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Online since: December 2018
Authors: Zhanwen Chen, Stefan Gulizia, Darren Fraser, Minh A.L. Phan
Katgerman, Mechanical properties in the semi-solid state and hot tearing of aluminium alloys, Progress in Materials Science. 49 (2004), 629-711
Van Humbeeck, Changing the alloy composition of Al7075 for better processability by selective laser melting, Journal of Materials Processing Tech. 238 (2016), 437-445
Körner, Microstructure of the Nickel-Base Superalloy CMSX-4 Fabricated by Selective Electron Beam Melting, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science. 47 (2016), 1469-1480
Darvish, Grain growth during selective laser melting of a Co-Cr-Mo alloy, Journal of Materials Science. 52 (2017), 7415-7427
Fraser, Microstructure control of additively manufactured metallic materials, Annu.
Van Humbeeck, Changing the alloy composition of Al7075 for better processability by selective laser melting, Journal of Materials Processing Tech. 238 (2016), 437-445
Körner, Microstructure of the Nickel-Base Superalloy CMSX-4 Fabricated by Selective Electron Beam Melting, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science. 47 (2016), 1469-1480
Darvish, Grain growth during selective laser melting of a Co-Cr-Mo alloy, Journal of Materials Science. 52 (2017), 7415-7427
Fraser, Microstructure control of additively manufactured metallic materials, Annu.
Online since: November 2013
Authors: Fang Zhi Li, Chun Feng Hu, Hai Bin Zhang, Qian Wang, Tian Liang Zhou, Dong Qu, Rong Jun Xie
Experimental
Materials.
The microstructure of raw materials and composite powders is shown in Fig. 2.
Nature Materials. 6 (2007) 183–191
Journal of Inorganic Materials. 27 (2012) 89–94
Journal of Inorganic Materials, 28 (2013) 1-13.
The microstructure of raw materials and composite powders is shown in Fig. 2.
Nature Materials. 6 (2007) 183–191
Journal of Inorganic Materials. 27 (2012) 89–94
Journal of Inorganic Materials, 28 (2013) 1-13.
Online since: February 2011
Lin, Norwegian University of Science and Technology, Norwegian
Y.J.
Li, University of Georgia, USA G.H.Gao,Henan Institute of Science and Technology ,China M.J.
Lin, Norwegian University of Science and Technology, Norwegian Y.W.
ISVC 2011 had drawn the attention of researchers from various disciplines: Advanced Intelligent Structure, Bio-inspired Smart Materials and Structures, Materials for energy storage, Active Materials, Mechanics and Behavior, Vibration and Control, Modeling, Simulation, Control and Applications, Fuzzy System and Fuzzy Control, Management Information Systems, etc.
Only original and unpublished paper would be considered, and 200 papers have been accepted for presentation at the conference and will be published by TTP, in Applied Mechanics and Materials (AMM) Journal (ISSN: 1660-9336), which is online available in full text via the platform www.scientific.net.
Li, University of Georgia, USA G.H.Gao,Henan Institute of Science and Technology ,China M.J.
Lin, Norwegian University of Science and Technology, Norwegian Y.W.
ISVC 2011 had drawn the attention of researchers from various disciplines: Advanced Intelligent Structure, Bio-inspired Smart Materials and Structures, Materials for energy storage, Active Materials, Mechanics and Behavior, Vibration and Control, Modeling, Simulation, Control and Applications, Fuzzy System and Fuzzy Control, Management Information Systems, etc.
Only original and unpublished paper would be considered, and 200 papers have been accepted for presentation at the conference and will be published by TTP, in Applied Mechanics and Materials (AMM) Journal (ISSN: 1660-9336), which is online available in full text via the platform www.scientific.net.
Online since: February 2011
Authors: Bao Guo Ma, Shou Wei Jian, Xue Feng Song, Xiang Guo Li
Materials and experimental method
Experimental materials
Common Portland cement (42.5﹟) and common sand were used in this experiment.
It can used for regeneration of active materials.
Acknowledgements This work was financially supported by the Key Laboratory of Silicate Materials Science and Engineering, Ministry of Education of Wuhan University of Technology, and many conversations with academic partners.
China Building Materials Science and Technology, 2006,(4):9-12.
Journal of Building Material.Vol.9,No.1(Feb,2006)
It can used for regeneration of active materials.
Acknowledgements This work was financially supported by the Key Laboratory of Silicate Materials Science and Engineering, Ministry of Education of Wuhan University of Technology, and many conversations with academic partners.
China Building Materials Science and Technology, 2006,(4):9-12.
Journal of Building Material.Vol.9,No.1(Feb,2006)
Online since: May 2011
Authors: Miao Yong Zhu, Kun Liu, Liang Hua Feng
Research on Solidification Numerical Simulation of Continuous Casting Slab Based on Nail-shooting Experimentation
Liang Hua Feng 1,2,a, Miao Yong Zhu 2,b, Kun Liu 3,c
1 Science & Metallurgy, University of Science and Technology Liaoning, Anshan, 114051, China
2 School of Materials &Metallurgy, Northeastern University, Shenyang , 110004, China
3 Science & Metallurgy, University of Science and Technology Liaoning, Anshan, 114051, China
afenglianghua1974@126.com, bmyzhu@mail.neu.edu.cn, cLiukun65-12@163.com
Keywords: Continuous casting; Nail-shooting; Shell thickness; Numerical simulation
Abstract.
In this method, as tracing material, steel nail is shot into solidifying shell, slab with nail out of flatter is cut as a sample for analysis.
[2] CHEN Man-li: The Chinese Journal of Process Engineering, China, Vol.9, No.1(2009), p.390 [3] Yamanaka A,Nakajima K,Okamura K.
Iron making and Steelmaking, Vol.22, No.6(1995), p.508 [4] Yue Er Bin: IRON AND STEEL, China, Vol.38, No.8(2003), p.27 [5] Chen Guang you: Journal of Wuhan University of Science and Technology, China, Vol.31, No.6(2008), p.605
In this method, as tracing material, steel nail is shot into solidifying shell, slab with nail out of flatter is cut as a sample for analysis.
[2] CHEN Man-li: The Chinese Journal of Process Engineering, China, Vol.9, No.1(2009), p.390 [3] Yamanaka A,Nakajima K,Okamura K.
Iron making and Steelmaking, Vol.22, No.6(1995), p.508 [4] Yue Er Bin: IRON AND STEEL, China, Vol.38, No.8(2003), p.27 [5] Chen Guang you: Journal of Wuhan University of Science and Technology, China, Vol.31, No.6(2008), p.605
Online since: March 2015
Authors: Yong Jiang Shen, Ming Yang, Hai Hao Cui, Zheng Liang Xiang, Kang Wen, Yao Zhuang Li
Acknowledgements
This research is financially supported by the National Natural Science Foundation of China (nos. 41102171) and the China Postdoctoral Science Foundation(nos. 2012M521556) and the Postdoctoral Science Foundation of Central South University.
Canadian Geotechnical Journal 1969; 6(1): 1–140
Geotechnical Testing Journal 2005;28(2):1–7
International Journal of Geomechanics 2011;11:29-35
Journal of Zhejiang University (Engineering Science) 2005;39(1):131–136.
Canadian Geotechnical Journal 1969; 6(1): 1–140
Geotechnical Testing Journal 2005;28(2):1–7
International Journal of Geomechanics 2011;11:29-35
Journal of Zhejiang University (Engineering Science) 2005;39(1):131–136.
Formation of the Surface Layers of a Material with Shape-Memory-Based TiNiCo Diffusion Metallization
Online since: May 2015
Authors: Peter Olegovich Rusinov, Zhesfina Blednova
Introduction
One of the main features of modern high technologies is the desire to create and use new materials that have, in addition to a unique combination of mechanical, physical, and other properties, the ability to actively respond to changes in external conditions or external influence (smart materials).
In this regard, the formation of nanostructured states in materials with shape memory effect (SME), both in the bulk and on the surface, is an important aspect of modern materials [1–5].
Rusinov, Mechanical and tribological properties of the composition “steel-nanostructured surface layer of a material with shape memory effect based TiNiCu”, Applied Mechanics and Materials 592–594 (2014) 1325–1330
Yurkova, The formation of nanostructured surface layers of a material with shape memory effect of the TiNi deposition melt of the fusible metal at a temperature gradient, Applied Mechanics and Materials 621 (2014) 7–12
Blednova, Surface modification of parts material shape memory TiNiCo with a view to providing a functional and mechanical property as a factor in resource, Journal of Surface Engineered Materials and Advanced Technology 4 (2014) 348–358
In this regard, the formation of nanostructured states in materials with shape memory effect (SME), both in the bulk and on the surface, is an important aspect of modern materials [1–5].
Rusinov, Mechanical and tribological properties of the composition “steel-nanostructured surface layer of a material with shape memory effect based TiNiCu”, Applied Mechanics and Materials 592–594 (2014) 1325–1330
Yurkova, The formation of nanostructured surface layers of a material with shape memory effect of the TiNi deposition melt of the fusible metal at a temperature gradient, Applied Mechanics and Materials 621 (2014) 7–12
Blednova, Surface modification of parts material shape memory TiNiCo with a view to providing a functional and mechanical property as a factor in resource, Journal of Surface Engineered Materials and Advanced Technology 4 (2014) 348–358
Online since: March 2023
Authors: Sti Atmaja P. Rosyidi, Ahmad Zaki, Mujadid Akhsanul Fikri, Candra Agung Wibisono
Materials and Methods
Materials
The materials used are the main constituents of concrete, such as palm shells, gravel, sand, cement, and water, with the addition of mask fiber, as shown in Figure 1.
Tsobnang, "Experimental investigations on the physical and mechanical properties of a lightweight concrete using oil palm shell as coarse aggregate," Journal of Materials Science and Engineering, vol. 7, no. 5-6, pp. 157-168, 2017
Selva, "Experimental Investigation on Concrete Using Oil Palm Shell," Science and Technology of Advanced Materials, vol. 4, pp. 1-19, 2018
Yusoff, "Wavelet-Spectrogram Analysis of Surface Wave Technique for In Situ Pavement Stiffness Measurement," Journal of Materials in Civil Engineering, vol. 30, no. 11, p. 04018304, 2018
Azarsa, Rishi, "Electrical resistivity of concrete for durability evaluation: a review," Advances in Materials Science and Engineering, vol. 2017, 2017
Tsobnang, "Experimental investigations on the physical and mechanical properties of a lightweight concrete using oil palm shell as coarse aggregate," Journal of Materials Science and Engineering, vol. 7, no. 5-6, pp. 157-168, 2017
Selva, "Experimental Investigation on Concrete Using Oil Palm Shell," Science and Technology of Advanced Materials, vol. 4, pp. 1-19, 2018
Yusoff, "Wavelet-Spectrogram Analysis of Surface Wave Technique for In Situ Pavement Stiffness Measurement," Journal of Materials in Civil Engineering, vol. 30, no. 11, p. 04018304, 2018
Azarsa, Rishi, "Electrical resistivity of concrete for durability evaluation: a review," Advances in Materials Science and Engineering, vol. 2017, 2017
Online since: September 2021
Authors: Vyacheslav V. Kuznetsov, Mariya I. Murneva, Elena A. Radaykina, Vladimir N. Vodyakov, Anton M. Kuzmin
The most promising materials meet these requirements are polymer composites [1].
Figure 4 shows typical tensile curves of the studied samples of polymeric materials.
Murneva, Study of the Influence of the Forming Method on the Physical and Mechanical Characteristics of Thermo-plastic Polymeric Materials, Key Engineering Materials. 869 (2020) 342 - 347
Adam Mechanical and Electrical Properties of Injection-Molded MWCNT-Reinforced Polyamide 66 Hybrid Composites, Journal of Composites Science. 4 (2020) 1-14
Bonten, Insights into the Processing of Recycled Carbon Fibers via Injection Molding Compounding, Journal of Composites Science. 4 (2020) 161
Figure 4 shows typical tensile curves of the studied samples of polymeric materials.
Murneva, Study of the Influence of the Forming Method on the Physical and Mechanical Characteristics of Thermo-plastic Polymeric Materials, Key Engineering Materials. 869 (2020) 342 - 347
Adam Mechanical and Electrical Properties of Injection-Molded MWCNT-Reinforced Polyamide 66 Hybrid Composites, Journal of Composites Science. 4 (2020) 1-14
Bonten, Insights into the Processing of Recycled Carbon Fibers via Injection Molding Compounding, Journal of Composites Science. 4 (2020) 161
Online since: October 2006
Authors: Patricio Franco, Ramon Fernández, Manuel Estrems
Workpiece material.
• Removing of the internal pressure applied to the workpiece material.
Altan: Journal of Materials Processing Technology, Vol. 108 (2001), p. 384 [4] A.
Hammi: International Journal of Mechanical Sciences, Vol. 44 (2002), p. 2427 [5] L.H.
Nielsen: Journal of Materials Processing Technology, Vol. 151 (2004), p. 165
• Removing of the internal pressure applied to the workpiece material.
Altan: Journal of Materials Processing Technology, Vol. 108 (2001), p. 384 [4] A.
Hammi: International Journal of Mechanical Sciences, Vol. 44 (2002), p. 2427 [5] L.H.
Nielsen: Journal of Materials Processing Technology, Vol. 151 (2004), p. 165