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Online since: June 2014
Preface
The International Conference on Energy and Environmental Protection provides a
forum for accessing to the most up-to-date and authoritative knowledge from both
industrial and academic worlds, sharing best practice in this exciting field.
Following the success of the previous two conferences, the third ICEEP2014, held in Xi'an during April 26-28, 2014, was organized in four simultaneous tracks: "Applied Energy Technology", "Advances in Environmental Technologies", "Thermal, Power and Electrical Engineering" and "Resources and Sustainable Development".
Studies presented in this book cover these topics: Georesearch, Mineral Prospecting and Exploration, Oil and Gas Research, Forestry Research, Chemical and Petroleum Engineering, Mineral Processing Engineering, Mining Engineering, Agricultural Products Processing and Consumption, Climate and Carbon Emission Research, Energy Saving, Environmental Protection, Low-Carbon Concept, Energy Consumption and Energy Strategy, Energy Industry Development and Management, International Energy, Resource Demand and Supply, Environmental Protection and Economic Development, Economy Research: Environmental Case, Transportation, Urban and Regional Planning, Information Technology, Computer Applications and Mathematical Modeling, Management and Education etc.
Following the success of the previous two conferences, the third ICEEP2014, held in Xi'an during April 26-28, 2014, was organized in four simultaneous tracks: "Applied Energy Technology", "Advances in Environmental Technologies", "Thermal, Power and Electrical Engineering" and "Resources and Sustainable Development".
Studies presented in this book cover these topics: Georesearch, Mineral Prospecting and Exploration, Oil and Gas Research, Forestry Research, Chemical and Petroleum Engineering, Mineral Processing Engineering, Mining Engineering, Agricultural Products Processing and Consumption, Climate and Carbon Emission Research, Energy Saving, Environmental Protection, Low-Carbon Concept, Energy Consumption and Energy Strategy, Energy Industry Development and Management, International Energy, Resource Demand and Supply, Environmental Protection and Economic Development, Economy Research: Environmental Case, Transportation, Urban and Regional Planning, Information Technology, Computer Applications and Mathematical Modeling, Management and Education etc.
Online since: March 2022
Authors: John Ryan C. Dizon, Ulysses B. Ante, Arvin Oliver S. Ng, Joseph Alfred V. Garcia, Fred P. Liza, Michael B. De Leon, Madelene Velasco Villablanca, Rigoberto Advincula
Santos Ave., Bicutan, Taguig City, 1631, Philippines
4Deparment of Mechanical Engineering, College of Engineering and Architecture, Bataan Peninsula State University, City of Balanga, Bataan 2100, Philippines
5STAMINA4Space Program, University of the Philippines, Quezon City, Philippines
6Department of Chemical and Biomolecular Engineering and Joint Institute for Advanced Materials, University of Tennessee, Knoxville, TN 37996, USA;
7Department of Macromolecular Science and Engineering, Case Western Reserve University, Cleveland, OH, 44106, USA;
8DR3AM Center, Bataan Peninsula State University, City of Balanga, Bataan 2100, Philippines
9Department of Industrial Engineering, College of Engineering and Architecture, Bataan Peninsula State University, City of Balanga, Bataan 2100, Philippines
adeleonmichael_7@yahoo.com, bubante@mirdc..dost.gov.ph, cmsjvelasco@bpsu.edu.ph, darvinoliverng@gmail.com, ejavgarcia@mirdc.dost.gov.ph, ffpliza@mirdc.dost.gov.ph, gradvincu@utk.edu, hjrcdizon@
Advincula, “3D-printing and advanced manufacturing for electronics,” Prog.
Engineering with Computers 32 (2016) 135–148. https://doi.org/10.1007/s00366-015-0407-0 [32] Z.
Series: Materials Science and Engineering 608 (2019)
Advincula, 3D-printing and advanced manufacturing for electronics.
Advincula, “3D-printing and advanced manufacturing for electronics,” Prog.
Engineering with Computers 32 (2016) 135–148. https://doi.org/10.1007/s00366-015-0407-0 [32] Z.
Series: Materials Science and Engineering 608 (2019)
Advincula, 3D-printing and advanced manufacturing for electronics.
Online since: November 2005
Authors: Douglas Gouvêa, G.J. Pereira, S.M. Hiraoka
The powder microstructure was studied by specific surface area measurements, SBET,
N2 adsorption/desorption (Micromeritics Gemini III 2375 Surface Area Analyser) and by Xray
diffraction, XRD (X-ray Diffractometer, X Bruker AXS Model D8 Advance), where the
phase composition could be observed.
References [1] Engineered materials Handbook, vol4 - Ceramics and Glasses; ASM international, (1991)
Forum 299 (1999) 91
In: Surface and Colloid Chemistry in Advanced Ceramic Processing - Surfactant Science Series, Vol. 51, ed.
References [1] Engineered materials Handbook, vol4 - Ceramics and Glasses; ASM international, (1991)
Forum 299 (1999) 91
In: Surface and Colloid Chemistry in Advanced Ceramic Processing - Surfactant Science Series, Vol. 51, ed.
Online since: May 2007
Authors: Jennifer Jackman, Nai Yi Li, Joseph A. Carpenter, Philip S. Sklad, Richard J. Osborne, Bob R. Powell
It is jointly
funded by the participants and the Advanced Technology Program of the National Institute of
Standards and Technology, part of the USA Department of Commerce [10,11].
In-situ observations of the mold filling and metal-foam interactions have been carried out using advanced infrared imaging technology.
A team comprised of representatives from GS Engineering, Oshkosh Truck Corporation, Eck Industries, and Engineered Fiber Solutions is investigating the potential of using selectively reinforced Mg metal-matrix composites (MMCs) in stiffness-, strength-, and wear-driven applications.
In the area of advanced forming, Professor J.
To maximize the mass saving and performance advantages, the magnesium front end will be designed and assembled to a passenger compartment of advanced high-strength steels (AHSS).
In-situ observations of the mold filling and metal-foam interactions have been carried out using advanced infrared imaging technology.
A team comprised of representatives from GS Engineering, Oshkosh Truck Corporation, Eck Industries, and Engineered Fiber Solutions is investigating the potential of using selectively reinforced Mg metal-matrix composites (MMCs) in stiffness-, strength-, and wear-driven applications.
In the area of advanced forming, Professor J.
To maximize the mass saving and performance advantages, the magnesium front end will be designed and assembled to a passenger compartment of advanced high-strength steels (AHSS).
Online since: May 2015
Authors: Mimi Azlina Abu Bakar, Siti Norazlini Abd Aziz, Ismail Muhammad Hussain
Effect of Single Based Binder Palm Stearin on Sintered Properties of Hydroxyapatite Scaffold
Siti Norazlini Abd Aziz1, a, Mimi Azlina Abu Bakar1, b,
Muhammad Hussain Ismail2, c
1Faculty of Mechanical Engineering, Universiti Teknologi MARA (UiTM) Shah Alam, 40450 Selangor, Malaysia
2Centre of Advance Materials Research (CAMAR), Faculty of Mechanical Engineering, Universiti Teknologi MARA (UiTM) Shah Alam, 40450 Selangor, Malaysia
asitinorazlini@gmail.com, bmimi_azlina@salam.uitm.edu.my, chussain305@salam.uitm.edu.my
Keywords: Ceramic Injection Molding, Hydroxyapatite, Palm stearin, Mechanical properties
Abstract.
Lima&Effect of Sintering Temperature in Physical-Mechanical Behaviour and in Titanium- Hydroxyapatite Composite Sinterability, Materials Science Forum Vols. 530-531 (2006) pp 249-254 [3] M.A.Omar I.Subuki (2012).
Purohit, Synthesis and Characterization Of Hydroxyapatite Produced From Eggshell,International Symposium of Research Students on Materials Science and Engineering December 20-22, 2004, Chennai, India [5] A.Arifina,b, A.
[7] M.Dewidar,Influence of processing parameters and sintering atmosphere on the mechanical properties and microstructure of porous 316L stainless steel for possible hard-tissue applications, International Journal of Mechanical &Mechatronics Engineering IJMME-IJENS Vol: 12 No: 01 [8] H.J.Sung, T.K Ha, S.AhnY.W.Chang,Powder injection molding of a 17-4 PH stainless steel and the effect of sintering temperature on its microstructure and mechanical properties, Journal of Materials Processing Technology 130–131 (2002) 321–327 [9] R.Sauti,N.A.Wahab, M.A.Omar, I.N.Ahmad,Effects of Binders System on Sintered Properties of Metal Injection Molding Parts of M2 High Speed Steel, Advanced Materials Research Vol. 1024 (2014) pp 201-204
[10] S.Bose, M.Roy, A.Bandyopadhyay, Recent Advances in Bone Tissue Engineering Scaffolds, National Institute of Health, Trends Biotechnol.
Lima&Effect of Sintering Temperature in Physical-Mechanical Behaviour and in Titanium- Hydroxyapatite Composite Sinterability, Materials Science Forum Vols. 530-531 (2006) pp 249-254 [3] M.A.Omar I.Subuki (2012).
Purohit, Synthesis and Characterization Of Hydroxyapatite Produced From Eggshell,International Symposium of Research Students on Materials Science and Engineering December 20-22, 2004, Chennai, India [5] A.Arifina,b, A.
[7] M.Dewidar,Influence of processing parameters and sintering atmosphere on the mechanical properties and microstructure of porous 316L stainless steel for possible hard-tissue applications, International Journal of Mechanical &Mechatronics Engineering IJMME-IJENS Vol: 12 No: 01 [8] H.J.Sung, T.K Ha, S.AhnY.W.Chang,Powder injection molding of a 17-4 PH stainless steel and the effect of sintering temperature on its microstructure and mechanical properties, Journal of Materials Processing Technology 130–131 (2002) 321–327 [9] R.Sauti,N.A.Wahab, M.A.Omar, I.N.Ahmad,Effects of Binders System on Sintered Properties of Metal Injection Molding Parts of M2 High Speed Steel, Advanced Materials Research Vol. 1024 (2014) pp 201-204
[10] S.Bose, M.Roy, A.Bandyopadhyay, Recent Advances in Bone Tissue Engineering Scaffolds, National Institute of Health, Trends Biotechnol.
Online since: November 2012
Authors: Zhi Long Xu, Ju Dong Liu, Song Wei Huang, Jin Kui Xiong, Wei Yuan
Key Engineering Materials, Vol.304-305(2006), p.588-592
[7] J.D Liu, G.C Wang and K.M Chen.
Advanced Materials Research, Vol.76-78(2009) p.3-8 [10] T Nguyen and L C Zhang.
Key Engineering Materials, Vol. 443 (2010) p. 388-393 [11] J.D Liu, J.Z Zhuang , X.L Zhang, et al.
Advanced Materials Research, Vol. 102-104 (2010) p.733-737 [12] J.D Liu, J.Z Zhuang, S.W Huang, et al.
Key Engineering Materials, Vol. 455 (2011) p.580-584 [13] L.A Lu.
Advanced Materials Research, Vol.76-78(2009) p.3-8 [10] T Nguyen and L C Zhang.
Key Engineering Materials, Vol. 443 (2010) p. 388-393 [11] J.D Liu, J.Z Zhuang , X.L Zhang, et al.
Advanced Materials Research, Vol. 102-104 (2010) p.733-737 [12] J.D Liu, J.Z Zhuang, S.W Huang, et al.
Key Engineering Materials, Vol. 455 (2011) p.580-584 [13] L.A Lu.
Online since: September 2012
Authors: Hon Jong Choi, Seok Woo Lee, Young Jae Choi, Yun Hyuck Hong, Kyeong Tae Kim, Kyung Hee Park
Treadwell, Experimental observation of tool wear in rotary ultrasonic machining of advanced ceramics, International Journal of Machine Tools & Manufacture Vol. 45 (2005) p. 1468-1473
Khamba, Taguchi technique for modeling material removal rate in ultrasonic machining of titanium, Materials Science and Engineering A Vol. 460-461 (2007) p. 365-369
Pi, Experimental investigation of intermittent rotary ultrasonic machining, Key Engineering Materials 359-360 (2008) p. 425-430
Pei, Rotary ultrasonic machining of advanced ceramics, Materials Science Forum 532-533 (2006) p. 361-364
Shimamura, Ultrasonic machining with a diamond impregnated tool, Bulletin Japan Society of Precision Engineering 11 (3) (1977) p. 127-132
Khamba, Taguchi technique for modeling material removal rate in ultrasonic machining of titanium, Materials Science and Engineering A Vol. 460-461 (2007) p. 365-369
Pi, Experimental investigation of intermittent rotary ultrasonic machining, Key Engineering Materials 359-360 (2008) p. 425-430
Pei, Rotary ultrasonic machining of advanced ceramics, Materials Science Forum 532-533 (2006) p. 361-364
Shimamura, Ultrasonic machining with a diamond impregnated tool, Bulletin Japan Society of Precision Engineering 11 (3) (1977) p. 127-132
Online since: July 2020
Authors: Dominique Planson, Camille Sonneville, Luong Viet Phung, Besar Asllani, Pascal Bevilacqua
Brosselard, Edge termination design improvements for 10 kV 4H-SiC bipolar diodes
Materials Science Forum Vols. 740-742 (2013), 609-612
Le Ru, Spot Size Engineering in Microscope-Based Laser Spectroscopy, J.
Brosselard Precise automated semiconductor characterization under ambient control (PASHAC) – An advanced test bench for high-voltage semiconductor.
ISH – International Symposium on High Voltage Engineering, Pilsen, Czech Republic [9] Synopsys, (2019 09 19) Sentaurus TCAD, Retrieved from: https://www.synopsys.com/content/ dam/synopsys/silicon/datasheets/sentaurus_ds.pdf [10] J.
Phung Near breakdown voltage optical beam induced current (OBIC) on 4H-SiC bipolar diode Materials Science Forum Vol. 924 (2018) pp 577-580
Le Ru, Spot Size Engineering in Microscope-Based Laser Spectroscopy, J.
Brosselard Precise automated semiconductor characterization under ambient control (PASHAC) – An advanced test bench for high-voltage semiconductor.
ISH – International Symposium on High Voltage Engineering, Pilsen, Czech Republic [9] Synopsys, (2019 09 19) Sentaurus TCAD, Retrieved from: https://www.synopsys.com/content/ dam/synopsys/silicon/datasheets/sentaurus_ds.pdf [10] J.
Phung Near breakdown voltage optical beam induced current (OBIC) on 4H-SiC bipolar diode Materials Science Forum Vol. 924 (2018) pp 577-580
Online since: December 2005
Authors: Jan Vanhellemont, Olivier De Gryse, Paul Clauws, J. Lauwaert, P. Śpiewak, Piet Vanmeerbeek, Dirk Poelman, Igor Romandic, Antoon Theuwis, Steven Hens
Clauws1
1
Dep. of Solid State Sciences, Ghent University, Krijgslaan 281 S1, B-9000 Ghent, Belgium
2
Materials Design Division, Faculty of Materials Science and Engineering, Warsaw University of
Technology, Wołoska 141, 02-507 Warsaw, Poland
3
Umicore EOM, Watertorenstraat 33, B-2250 Olen, Belgium
a
jan.vanhellemont@telenet.be
Keywords: germanium, silicon, vacancies, voids, simulation, oxygen, precipitation, FTIR
Abstract.
Due to its higher intrinsic carrier mobility compared to silicon, however, the use of moderately doped germanium based substrates is being reconsidered for application in advanced nano-electronic devices. 200 and 300 mm germanium (001) oriented dislocation free substrates have recently become available and germanium on insulator (GeOI) substrates are being developed [1].
Mijlemans: Defect and Diffusion Forum 230-232 (2004), p. 149 [3] A.
Forum 15-18 (1987), p. 369 [15] H.D.
Dupret: Material Science and Engineering 28 (2000), p. 149 [29] S.
Due to its higher intrinsic carrier mobility compared to silicon, however, the use of moderately doped germanium based substrates is being reconsidered for application in advanced nano-electronic devices. 200 and 300 mm germanium (001) oriented dislocation free substrates have recently become available and germanium on insulator (GeOI) substrates are being developed [1].
Mijlemans: Defect and Diffusion Forum 230-232 (2004), p. 149 [3] A.
Forum 15-18 (1987), p. 369 [15] H.D.
Dupret: Material Science and Engineering 28 (2000), p. 149 [29] S.
Online since: March 2009
Authors: Ignacy Wierszyłłowski, Waldemar Niemczyk
Paulin: Cutting Tool Engineering, August (1992), p. 625.
Marcinkowska: Defekt and Diffusion Forum (2007), p. 731
School of Advanced Materials Engineering, Koknin University of Seoul
Marcinkowska: Defect and Diffusion Forum (2007), p. 724.
Marcinkowska: Defekt and Diffusion Forum (2007), p. 731
School of Advanced Materials Engineering, Koknin University of Seoul
Marcinkowska: Defect and Diffusion Forum (2007), p. 724.