Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2023
Authors: Dmytro Beliuchenko, Kateryna Tishechkina, Tetiana Hannichenko, Olga Salamatina
Korytchenko et al., Advanced detonation gun application for aluminum oxide coating , Multidisciplinary journal "Functional Materials", 27 (1) (2020) 224–229
Shcherban, Dehydration factor upon activation of building sand by ultraviolet radiation, Materials Science and Engineering, 896 (2020) 1–6
Guo, Carbon dioxide-hardened sodium silicate-bonded sand regeneration using calcium carbide slag, The design and feasibility study, Journal of Environmental Chemical Engineering, 10 (2022)
Li, Engineering characteristics of water-bearing weakly cemented sandstone and dewatering technology in tunnel excavation, Tunneling and Underground Space Technology, 121 (2022) 36–51
Mahaswa, Maizirwan Mel, Analysis of the Sand Drying Process in the Biomass-Energized Rotary Drying Machine, Mechanical Engineering and Renewable Energy, 58 93–100
Shcherban, Dehydration factor upon activation of building sand by ultraviolet radiation, Materials Science and Engineering, 896 (2020) 1–6
Guo, Carbon dioxide-hardened sodium silicate-bonded sand regeneration using calcium carbide slag, The design and feasibility study, Journal of Environmental Chemical Engineering, 10 (2022)
Li, Engineering characteristics of water-bearing weakly cemented sandstone and dewatering technology in tunnel excavation, Tunneling and Underground Space Technology, 121 (2022) 36–51
Mahaswa, Maizirwan Mel, Analysis of the Sand Drying Process in the Biomass-Energized Rotary Drying Machine, Mechanical Engineering and Renewable Energy, 58 93–100
Online since: September 2025
Authors: Julian Zöcklein, Jonas Ihle, Sven Strüber, Johannes Steiner, Peter J. Wellmann
In principle, X-ray in-situ visualization methods in 2D and 3D [11-13] have been demonstrated since many years, but only few growth facilities are using these advanced methods.
In addition, also the heat conductivity of the source material has been studied using advanced physical models [4, 16].
Zhmakin, Mat.Sci.Forum, 264-268, 61 (1998) [8] M.
Wellmann, Advanced Engineering Materials, ja, 1900778 (2019) [14] M.
Wellmann, Materials Science Forum, 924, 245 (2018)
In addition, also the heat conductivity of the source material has been studied using advanced physical models [4, 16].
Zhmakin, Mat.Sci.Forum, 264-268, 61 (1998) [8] M.
Wellmann, Advanced Engineering Materials, ja, 1900778 (2019) [14] M.
Wellmann, Materials Science Forum, 924, 245 (2018)
Online since: May 2019
Preface
The 9th International Conference on Advanced Materials Research (ICAMR 2019) was held from 24-27 January 2019 at the Shaw Foundation Alumni House at the National University of Singapore in Singapore.
The objective of ICAMR 2019 was to bring together academics, scientists and other professionals from around the world in an interdisciplinary forum to discuss the latest innovations and scientific discoveries covering all aspects of advanced materials research.
Krishnamurthy, The National Institute of Engineering, India Mohamed Haneef, Ghousia College of Engineering, India Zeki Candan, Istanbul University, Turkey Ren-Kae Shiue, National Taiwan University, Taiwan Mounir Gaidi, University of Sharjah, United Arab Emirates Boumerzoug Zakaria, University of Biskra, Algeria Hao Wang,Northeastern University, China Noor Irinah Omar, Universiti Teknikal Malaysia Melaka, Malaysia Hsieh Ya-Ping, National Chung Cheng University, Taiwan Hwan-Jin Jeon, Korea Polytechnic University, Korea Chantaraporn Phalakornkule, Prince of Songkla University, Thailand Maw-Tien Lee, National Chiayi University, Taiwan Meng-Ting Tsai, National Taiwan University of Science and Technology, Taiwan Chanthima Phungamngoen, King Mongkut’s University of Technology North Bangkok, Thailand Vorrada Loryuenyong, Silpakorn University, Thailand Sawanit Aichayawanich, King Mongkut’s University of Technology North Bangkok, Thailand Zhi Zeng, University of Electronic Science
Mahmoud, Ankara Yildirim Beyazit University& University of Diyala, Iraq Se-Jin Choi, Wonkwang University, South Korea Heba Mansour, Sultan Qaboos university, Oman Jiaoxia Sun, Chongqing Jiaotong Universiy, China Samson Jerold Samuel Chelladurai, Sri Krishna College of Engineering and Technology, India Yung Ting, Chung Yuan Christian University Chung li, Taiwan Osama Ahmed Mohamed, Abu Dhabi University, United Arab Emirates Ming-Chung Wu, Chang Gung University, Taiwan Alaa M.
Ali, Misr High Institute for Engineering and Technology, Egypt Apostolopoulos Charis, University of Patra, Greece Mohammad Arif Kamal, Aligarh Muslim University, India Bolanle Deborah Ikotun, University of South Africa, South Africa Najib Saliba, University of Balamand, Lebanon Mahdi Kioumarsi, Oslo Metropolitan University, Norway Monowar Hussain, NIT, India M.L.Vara Prasad, National Institute of Technology Silchar, India Siavash Fakhretaha Aval, University of Massachusetts Dartmouth, USA Khwairakpam Lakshman Singh, National Institute of Technology Silchar, India Ming-Chung Wu, Chang Gung University, Taiwan Ting Teo Ming, Radiation Technology Division, Malaysia
The objective of ICAMR 2019 was to bring together academics, scientists and other professionals from around the world in an interdisciplinary forum to discuss the latest innovations and scientific discoveries covering all aspects of advanced materials research.
Krishnamurthy, The National Institute of Engineering, India Mohamed Haneef, Ghousia College of Engineering, India Zeki Candan, Istanbul University, Turkey Ren-Kae Shiue, National Taiwan University, Taiwan Mounir Gaidi, University of Sharjah, United Arab Emirates Boumerzoug Zakaria, University of Biskra, Algeria Hao Wang,Northeastern University, China Noor Irinah Omar, Universiti Teknikal Malaysia Melaka, Malaysia Hsieh Ya-Ping, National Chung Cheng University, Taiwan Hwan-Jin Jeon, Korea Polytechnic University, Korea Chantaraporn Phalakornkule, Prince of Songkla University, Thailand Maw-Tien Lee, National Chiayi University, Taiwan Meng-Ting Tsai, National Taiwan University of Science and Technology, Taiwan Chanthima Phungamngoen, King Mongkut’s University of Technology North Bangkok, Thailand Vorrada Loryuenyong, Silpakorn University, Thailand Sawanit Aichayawanich, King Mongkut’s University of Technology North Bangkok, Thailand Zhi Zeng, University of Electronic Science
Mahmoud, Ankara Yildirim Beyazit University& University of Diyala, Iraq Se-Jin Choi, Wonkwang University, South Korea Heba Mansour, Sultan Qaboos university, Oman Jiaoxia Sun, Chongqing Jiaotong Universiy, China Samson Jerold Samuel Chelladurai, Sri Krishna College of Engineering and Technology, India Yung Ting, Chung Yuan Christian University Chung li, Taiwan Osama Ahmed Mohamed, Abu Dhabi University, United Arab Emirates Ming-Chung Wu, Chang Gung University, Taiwan Alaa M.
Ali, Misr High Institute for Engineering and Technology, Egypt Apostolopoulos Charis, University of Patra, Greece Mohammad Arif Kamal, Aligarh Muslim University, India Bolanle Deborah Ikotun, University of South Africa, South Africa Najib Saliba, University of Balamand, Lebanon Mahdi Kioumarsi, Oslo Metropolitan University, Norway Monowar Hussain, NIT, India M.L.Vara Prasad, National Institute of Technology Silchar, India Siavash Fakhretaha Aval, University of Massachusetts Dartmouth, USA Khwairakpam Lakshman Singh, National Institute of Technology Silchar, India Ming-Chung Wu, Chang Gung University, Taiwan Ting Teo Ming, Radiation Technology Division, Malaysia
Online since: January 2012
Authors: Cathy Elissalde, A. Peigney, Ch. Laurent, M. Maglione, Djar Oquab, Daniel Monceau, Philippe Miele, Claude Estournès, Christophe Drouet, D. Grossin, Mathieu Boidot, Serge Selezneff, U Chan Chung, F. Roulland, J. Gurt-Santanach, G. Chevallier, A. Weibel, R. Chaim
Schweitzer, F-33608 Pessac Cedex, France
4 Department of Materials Engineering, Technion – Israel Institute of Technology, Haifa 32000, Israel
5 LMI, UMR CNRS 5615, Université Claude Bernard-Lyon 1, 43 bvd du 11 novembre 1918, 69622 Villeurbanne Cedex, France
6 Université de Toulouse, UMR CNRS-UPS-INP 5085, CIRIMAT, Université Paul-Sabatier, Bât. 2R1, 118 route de Narbonne, 31062 Toulouse cedex 9, France
Kewords: Nanomaterials, Spark Plasma Sintering, Mechanisms, Ceramics, Coatings
Abstract In the field of advanced ceramics, Spark Plasma Sintering (SPS) is known to be very efficient for superfast and full densification of ceramic nanopowders.
Forum 308–311, 1999, 83
Estournès, Materials Science and Engineering: A, 527(6), 2010, 1577
Monceau, Advanced Engineering Materials 9(5), 2007, 413
Estournès, Materials Science Forum Vols 595-598 2008, 143
Forum 308–311, 1999, 83
Estournès, Materials Science and Engineering: A, 527(6), 2010, 1577
Monceau, Advanced Engineering Materials 9(5), 2007, 413
Estournès, Materials Science Forum Vols 595-598 2008, 143
Online since: June 2010
Authors: Zheng Hong Guo, Yong Hua Rong, Ying Wang, Shu Zhou
Study of a Novel Ultra-High Strength Steel with Adequate Ductility and
Toughness by Quenching-Partitioning-Tempering Process
Ying Wang1 , Shu Zhou
1, Zhenghong Guo1, Yonghua Rong
1, a
1
School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240,
China
a
yhrong@sjtu.edu.cn
Keywords: Ultra-high strength steel, Q-P-T process, mechanical properties, microstructure,
characterization
Abstract.
The results indicate that the Q-P-T steel exhibits ultra-high tensile strength combining with good ductility and toughness, and it is a new family of advanced high-strength steels.
Based on the comprehensive mechanical properties of the Q-P-T steel designed by the composite microstructure of martensite and austenite, the Q-P-T steel studied in this work is further verified to be a new family of advanced structural steels.
De Cooman, Proceedings of the International Conference on Advanced High Strength Sheet Steels for Automotive Applications, 2004, p. 51
Forum, Vol. 561-565 (2007), p. 2283
The results indicate that the Q-P-T steel exhibits ultra-high tensile strength combining with good ductility and toughness, and it is a new family of advanced high-strength steels.
Based on the comprehensive mechanical properties of the Q-P-T steel designed by the composite microstructure of martensite and austenite, the Q-P-T steel studied in this work is further verified to be a new family of advanced structural steels.
De Cooman, Proceedings of the International Conference on Advanced High Strength Sheet Steels for Automotive Applications, 2004, p. 51
Forum, Vol. 561-565 (2007), p. 2283
Online since: February 2011
Authors: Pei Bian, Dong Ying Ju, G. An, T. Kumazawa, M. Okasabe
., LTD, 77 Shinarami, Tai,Kumiyama-cho, Kuse-gun, Kyoto, Japan
2 Advance Science Institute, Saitama Institute of Technology, Fusaiji 1690, Fukaya, Saitama, Japan.
Introduction Magnetic nanoparticles dispersed in various liquid media, widely known as magnetic fluids or ferrofluids with both magnetic and liquid properties, are materials of great interest for numerous physical and engineering applications such as grinding materials, magnetic controllers, magnetic sensors, and biomedicine fields and so on.
He, Magnetite Nanoparticles Surface Coating SiO2 and Magnetic Properties Evaluation, Key Engineering Materials, Vols. 368-372, pp.1366-1369(2008) [2] D.
Nemoto, Fabrication of Magnetite Nanoparticals and Drug Delivery Observation of Hydrophobe Ferrofluid by SPring-8 Synchrotron Radiation, Materials Science Forum, Vol.614,pp.229-232(2009) [3] S.
West, “Implantable, polymeric systems for modulated drug delivery,” Advanced Drug Delivery Reviews, Vol. 54, No. 9, pp. 1225–1235, 2002
Introduction Magnetic nanoparticles dispersed in various liquid media, widely known as magnetic fluids or ferrofluids with both magnetic and liquid properties, are materials of great interest for numerous physical and engineering applications such as grinding materials, magnetic controllers, magnetic sensors, and biomedicine fields and so on.
He, Magnetite Nanoparticles Surface Coating SiO2 and Magnetic Properties Evaluation, Key Engineering Materials, Vols. 368-372, pp.1366-1369(2008) [2] D.
Nemoto, Fabrication of Magnetite Nanoparticals and Drug Delivery Observation of Hydrophobe Ferrofluid by SPring-8 Synchrotron Radiation, Materials Science Forum, Vol.614,pp.229-232(2009) [3] S.
West, “Implantable, polymeric systems for modulated drug delivery,” Advanced Drug Delivery Reviews, Vol. 54, No. 9, pp. 1225–1235, 2002
Online since: August 2014
Authors: Azlan Abdul Aziz, Sodipo Bashiru Kayode
Mohammad, Advanced Drug Delivery Reviews 63 (2011) 789-808
Sodipo, Materials Science Forum 756 (2013) 74-79
Li, Colloids and Surfaces A: Physicochemical and Engineering Aspects 302 (2007) 366-370
Azlan, Advanced Materials Research (In press)
Zhou, Chemical Engineering Journal 226 (2013) 30-38
Sodipo, Materials Science Forum 756 (2013) 74-79
Li, Colloids and Surfaces A: Physicochemical and Engineering Aspects 302 (2007) 366-370
Azlan, Advanced Materials Research (In press)
Zhou, Chemical Engineering Journal 226 (2013) 30-38
Rheological Properties and Microstructure of PH1 Stainless Steel Produced by Selective Laser Melting
Online since: May 2020
Authors: Sergei Gladkovsky, Vladimir P. Volkov, Denis Rinatovich Salikhyanov, Yurij A. Avraamov, Valeriya E. Veselova
Yeltsin, 28 Mira St., Ekaterinburg, Russian Federation
3Regional Engineering Centre of Additive Technologies, Ural Federal University named after the first President of Russia B.N.
Specimens from PH1 stainless steel was produced on the EOSINT M 280 additive machine by SLM method at the Regional Engineering Centre of Additive Technologies Ural Federal University.
Pityana, Revolutionary additive manufacturing: an overview, Lasers in Engineering. 27 (2014) 161-178
Krishnan, Effects of Aging on the Microstructure of 17-4 PH Stainless Steel, Materials Science and Engineering A. 104 (1988) 181-189
High pressure interpass rolling of Wire + Arc Additively Manufactured titanium components, Advanced Materials Research. 996 (2014) 694-700
Specimens from PH1 stainless steel was produced on the EOSINT M 280 additive machine by SLM method at the Regional Engineering Centre of Additive Technologies Ural Federal University.
Pityana, Revolutionary additive manufacturing: an overview, Lasers in Engineering. 27 (2014) 161-178
Krishnan, Effects of Aging on the Microstructure of 17-4 PH Stainless Steel, Materials Science and Engineering A. 104 (1988) 181-189
High pressure interpass rolling of Wire + Arc Additively Manufactured titanium components, Advanced Materials Research. 996 (2014) 694-700
Online since: January 2010
Authors: D.V. Edmonds
Advanced Bainitic and Martensitic Steels with Carbide-Free
Microstructures Containing Retained Austenite
D.
Recent decades have witnessed some remarkable advances in engineering steels driven by the need to respond to challenges posed, for example, by recovery and transmission of oil and gas, or enhanced vehicle safety and fuel economy.
Advanced High-Strength Automotive Steels: Dual Phase (DP) Steels.
Forum Vol. 284 (1995), p. 419 [11] K.
Fekete et al., in *ew Developments in Advanced High-Strength Sheet Steels, edited by J.G.
Recent decades have witnessed some remarkable advances in engineering steels driven by the need to respond to challenges posed, for example, by recovery and transmission of oil and gas, or enhanced vehicle safety and fuel economy.
Advanced High-Strength Automotive Steels: Dual Phase (DP) Steels.
Forum Vol. 284 (1995), p. 419 [11] K.
Fekete et al., in *ew Developments in Advanced High-Strength Sheet Steels, edited by J.G.
Online since: May 2012
Preface
The International Conference on Civil Engineering, Architecture and Building
Materials 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 of Civil Engineering, Architecture and Building Materials.
Following the success of the inaugural conference, the 2nd CEABM was held in Yantai, China, from 25 to 27 May 2012, organized by School of Civil Engineering of Yantai University, College of Civil and Architecture Engineering of Guizhou University and Hainan Society of Theoretical and Applied Mechanics.
This conference was organized in four simultaneous tracks: "Progress in Civil Engineering", "Progress in Structures", "Advanced Building Materials and Sustainable Architecture" and "Sustainable Environment and Transportation".
The Organizing Committee of CEABM 2012 Organized by: School of Civil Engineering, Yantai University College of Civil and Architecture Engineering, Guizhou University Hainan Society of Theoretical and Applied Mechanics Conference Organization Chairman Prof.
Shilang Xu, Zhejiang University, China Senior Engineer.
Following the success of the inaugural conference, the 2nd CEABM was held in Yantai, China, from 25 to 27 May 2012, organized by School of Civil Engineering of Yantai University, College of Civil and Architecture Engineering of Guizhou University and Hainan Society of Theoretical and Applied Mechanics.
This conference was organized in four simultaneous tracks: "Progress in Civil Engineering", "Progress in Structures", "Advanced Building Materials and Sustainable Architecture" and "Sustainable Environment and Transportation".
The Organizing Committee of CEABM 2012 Organized by: School of Civil Engineering, Yantai University College of Civil and Architecture Engineering, Guizhou University Hainan Society of Theoretical and Applied Mechanics Conference Organization Chairman Prof.
Shilang Xu, Zhejiang University, China Senior Engineer.