Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2026
Authors: Patrick Fiorenza, Fabrizio Roccaforte, Enzo Fontana, Nicolo Piluso, Andrea Severino, Mario S. Alessandrino, Cristiano Calabretta, Beatrice Carbone, Alfio Russo, Cettina Bottari, Fabiana Vento, Giovanni Maira, Salvatore Adamo
Despite efforts to mitigate BPD effects by converting them into threading edge dislocations (TEDs) via buffer layer engineering, throughout the epitaxial growth SSFs can still nucleate and propagate, particularly under high current injection.
The results underscore the critical role of advanced diagnostics and epitaxial process optimization in controlling SSF-related degradation and improving the reliability of SiC power devices.
Materials Science Forum.
Materials Science Forum.
Advanced diagnostic techniques, particularly μ-PL mapping, provide detailed spatial and spectral insights into the morphology and crystallographic nature of 1SSF within the epitaxial layers.
The results underscore the critical role of advanced diagnostics and epitaxial process optimization in controlling SSF-related degradation and improving the reliability of SiC power devices.
Materials Science Forum.
Materials Science Forum.
Advanced diagnostic techniques, particularly μ-PL mapping, provide detailed spatial and spectral insights into the morphology and crystallographic nature of 1SSF within the epitaxial layers.
Online since: January 2018
Authors: Athanasios G. Mamalis
Advanced Manufacturing from Macro- to Nanoscale:
Impact and Shock Loading
Academician Prof.
Mamalis Project Center for Nanotechnology and Advanced Engineering, NCSR “Demokritos”, Greece a.mamalis@inn.demokritos.gr Keywords: advanced manufacturing, nanotechnology, ultraprecision engineering, shock loading, nanodiamonds, superconductors, explosives, bioengineering, safety, transport, energy.
Trends and developments in advanced manufacturing from macro- to nanoscale, mainly associated with nanotechnology, precision/ultraprecision manufacturing and advanced materials under low/high speed impact and shock loading, with industrial applications to net-shape manufacturing, biomedical engineering, energy and transport, an outcome of the very extensive work over 40 years on these fields performed by the author and his research international team, are briefly outlined in the present Plenary Lecture of the 5th ESHP 2016 Symposium. 1.
(ii) Biomedical engineering: Diamond nanoplatforms are used for targeted delivery of diagnostic and therapeutic agents in oncology, see Fig. 2(c) [4].
Mamalis, “Engineering Plasticity: Theory of Metal Forming Processes”, Springer-Verlag (CISM Courses and Lectures No 139), Wien, (1977), pp. 345 [2] A.G.
Mamalis Project Center for Nanotechnology and Advanced Engineering, NCSR “Demokritos”, Greece a.mamalis@inn.demokritos.gr Keywords: advanced manufacturing, nanotechnology, ultraprecision engineering, shock loading, nanodiamonds, superconductors, explosives, bioengineering, safety, transport, energy.
Trends and developments in advanced manufacturing from macro- to nanoscale, mainly associated with nanotechnology, precision/ultraprecision manufacturing and advanced materials under low/high speed impact and shock loading, with industrial applications to net-shape manufacturing, biomedical engineering, energy and transport, an outcome of the very extensive work over 40 years on these fields performed by the author and his research international team, are briefly outlined in the present Plenary Lecture of the 5th ESHP 2016 Symposium. 1.
(ii) Biomedical engineering: Diamond nanoplatforms are used for targeted delivery of diagnostic and therapeutic agents in oncology, see Fig. 2(c) [4].
Mamalis, “Engineering Plasticity: Theory of Metal Forming Processes”, Springer-Verlag (CISM Courses and Lectures No 139), Wien, (1977), pp. 345 [2] A.G.
Online since: September 2013
Authors: Xi Cheng Zhao, Ya Juan Zhao, Yuan Ru Jiang, Zhao Li, Ke Xu
Research advances on Application status and Non-thermal Efficiency of Microwave pyrolysis
Xi-cheng Zhao1,a, Zhao Li2,b, Yuan-ru Jiang3,c, Ke Xu3,d and Ya-juan Zhao3,e
1College of Metallurgical Engineering,China
2 College of Materials and Mineral Resources,China
3 School of Science, Xi an University of Architecture And Technology, Xi an 710055,China
azhaoxjd@163.com bpylizhao@163.com cjiangyuanru@sina.com
Kyewords: microwave pyrolysis; application; non-thermal
Abstract:The progress of the application of microwave pyrolysis in China and oversea is reviewed.
Forum Vol. 24(2008), p. 662 [7] Lan Xinzhe, Liu Qiaoni and Song Yonghui: Coal Conversion.
Forum Vol. 22(2001), p. 6 [10] Yang Xiaoqing, Huang Kama: Materials Review.
Forum Vol.
Forum Vol. 53(2006), p. 453
Forum Vol. 24(2008), p. 662 [7] Lan Xinzhe, Liu Qiaoni and Song Yonghui: Coal Conversion.
Forum Vol. 22(2001), p. 6 [10] Yang Xiaoqing, Huang Kama: Materials Review.
Forum Vol.
Forum Vol. 53(2006), p. 453
Online since: December 2004
Authors: Hui Wu, S.Y. Yu, Hong Tao Zhu, Z.F. Wang, Bin Lin
Materials Science Forum Vols. *** (2004) pp.47-51
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Evaluation and Measurement of Surface/Subsurface Crack Damage
of Ground Ceramics
B.
Yu 1,e 1 Key Laboratory for Advanced Ceramics and Machining Technology of Ministry of Education, Tianjin University, Tianjin, 300072, China a linbinph@hotmail.com, bzhuhongtao8516@sina.com, cwuhui_tju@163.com, d fengzi_tianjin@eyou.com, eyusiyuan@eyou.com Keywords: Advanced ceramic, Surface/Subsurface crack damage, Evaluation Abstract.
By experiment, it is (a) (b) Fig.1 Si3N4 micro-crack damage on the side of grinding groove Advances in Materials Manufacturing Science and Technology 48 observed that the crack damage layer consists of three kinds of cracks: surface micro-crack, surface macro-crack and subsurface crack.
Fig.8 cDlg - palg change tendency lgap lgap Fragmen -tation ratio Fig.9 Change tendency of fragmentation ratio Materials Science Forum Vols. *** 51 A larger size of grid results in deeper damage, for instance, the effective depth of damage layer of 100 # grinding wheel is more than 320# grinding wheel's.
Meng: Nanotechnology and Precision Engineering Vol. 1 (2003), p. 48 (in Chinese) [3] B.
Yu 1,e 1 Key Laboratory for Advanced Ceramics and Machining Technology of Ministry of Education, Tianjin University, Tianjin, 300072, China a linbinph@hotmail.com, bzhuhongtao8516@sina.com, cwuhui_tju@163.com, d fengzi_tianjin@eyou.com, eyusiyuan@eyou.com Keywords: Advanced ceramic, Surface/Subsurface crack damage, Evaluation Abstract.
By experiment, it is (a) (b) Fig.1 Si3N4 micro-crack damage on the side of grinding groove Advances in Materials Manufacturing Science and Technology 48 observed that the crack damage layer consists of three kinds of cracks: surface micro-crack, surface macro-crack and subsurface crack.
Fig.8 cDlg - palg change tendency lgap lgap Fragmen -tation ratio Fig.9 Change tendency of fragmentation ratio Materials Science Forum Vols. *** 51 A larger size of grid results in deeper damage, for instance, the effective depth of damage layer of 100 # grinding wheel is more than 320# grinding wheel's.
Meng: Nanotechnology and Precision Engineering Vol. 1 (2003), p. 48 (in Chinese) [3] B.
Online since: May 2020
Preface
The International Congress on Advanced Materials Science and Engineering (AMSE-2019) covered the diverse topics of fields and many professors, company executives, researchers and young scientists came to Osaka this July for this material scientific event.
Alan Kin Tak Lau of Swinburne University of Technology, Australia delivered a presentation on Recent Development in Advanced Composite Materials Research · Dr.
It is hoped that this initiative will lead to other successful international meetings that will form the venue for discussion of the recent advances in material science and engineering.
Selvadurai FRSC, Keynote Speaker of AMSE-2019 William Scott Professor and Distinguished James McGill Professor Department of Civil Engineering and Applied Mechanics McGill University, Canada The International Congress on Advanced Materials Science and Engineering 2019 (AMSE-2019) was held at ANA Crowne Plaza Osaka from 22-24 July 2019.
The congress covered a wide range of subjects spanned from basic sciences to Engineering with a common philosophy, i.e., redefining the Future of Advanced Materials.
Alan Kin Tak Lau of Swinburne University of Technology, Australia delivered a presentation on Recent Development in Advanced Composite Materials Research · Dr.
It is hoped that this initiative will lead to other successful international meetings that will form the venue for discussion of the recent advances in material science and engineering.
Selvadurai FRSC, Keynote Speaker of AMSE-2019 William Scott Professor and Distinguished James McGill Professor Department of Civil Engineering and Applied Mechanics McGill University, Canada The International Congress on Advanced Materials Science and Engineering 2019 (AMSE-2019) was held at ANA Crowne Plaza Osaka from 22-24 July 2019.
The congress covered a wide range of subjects spanned from basic sciences to Engineering with a common philosophy, i.e., redefining the Future of Advanced Materials.
Online since: December 2010
Authors: Zhi Hong Li, Yu Mei Zhu, Peng Fei Wang, Kai Gao, Xue Song Li, Kai Yue Wang
Effect of Zn on the Photoluminescence of Polycrystalline
Diamond Compacts
Kai Gaoa, Zhihong Li, Pengfei Wang, Xuesong Li, Yumei Zhu and
Kaiyue Wang
Key Laboratory of Advanced Ceramics and Machining Technology, Ministry of Education, School of Material Science and Engineering, Tianjin University, Tianjin 300072, China
akai781231@yahoo.com.cn
Keywords: photoluminescence spectroscopy, inorganic compounds, powder metallurgy
Abstract.
Forum Vol. 18 (2009), p.56 [7] J.
Forum Vol. 8 (1999), p. 748 [8] H.
US Pat, Forum Vol. 3 (1966), p.816
Forum Vol. 206 (2009), p.535
Forum Vol. 18 (2009), p.56 [7] J.
Forum Vol. 8 (1999), p. 748 [8] H.
US Pat, Forum Vol. 3 (1966), p.816
Forum Vol. 206 (2009), p.535
Online since: October 2012
Edited by: Mustafizur Rahman, Erry Yulian Triblas Adesta, Yeakub Ali Mohammad, A.N. Mustafizul Karim, Md Abdul Maleque, Hazleen Anuar, Tasnim Firdaus Ariff, Mohammad Iqbal, Noorasikin Samat, Noor Azlina Hassan
This collection of peer-reviewed papers is the fruit of a forum where institutions and industries could share ideas, innovations and problem-solving techniques.
The 180 papers are grouped into: Material Removal Process; Forming Processes; Casting and Joining; Materials; High-Energy Beam Processing; Precision Engineering and Nanotechnology; Surface Engineering; Computer-Aided Engineering; Environmental Issues and Management in Manufacturing; Manufacturing Systems and Engineering; Value Analysis and Value Engineering; Fatigue and Fracture Mechanics.
The 180 papers are grouped into: Material Removal Process; Forming Processes; Casting and Joining; Materials; High-Energy Beam Processing; Precision Engineering and Nanotechnology; Surface Engineering; Computer-Aided Engineering; Environmental Issues and Management in Manufacturing; Manufacturing Systems and Engineering; Value Analysis and Value Engineering; Fatigue and Fracture Mechanics.
Online since: September 2013
Authors: Chun Long Cui, Jun Yi, Qian Liao
Study on Biosorption of Uranium by
Bacillus subtilis and Saccharomyces uvarum
Qian Liao1, a, Chunlong Cui2,b and Jun Yi3,c
1Academy of Life Science and Engineering, Southwest University of
Science and Technology, Mianyang 621010, China
2Academy of Civil Engineering and Architecture, Southwest University of
Science and Technology, Mianyang 621010, China
3Academy of Life Science and Engineering, Southwest University of
Science and Technology, Mianyang 621010, China.
Acknowledgments This work was financially supported by the National Natural Science Fund Committee & China Academy of Engineering Physics jointly funded projects (11176030), the National Defense Key Laboratory of funded projects.
Zhang: Advances in Radioactive Wastewater Treatment.
Forum Vol. 20 (2007), p. 35-37 [2] Q.F Li, M.X Liu, J.M Kang, et al: Advances in Interreaction between Microorganism and Radioactive Nuclide.
Journal of Nanhua University (Science & Engineering Edition).
Acknowledgments This work was financially supported by the National Natural Science Fund Committee & China Academy of Engineering Physics jointly funded projects (11176030), the National Defense Key Laboratory of funded projects.
Zhang: Advances in Radioactive Wastewater Treatment.
Forum Vol. 20 (2007), p. 35-37 [2] Q.F Li, M.X Liu, J.M Kang, et al: Advances in Interreaction between Microorganism and Radioactive Nuclide.
Journal of Nanhua University (Science & Engineering Edition).
Online since: March 2007
Authors: Katsutoshi Yamada, Kiyoshi Ijima, Kohmei Halada
Materials
engineering has enabled ecomaterials to evolve from ideas into practical solutions.
Furthermore, as ecomaterials in a broader sense, "Function materials for environmental protection" and "Materials for advanced energy systems (Energy saving materials)" [4] were introduced.
In our previous classification, ecomaterials produced with the least environmental burden possible in the manufacturing process was solely classified into the one category of "Materials with green environmental profile" whereas the difference between "Materials for advanced energy systems" and "Materials with high material-efficiency" has become less important recently.
Now let us clarify how the classification by Halada and Yamamoto corresponds to that of Ecomaterials Forum.
Conf. on EcoBalance, (ECOMATERIALS Forum, 2004), pp. 291-292 [9] K.Yamada, K.Halada and K.Ijima : Mater.
Furthermore, as ecomaterials in a broader sense, "Function materials for environmental protection" and "Materials for advanced energy systems (Energy saving materials)" [4] were introduced.
In our previous classification, ecomaterials produced with the least environmental burden possible in the manufacturing process was solely classified into the one category of "Materials with green environmental profile" whereas the difference between "Materials for advanced energy systems" and "Materials with high material-efficiency" has become less important recently.
Now let us clarify how the classification by Halada and Yamamoto corresponds to that of Ecomaterials Forum.
Conf. on EcoBalance, (ECOMATERIALS Forum, 2004), pp. 291-292 [9] K.Yamada, K.Halada and K.Ijima : Mater.
Online since: May 2017
Authors: Toru Ujihara, M. Tagawa, S. Xiao, Kenta Murayama, Tsukasa Hori, Shunta Harada
The crystal is devided into 4 different domains where macrosteps advanced to the different directions as indicated by the arrows.
This would explain the formation of the BPDs near the domain boundaries where macrosteps advanced to the different directions.
Forum 717-720 (2012) 45
Forum 615-617 (2009) 137
Forum 645-648 (2010) 13
This would explain the formation of the BPDs near the domain boundaries where macrosteps advanced to the different directions.
Forum 717-720 (2012) 45
Forum 615-617 (2009) 137
Forum 645-648 (2010) 13