Smart Metering for Applications
Ying Pan 1, a *, Bo Jiang 2,b
1Harbin University Engineering Institute Harbin ,China
2Harbin University Engineering Institute Harbin, China
a64271449@qq.com, b623013565@qq.com
Keywords: smart meter; remote monitoring; distribution grid; power industry; energy efficiency.
Smart meter is an advanced energy meter that measures consumption of electrical energy providing additional information compared to a conventional energy meter.
Smart meter is an advanced energy meter that measures the energy consumption of a consumer and provides added information to the utility company compared to a regular energy meter.
Khan, “Monitoring Power for the Future”, Power Engineering Journal, April 2001, IEE, pp. 81-85
[8] Han Chen, Paul Chou, Sastry Duri, Hui Lei, Johnathan Reason, “The Design and Implementation of a Smart Building Control System,” E-Business Engineering, IEEE International Conference on, pp. 255-262, 2009 IEEE International Conference on e-Business Engineering [9] Lee.P.K., Lai.
Smart meter is an advanced energy meter that measures consumption of electrical energy providing additional information compared to a conventional energy meter.
Smart meter is an advanced energy meter that measures the energy consumption of a consumer and provides added information to the utility company compared to a regular energy meter.
Khan, “Monitoring Power for the Future”, Power Engineering Journal, April 2001, IEE, pp. 81-85
[8] Han Chen, Paul Chou, Sastry Duri, Hui Lei, Johnathan Reason, “The Design and Implementation of a Smart Building Control System,” E-Business Engineering, IEEE International Conference on, pp. 255-262, 2009 IEEE International Conference on e-Business Engineering [9] Lee.P.K., Lai.