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Online since: October 2010
Edited by: Pietro Vincenzini, David Ginley, Giovanni Bruno, Attilio Rigamonti, Nikolay Zheludev
The papers are conveniently arranged into TRANSPARENT CONDUCTING AND SEMICONDUCTING OXIDES, Materials Design and Device Development, Applications, MATERIALS FOR SOLID STATE LIGHTING, SCIENCE AND ENGINEERING OF NOVEL SUPERCONDUCTORS, ELECTROMAGNETIC METAMATERIALS.
This special volume has also been published online in the series, “Advances in Science and Technology” Vol. 76 via www.scientific.net.
This special volume has also been published online in the series, “Advances in Science and Technology” Vol. 76 via www.scientific.net.
Online since: October 2007
Authors: Anthony D. Rollett, Abhijit P. Brahme, C.G. Roberts
In its simplest form, the model is advanced one change of a voxel at a time, based
on the change in the system energy.
The system is advanced in time by allowing the value of each field variable to change in response to the gradient of the energy functional with respect to that variable.
Acknowledgements The support of the NSF-supported Materials Research Science & Engineering Center (MRSEC) at Carnegie Mellon under grant number DMR-0520425, the Alcoa Technical Center, the U.S.
Manohar: in Continuum scale simulation of engineering materials, (Eds: D.
Forum Vol. 28, (2004), p. 1173
The system is advanced in time by allowing the value of each field variable to change in response to the gradient of the energy functional with respect to that variable.
Acknowledgements The support of the NSF-supported Materials Research Science & Engineering Center (MRSEC) at Carnegie Mellon under grant number DMR-0520425, the Alcoa Technical Center, the U.S.
Manohar: in Continuum scale simulation of engineering materials, (Eds: D.
Forum Vol. 28, (2004), p. 1173
Online since: April 2009
Authors: Jing Tian, Li Juan Xu, Yu Yong Chen, Fan Tao Kong, Yan Fei Chen, Shu Long Xiao
However, cast Ti-48Al-2Cr-2Nb
cannot for engineering application due to low plasticity and low strength coming from coarse lamellar.
An advanced TiAl alloy with the composition Ti-47Al-4(Nb, Mn, Cr, Si, B) were carried out in GKSS by spray forming experiments.
Plansee has developed an advanced sheet rolling process for TiAl alloys which allows processing on a conventional hot-rolling mill within the α+γ zone at low rolling speeds[61].
However, there is a persistent need to the transfer from experimental research to engineering components.
Forum Vol. 29 (2005), p. 17 [10] A.
An advanced TiAl alloy with the composition Ti-47Al-4(Nb, Mn, Cr, Si, B) were carried out in GKSS by spray forming experiments.
Plansee has developed an advanced sheet rolling process for TiAl alloys which allows processing on a conventional hot-rolling mill within the α+γ zone at low rolling speeds[61].
However, there is a persistent need to the transfer from experimental research to engineering components.
Forum Vol. 29 (2005), p. 17 [10] A.
Online since: March 2015
Authors: Josef Meinhardt, Arnulf Lipp, Stephan Purr, Axel Werner, Martin Ostermair, Bernhard Glück
Mitschang, Data Mining-driven Manufacturing Process Optimization, in: Proceedings of the World Congress on Engineering 2012 Vol III WCE 2012 Conference, London, 2012
Scheffler, Process monitoring and closed loop controlled process, in: Archives of civil and mechanical engineering Vol. 9 No. 2 (2009) 105-126
Kerschner, Automatic Process Control in Press Shops, in: Key Engineering Materials Vol. 344, 2007, p. 881-888
Advanced Technologies, CRC Press, Boca Raton, 2009, p. 265-269
Bilstein, Advanced sensor for on-line topography in continuous annealing lines, in: Revue de Métallurgie 103 (2006) 233-237
Scheffler, Process monitoring and closed loop controlled process, in: Archives of civil and mechanical engineering Vol. 9 No. 2 (2009) 105-126
Kerschner, Automatic Process Control in Press Shops, in: Key Engineering Materials Vol. 344, 2007, p. 881-888
Advanced Technologies, CRC Press, Boca Raton, 2009, p. 265-269
Bilstein, Advanced sensor for on-line topography in continuous annealing lines, in: Revue de Métallurgie 103 (2006) 233-237
Online since: January 2010
Authors: Yue Xin Han, Li Xia Li, Li Mei Bai
Controlling Mechanism of Soluble Phosphates
During CaCO3 Whiskers synthesis
Lixia Li1, a
, Yuexin Han
1,b and Limei Bai 2,c
1
School of Resources & Civil Engineering, Northeastern University, Shenyang 110004, China
2
College of Resources and Environment, Hebei Polytechnic University,Tangshan 063009,
China
a lilixia@mail.neu.edu.cn,
b
hanyuexin@mail.neu.edu.cn,
c limeibai@126.com
Keywords: soluble phosphate; aragonite; calcium carbonate whiskers; mechanism;
hydroxyapatite
Abstract.
CaCO3 whiskers were synthesized with soluble phosphates by one-step carbonization method, controlling mechanisms were investigated via XRD and FTIR, and it has been indicated that the most stable calcium phosphates in thermodynamics, hydroxyapatite was formed through the reaction of soluble phosphates and Ca(OH)2 in advance before CO2 was introduced, and then [CO32- (OH)] entered the crystal lattices of hydroxyapatite to replace partially [PO43- ] to yield B-carbonate hydroxyapatite in the early stage of blowing CO2, which induced aragonite to heterogeneously nucleate as nucleation center and grew into calcium carbonate whiskers by the continuous stack of Ca2+ and CO32- , while other HA selectly adsorbed onto the flanks of CaCO3 to control crystal morphology. 1.
Shoutian: Rare Metal Materials and Engineering Vol. 29 (2000), p. 398-402 [12] M.
Yunfa: China Forum on Nano Technology Application, Beijing 2004
CaCO3 whiskers were synthesized with soluble phosphates by one-step carbonization method, controlling mechanisms were investigated via XRD and FTIR, and it has been indicated that the most stable calcium phosphates in thermodynamics, hydroxyapatite was formed through the reaction of soluble phosphates and Ca(OH)2 in advance before CO2 was introduced, and then [CO32- (OH)] entered the crystal lattices of hydroxyapatite to replace partially [PO43- ] to yield B-carbonate hydroxyapatite in the early stage of blowing CO2, which induced aragonite to heterogeneously nucleate as nucleation center and grew into calcium carbonate whiskers by the continuous stack of Ca2+ and CO32- , while other HA selectly adsorbed onto the flanks of CaCO3 to control crystal morphology. 1.
Shoutian: Rare Metal Materials and Engineering Vol. 29 (2000), p. 398-402 [12] M.
Yunfa: China Forum on Nano Technology Application, Beijing 2004
Online since: November 2013
Authors: Paul Kah, Markku Pirinen, Raimo Suoranta, Jukka Martikainen
Quenched and Tempered steels (QT), Direct Quenched steels (DQ), Thermo-Mechanical Control Process steels (TMCP), High Strength and Ultra High Strength Low Alloy steels (HSLA) and some engineered UHSS called Advanced High Strength Steels (Dual Phase, Complex Phase, Martensitic steels etc.) are all steels which can be considered as belonging to the UHSS classification on the basis of their excellent tensile strength.
The higher crash energy absorption, high strength (lower weight) and enhanced formability of advanced high strength steels (AHSS) have attracted the attention of the automotive industry.
[3] World Auto Steel, 2009, "Projects: Advanced High Strength Steel Application Guidlines version 4.0," URL: http://www.worldautosteel.org/
K., 2008, "Influence of bainite/Martensite content on the tensile properties of low carbon dual phase steels," Material Science and Engineering, 474, (1-2) pp. 270-282
M., and Dilmore, M., 2006, 2006, "Steel with high strength and toughness," Advanced Materials & Processes, 164 (7) pp. 33-38
The higher crash energy absorption, high strength (lower weight) and enhanced formability of advanced high strength steels (AHSS) have attracted the attention of the automotive industry.
[3] World Auto Steel, 2009, "Projects: Advanced High Strength Steel Application Guidlines version 4.0," URL: http://www.worldautosteel.org/
K., 2008, "Influence of bainite/Martensite content on the tensile properties of low carbon dual phase steels," Material Science and Engineering, 474, (1-2) pp. 270-282
M., and Dilmore, M., 2006, 2006, "Steel with high strength and toughness," Advanced Materials & Processes, 164 (7) pp. 33-38
Online since: April 2019
Authors: Elena Pivarčiová, Emil Škultéty, Ladislav Karrach
Advanced Materials Research, 1036 (2014), pp. 715–720
International Journal of Advanced Robotic Systems, 1–2(2018) 1–15
Advances in Production Engineering & Management 12, 3(2017), 233–244
International Research Journal of Engineering and Technology 3, 10(2016) 1238–1241
Procedia Engineering 132 (2015) 911–917
International Journal of Advanced Robotic Systems, 1–2(2018) 1–15
Advances in Production Engineering & Management 12, 3(2017), 233–244
International Research Journal of Engineering and Technology 3, 10(2016) 1238–1241
Procedia Engineering 132 (2015) 911–917
Online since: December 2024
Authors: Fernando M. Duarte, Manuela Almeida, Harish Daruari, Paulo Mendonca, Lucas Lopes
This paper outlines the processing of waste, material engineering, rapid prototyping, and digital fabrication.
This work was partly financed by FCT/MCTES through national funds (PIDDAC) under the R&D Unit Institute for Sustainability and Innovation in Structural Engineering (ISISE), under reference UIDB/04029/2020, and under the Associate Laboratory Advanced Production and Intelligent Systems ARISE under reference LA/P/0112/2020.
Dhengare, “Investigating the Application of Waste Plastic Bottle as a Construction Material: A Review,” Journal of Advance Research in Mechanical & Civil Engineering, vol. 2, no. 3, pp. 86–99, Mar. 2015, doi: 10.53555/NNMCE.V2I3.362
Hernandez, “A Review of Additive Manufacturing,” ISRN Mechanical Engineering, vol. 2012, pp. 1–10, Aug. 2012, doi: 10.5402/2012/208760
Knaack, “Additive Manufacturing for Future Facades: The potential of 3D printed parts for the building envelope,” Journal of Facade Design and Engineering, vol. 3, no. 3–4, pp. 225–235, Jun. 2016, doi: 10.3233/FDE-150042
This work was partly financed by FCT/MCTES through national funds (PIDDAC) under the R&D Unit Institute for Sustainability and Innovation in Structural Engineering (ISISE), under reference UIDB/04029/2020, and under the Associate Laboratory Advanced Production and Intelligent Systems ARISE under reference LA/P/0112/2020.
Dhengare, “Investigating the Application of Waste Plastic Bottle as a Construction Material: A Review,” Journal of Advance Research in Mechanical & Civil Engineering, vol. 2, no. 3, pp. 86–99, Mar. 2015, doi: 10.53555/NNMCE.V2I3.362
Hernandez, “A Review of Additive Manufacturing,” ISRN Mechanical Engineering, vol. 2012, pp. 1–10, Aug. 2012, doi: 10.5402/2012/208760
Knaack, “Additive Manufacturing for Future Facades: The potential of 3D printed parts for the building envelope,” Journal of Facade Design and Engineering, vol. 3, no. 3–4, pp. 225–235, Jun. 2016, doi: 10.3233/FDE-150042
Online since: July 2022
Authors: Habib Khellafi, El Bahri Ould Chikh, Hadj Miloud Meddah, Djilali Bouha, Abdellah Kaou
This process found its way into becoming one of the most fascinating engineering subjects of today.
Jatti, Friction Stir Welding of Polymer, international journal of advance research in science engineering, Vol n 6, Issue n 09, 2017
(eds) 2nd International Conference on Mechanical, Manufacturing and Process Plant Engineering.
Lecture Notes in Mechanical Engineering.
Forum 2010
Jatti, Friction Stir Welding of Polymer, international journal of advance research in science engineering, Vol n 6, Issue n 09, 2017
(eds) 2nd International Conference on Mechanical, Manufacturing and Process Plant Engineering.
Lecture Notes in Mechanical Engineering.
Forum 2010
Online since: August 2013
Authors: Shao Quan Li, Yi Fu Liu, Feng Wang, Guo Hong Nie, Qing Song Li
Discussion on the Outburst Identification of Coal and Gas
Shao-quan Li1,2,3,a, Yi-fu Liu4,b, Feng Wang4,c, Guo-hong Nie2,3,d, Qing-song Li2,3,e
1China University of Mining and Technology, Beijing 100083, China
2Guizhou Provincial Academy of Mine Safety Sciences, Guiyang, Guizhou 550025, China
3Guizhou Province Engineering Technology Research Center for Coal Gas Prevention ﹠ Control, Guiyang, Guizhou 550025,China
4Guizhou University, Guiyang, Guizhou 550025, China
a1659428299@qq.com, b519008830@qq.com, c645971194@qq.com, d928660933@qq.com, e13608615@qq.com
Keywords: Coal and gas outburst identification; Identification method; Identification Index; Authenticating method
Abstract.
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.