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Online since: July 2016
Authors: Hong Sheng Wang, Qi Hong Wei, Qing Li Zhang, Hong Hao Cheng, Chang Tao Shao, Ying Ying Wang
It is indicated vividly in Figure1 that the composite materials prepared by the silica slurry as matrix and 10% silica sol as the interface layer have better performance.
Cheng, Effect of CVI Temperature on the microstructure of Nextel 480/SiO2, Science and Engineering of Composites Materials. 10(2003) 403-406
Chen, Mechanical behavior of 2.5D (shallow bend-joint) and 3D orthogonal quartzf/silica composites by silica sol-infiltration-sintering, Materials Science and Engineering A. 532 (2012) 230-235
Zhu, Mechanical properties and microstructure of 3D orthogonal quartz fiber reinforced silica composites fabricated by silicasol-infiltration-sintering, Materials and Design. 36(2012)289-295
Rogers, The Mechanical Behavior of Glass and Glass-ceramic matrix Composites, Materials Science and Engineering A. 278(2009)187-194
Cheng, Effect of CVI Temperature on the microstructure of Nextel 480/SiO2, Science and Engineering of Composites Materials. 10(2003) 403-406
Chen, Mechanical behavior of 2.5D (shallow bend-joint) and 3D orthogonal quartzf/silica composites by silica sol-infiltration-sintering, Materials Science and Engineering A. 532 (2012) 230-235
Zhu, Mechanical properties and microstructure of 3D orthogonal quartz fiber reinforced silica composites fabricated by silicasol-infiltration-sintering, Materials and Design. 36(2012)289-295
Rogers, The Mechanical Behavior of Glass and Glass-ceramic matrix Composites, Materials Science and Engineering A. 278(2009)187-194
Online since: July 2013
Authors: Meng Liu, Meng Jian Zhu, Shu Xin Bai, Shun Li
References
[1] Lee H S, Jeon K Y, Kim H Y, Fabrication process and thermal properties of SiCp/Al metal matrix composites for electronic packaging applications, J Journal of Materials Science. 35 (2000) 6231-6236
[3] Yih P, Chung D D L, A comparative study of the coated filler method and the admixture method of powder metallurgy for making metal-matrix composites, Journal of Materials Science. 32 (1997) 2873-2882
[6] Martinaz V, Ordones S, Castro F, Wetting of silicon carbide by copper alloys, J Journal of Materials Science. 38 (2003) 4047-4054
[7] Sundberg G, Paul P, Sung, C, Identification and characterization of diffusion barriers for Cu/SiC systems, J Journal of Materials Science. 40 (2005) 383-393
[8] Schubert Th, Trindade B, Interfacial design of Cu-based composites prepared by powder metallurgy for heat sink applications, Journal of Materials Science and Engineering A. 475 (2008) 39-44
[3] Yih P, Chung D D L, A comparative study of the coated filler method and the admixture method of powder metallurgy for making metal-matrix composites, Journal of Materials Science. 32 (1997) 2873-2882
[6] Martinaz V, Ordones S, Castro F, Wetting of silicon carbide by copper alloys, J Journal of Materials Science. 38 (2003) 4047-4054
[7] Sundberg G, Paul P, Sung, C, Identification and characterization of diffusion barriers for Cu/SiC systems, J Journal of Materials Science. 40 (2005) 383-393
[8] Schubert Th, Trindade B, Interfacial design of Cu-based composites prepared by powder metallurgy for heat sink applications, Journal of Materials Science and Engineering A. 475 (2008) 39-44
Online since: January 2013
Authors: Hui Lin Fan, Cheng Liang Liu, Man Yi Hou, Xue Liang Bao
In general, candidate address, spare parts, raw material supply costs, transportation costs, initial investment and management costs, the number of the depots are included.
References [1] Liu Haiyan, Li Zhongping, Location Model for Logistics Aviation Overhaul Depot, Journal of Southwest Jiaotong University, no.6 pp. 2-3, June 2000
[2] Zhang Peilin, Wei Qiaoyun, Location Model and Heuristic Algorithm for Logistics Aviation Overhaul Depot, Journal of Traffic and Transportation Engineering, no.7, pp. 65-68, July 2003
[5] Eberhart R.C., Kennedy J., A new optimizer using particle swarm theory, Proc, On 6th International symposium on micromachine and human science, Piscataway, NJ, IEEE Press, Dec. 1995, pp. 39-43
[7] Liu Fei, Gu Hongqiang and Guo Li, Application of Test Node Optimization Based on GAPSO, Journal of Projectiles, Rockets, Missiles and Guidance, vol 30, no 2, pp. 253-255, April 2011
References [1] Liu Haiyan, Li Zhongping, Location Model for Logistics Aviation Overhaul Depot, Journal of Southwest Jiaotong University, no.6 pp. 2-3, June 2000
[2] Zhang Peilin, Wei Qiaoyun, Location Model and Heuristic Algorithm for Logistics Aviation Overhaul Depot, Journal of Traffic and Transportation Engineering, no.7, pp. 65-68, July 2003
[5] Eberhart R.C., Kennedy J., A new optimizer using particle swarm theory, Proc, On 6th International symposium on micromachine and human science, Piscataway, NJ, IEEE Press, Dec. 1995, pp. 39-43
[7] Liu Fei, Gu Hongqiang and Guo Li, Application of Test Node Optimization Based on GAPSO, Journal of Projectiles, Rockets, Missiles and Guidance, vol 30, no 2, pp. 253-255, April 2011
Online since: July 2019
This conference focused on advanced materials research in the forward-looking R&D domains where the intersection of key technologies in areas such as nano and micro-technology, biotechnology, stealth materials, smart materials and structures, and energy generation and storage is being explored.
He supervised 20 PhD and Pos-Doc scientific works and is member of the editorial board of several leading international scientific journals on composite and fibrous materials.
Previously, he worked as a Senior Researcher and Leader of Composite Materials at the Fibrous Materials Research Group (Fibrenamics), University of Minho, Portugal (2010-2018).
He has been invited to deliver keynote and invited talks in several international conferences and meetings focused on fibre science and composite materials.
Journal of Nanomaterials, Key Engineering Materials, International Journal of Polymer Science, Journal of Biobased Materials and Bioenergy, Advances in Polymer Technology, etc.) and is a potential reviewer for numerous scientific journals including Green Chemistry, Carbohydrate Polymers, Composite Science and Technology, Composites Part A & B, Dyes and Pigments, RSC Advances, Composite Interfaces, Journal of Composite Materials, Journal of Reinforced Plastics and Composites, Powder Technology, Journal of Nanomaterials, Journal of Applied Polymer Science, Fibres and Polymers, and so on.
He supervised 20 PhD and Pos-Doc scientific works and is member of the editorial board of several leading international scientific journals on composite and fibrous materials.
Previously, he worked as a Senior Researcher and Leader of Composite Materials at the Fibrous Materials Research Group (Fibrenamics), University of Minho, Portugal (2010-2018).
He has been invited to deliver keynote and invited talks in several international conferences and meetings focused on fibre science and composite materials.
Journal of Nanomaterials, Key Engineering Materials, International Journal of Polymer Science, Journal of Biobased Materials and Bioenergy, Advances in Polymer Technology, etc.) and is a potential reviewer for numerous scientific journals including Green Chemistry, Carbohydrate Polymers, Composite Science and Technology, Composites Part A & B, Dyes and Pigments, RSC Advances, Composite Interfaces, Journal of Composite Materials, Journal of Reinforced Plastics and Composites, Powder Technology, Journal of Nanomaterials, Journal of Applied Polymer Science, Fibres and Polymers, and so on.
Online since: August 2015
Authors: Hossein Hosseini-Toudeshky, Maryam Jamalian
Ramesh, “Strengthening mechanisms in an Al–Mg alloy,” Materials Science and Engineering: A, vol. 527, no. 6, pp. 1292–1298, Mar. 2010
Lavernia, “Synthesis and mechanical behavior of nanostructured materials via cryomilling,” Progress in Materials Science, vol. 51, no. 1, pp. 1–60, Jan. 2006
Nutt, “Dynamic observations of deformation in an ultrafine-grained Al–Mg alloy with bimodal grain structure,” Journal of Materials Science, vol. 43, no. 23–24, pp. 7403–7408, Dec. 2008
Lavernia, “Processing and behavior of nanostructured metallic alloys and composites by cryomilling,” Journal of Materials Science, vol. 42, no. 5, pp. 1660–1672, Mar. 2007
Schoenung, “Cryomilled nanostructured materials: Processing and properties,” Materials Science and Engineering: A, vol. 493, no. 1–2, pp. 207–214, Oct. 2008
Lavernia, “Synthesis and mechanical behavior of nanostructured materials via cryomilling,” Progress in Materials Science, vol. 51, no. 1, pp. 1–60, Jan. 2006
Nutt, “Dynamic observations of deformation in an ultrafine-grained Al–Mg alloy with bimodal grain structure,” Journal of Materials Science, vol. 43, no. 23–24, pp. 7403–7408, Dec. 2008
Lavernia, “Processing and behavior of nanostructured metallic alloys and composites by cryomilling,” Journal of Materials Science, vol. 42, no. 5, pp. 1660–1672, Mar. 2007
Schoenung, “Cryomilled nanostructured materials: Processing and properties,” Materials Science and Engineering: A, vol. 493, no. 1–2, pp. 207–214, Oct. 2008
Online since: July 2022
Authors: Yong Fa Zhang, Sebastian Münstermann, Fu Hui Shen, Wei Jian Han, Jiang Zheng
Katgerman, Modelling of defects in aluminium cast products, Progress in Materials Science (2021)
Liu, Porosity quantification for ductility prediction in high pressure die casting AM60 alloy using 3D X-ray tomography, Materials Science and Engineering: A 772 (2020) 138781
Xia, The gradient microstructure and deformation heterogeneity in HPDC AM60 alloy, Materials Science and Engineering: A 792 (2020)
Wierzbicki, Calibration of ductile fracture properties of a cast aluminum alloy, Materials Science and Engineering: A 459(1-2) (2007) 156-166
Lian, Local formability of medium-Mn steel, Journal of Materials Processing Technology 299 (2022)
Liu, Porosity quantification for ductility prediction in high pressure die casting AM60 alloy using 3D X-ray tomography, Materials Science and Engineering: A 772 (2020) 138781
Xia, The gradient microstructure and deformation heterogeneity in HPDC AM60 alloy, Materials Science and Engineering: A 792 (2020)
Wierzbicki, Calibration of ductile fracture properties of a cast aluminum alloy, Materials Science and Engineering: A 459(1-2) (2007) 156-166
Lian, Local formability of medium-Mn steel, Journal of Materials Processing Technology 299 (2022)
Online since: March 2007
Authors: Jian Hua Zhang, Li Li, Zong Wei Niu
This reproductive process exploits the physical
phenomenon of material erosion of conductive materials by means of electrical discharges.
Acknowledgements This paper is supported by the National Science Foundation of China(50275087).
Wang: submitted to Journal of Magnetism and Magnetic Materials (2006)
LAu: Journal of Material Processing Technology 63 (1997), p. 908
Bleys: Journal of Material Processing Technology 149 (2004), p.347.
Acknowledgements This paper is supported by the National Science Foundation of China(50275087).
Wang: submitted to Journal of Magnetism and Magnetic Materials (2006)
LAu: Journal of Material Processing Technology 63 (1997), p. 908
Bleys: Journal of Material Processing Technology 149 (2004), p.347.
Online since: November 2013
Authors: Paul Kah, Markku Pirinen, Raimo Suoranta, Jukka Martikainen
Although filler material is usually selected based on the parent materials, welding process and welding conditions, high strength but slightly under-matching and over-alloyed filler materials are generally used in welding of UHSS.
M., 2005, "Thermomechanically hot rolled high and ultra high strength steel grades-processing, properties and application.," Materials Science Forum, 500-501, pp. 543-550, 2005
-H. , 1989, "Effect of martensite strength on the tensile strength of dual phase steels," Materials Science, 24 ( 6) pp. 1991-1994
Satish, 1999, "Heat affected zone softening in high strength low alloy steels," Journal of Materials Processig Technology, 88 (1-3) pp. 284-294
T., 2001, "Fracture behavior of heat-affected zone in low alloy steels," Journal of Nuclear Materials, 299 ( 2) pp. 132-139
M., 2005, "Thermomechanically hot rolled high and ultra high strength steel grades-processing, properties and application.," Materials Science Forum, 500-501, pp. 543-550, 2005
-H. , 1989, "Effect of martensite strength on the tensile strength of dual phase steels," Materials Science, 24 ( 6) pp. 1991-1994
Satish, 1999, "Heat affected zone softening in high strength low alloy steels," Journal of Materials Processig Technology, 88 (1-3) pp. 284-294
T., 2001, "Fracture behavior of heat-affected zone in low alloy steels," Journal of Nuclear Materials, 299 ( 2) pp. 132-139
Online since: March 2014
Authors: Shi Chuang Zhuo, Qiang Zhang, Shun Cai Li
Test equipment and specimen
In this test, the requirement equipments are: multi-function experimental rig of Mechanics Materials (shown in Fig. 5), XL2118A type strain comprehensive parameter tester, strain gauge, ruler, vernier caliper, etc.
Fig.5 Multi-function experimental rig of Mechanics Materials Fig.6 The specimen installation Test results The same loading process is repeated three times, and the test results are shown in table 1.
Material Mechanics[M].Beijing: High education publishing house,1992
A new finite element solution for internal force and frequencies analysis of the compressed bar[J].Science technology and engineering, 2009,9(21): 6495-6498
Series calculation method of critical load of compression bar with one end fixed and one end hinged[J].Journal of university of science and technology Liaoning, 2011, 34(4):349-351
Fig.5 Multi-function experimental rig of Mechanics Materials Fig.6 The specimen installation Test results The same loading process is repeated three times, and the test results are shown in table 1.
Material Mechanics[M].Beijing: High education publishing house,1992
A new finite element solution for internal force and frequencies analysis of the compressed bar[J].Science technology and engineering, 2009,9(21): 6495-6498
Series calculation method of critical load of compression bar with one end fixed and one end hinged[J].Journal of university of science and technology Liaoning, 2011, 34(4):349-351
Online since: June 2021
Authors: Guo Qi Liu, Zi Hao Chen, Qiang Gu, Wei Kui Ma
., Luoyang 471039, China
2School of Materials Science and Engineering, Zhengzhou University, Zhengzhou 450001, China
a635098742@qq.com, bliugq@lirrc.com
Keywords: Silicon nitride ceramics; additives; thermal conductivity
Abstract.
[10] Watari K, Hirao K, Brito M E, et al, Factors to enhance enhance thermal conducticity of beta-Si3N4 ceramics, Advances in Technology of Materials and Materials Processing Journal(ATM), 2005, 7(2): 191-202
[18] Matovic, B., et al, Thermal Conductivity of Pressureless Sintered Silicon Nitride Materials with LiYO2 Additive, Science of Sintering 36.1 (2004): 3-9
Jae-Woong, et al, Microstructure and thermal conductivity of sintered reaction-bonded silicon nitride: The particle size effects of MgO additive, Advances in Materials Science and Engineering, 2018, 2018:1-5
[26] Y.S.Duan , J.S.Zzhang , Rare earth oxides on property of pressureless sintered Si3N4 ceramics, Journal of Inorganic Materials , 2017, 32(12):1275-1279
[10] Watari K, Hirao K, Brito M E, et al, Factors to enhance enhance thermal conducticity of beta-Si3N4 ceramics, Advances in Technology of Materials and Materials Processing Journal(ATM), 2005, 7(2): 191-202
[18] Matovic, B., et al, Thermal Conductivity of Pressureless Sintered Silicon Nitride Materials with LiYO2 Additive, Science of Sintering 36.1 (2004): 3-9
Jae-Woong, et al, Microstructure and thermal conductivity of sintered reaction-bonded silicon nitride: The particle size effects of MgO additive, Advances in Materials Science and Engineering, 2018, 2018:1-5
[26] Y.S.Duan , J.S.Zzhang , Rare earth oxides on property of pressureless sintered Si3N4 ceramics, Journal of Inorganic Materials , 2017, 32(12):1275-1279