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Online since: September 2011
Authors: Mahmoud M. Tash, Saleh Alkahtani
Richard; AFS International Cast Metals Research Journal. pp 390-393 (1980)
Harada; Journal of Japan Institute of Light Metals, 28(1),pp 8-14 (1978)
Murthy, Materials Science and Technology, Vol. 9, 1993, pp. 189-203
Doty, “Effect of Metallurgical Parameters on the Hardness and Microstructural Characterization of As-Cast and Heat-Treated 356 and 319 Aluminum Alloys”, Material Science and Engineering submitted, June., 2005 [10] C.R.
Doty, “Effect of Metallurgical Parameters on the Machinability of Heat-Treated 356 and 319 Aluminum Alloys”, Material Science and Engineering A, 2006.
Harada; Journal of Japan Institute of Light Metals, 28(1),pp 8-14 (1978)
Murthy, Materials Science and Technology, Vol. 9, 1993, pp. 189-203
Doty, “Effect of Metallurgical Parameters on the Hardness and Microstructural Characterization of As-Cast and Heat-Treated 356 and 319 Aluminum Alloys”, Material Science and Engineering submitted, June., 2005 [10] C.R.
Doty, “Effect of Metallurgical Parameters on the Machinability of Heat-Treated 356 and 319 Aluminum Alloys”, Material Science and Engineering A, 2006.
Online since: February 2025
Authors: Paschal Chizuruoke Eze, Miracle Izuchukwu Eze, Chijindu Ikechukwu Igwe
The selected materials include Austenitic stainless steel (316), Titanium Sheet (Grade 5), and Aluminium.
Mechanical properties of selected materials [13].
Physical properties of selected materials [13].
Chidambaram, ‘Exposure of Stainless Steel 316 to Sub-critical, Transition, and Near-Supercritical Water.’, Journal of Nuclear Materials, 2022
Ramgir, ‘Design & Analysis of Truinnion Mounted Ball Valve’, International Journal of Science, Engineering and Technology Research (IJSETR), vol. 5, no. 9, Sep. 2016
Mechanical properties of selected materials [13].
Physical properties of selected materials [13].
Chidambaram, ‘Exposure of Stainless Steel 316 to Sub-critical, Transition, and Near-Supercritical Water.’, Journal of Nuclear Materials, 2022
Ramgir, ‘Design & Analysis of Truinnion Mounted Ball Valve’, International Journal of Science, Engineering and Technology Research (IJSETR), vol. 5, no. 9, Sep. 2016
Online since: April 2015
Authors: Jie Shan Hou, Jian Ting Guo, Yong An Guo, Chao Yuan, Gu Song Li, Lan Zhang Zhou
Materials and Experimental
The experimental alloys were produced in an industrial scale vacuum induction furnace.
[11] China Aeronautical Materials Handbook (second edition), standards press of China, Beijing, 2002
Evans, (Eds), creep and fracture of engineering materials and Structures, Proc.
Soc., 1985, 293, [28] L.Wang, G Xie, J Zhang, LH Lou, Materials science forum, 546-549 (2007)1235-1240 [29] L.R.
Mughrabi, in: H.E Exner, et al., (Eds), Advanced Materials and Processes, Oberuresl, Germany, 1990, 445
[11] China Aeronautical Materials Handbook (second edition), standards press of China, Beijing, 2002
Evans, (Eds), creep and fracture of engineering materials and Structures, Proc.
Soc., 1985, 293, [28] L.Wang, G Xie, J Zhang, LH Lou, Materials science forum, 546-549 (2007)1235-1240 [29] L.R.
Mughrabi, in: H.E Exner, et al., (Eds), Advanced Materials and Processes, Oberuresl, Germany, 1990, 445
Online since: September 2008
Authors: Takumi Nishimoto, Takeshi Izumi, Toshio Narita, Shigenari Hayashi, Stewart Ford, Takayuki Yoshioka
Hayashi: Materials at
High Temperatures, 18(S), (2001), p.245
Narita: Journal of High Temperature Materials (Kouon Gakkaishi), 28 (No.4) (2002), p.135
Tanaka: Report of the 123 rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 43 (Nos.3) (2002), p.383
Narita: Report of the 123 rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 46, Nos. 2 (2005), p.183
Narita: Report of the 123rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 47, Nos. 2 (2005), p.183
Narita: Journal of High Temperature Materials (Kouon Gakkaishi), 28 (No.4) (2002), p.135
Tanaka: Report of the 123 rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 43 (Nos.3) (2002), p.383
Narita: Report of the 123 rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 46, Nos. 2 (2005), p.183
Narita: Report of the 123rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 47, Nos. 2 (2005), p.183
Online since: February 2010
Authors: Hiroyuki Kokawa, Yutaka S. Sato, Sergey Mironov, Chang Woo Lee, Uceu Suhuddin, H. Takahashi
Lee
2, f
1
Departement of Materials Processing, Graduate School of Engineering, Tohoku University,
6-6-02 Aramaki-aza-Aoba, Sendai 980-8579, Japan
2
Advanced Joining Technology Team, Production and Technology Center, Korea Institute of
Industrial Technology, 7-47, Songdo-Dong, Yeonsu-Gu, Incheon 406-840, South Korea.
Introduction The increasing demand for better fuel economy, reduction of exhaust gasses emissions and higher operating efficiency in transportation applications is prompting intensive research into lightweight structural materials.
Since the magnesium (Mg) alloys are the lightest structural materials in practical use, they offer a great potential for weight saving in vehicles.
Financial support from the Japanese Ministry of Education, Science, Sports and Culture with a Grant-in-Aid from the Global COE Program in Materials Integration International Center of Education and Research at Tohoku University is also gratefully acknowledged.
Colligan: Welding Journal Vol. 78 (1999), p. 229
Introduction The increasing demand for better fuel economy, reduction of exhaust gasses emissions and higher operating efficiency in transportation applications is prompting intensive research into lightweight structural materials.
Since the magnesium (Mg) alloys are the lightest structural materials in practical use, they offer a great potential for weight saving in vehicles.
Financial support from the Japanese Ministry of Education, Science, Sports and Culture with a Grant-in-Aid from the Global COE Program in Materials Integration International Center of Education and Research at Tohoku University is also gratefully acknowledged.
Colligan: Welding Journal Vol. 78 (1999), p. 229
Online since: May 2020
Authors: Rif G. Rizvanov, Ayrat Minnulovich Faнrushin, Marat R. Fatkullin
Now, one of the most pressing issues in the development of petroleum engineering is increasing the efficiency of apparatus and machines, as well as reducing material, energy and labor resources.
The transition from preheating and subsequent heat treatment to welding technology with the use of layer-by-layer UST and forced cooling will significantly reduce material costs and increase the productivity of repair work.
Vorontsov, Heat treatment of welded joints of pipelines in the conditions of the route and in the factory, Science and technology of pipeline transportation of oil and petroleum products, 2 (2013) 55-59
Yushin et al., Investigation of defects in cast body parts of pumps and development of technology for their repair, Science and technology of pipeline transport of oil and petroleum products, 5 (2016) 84-89
New Requirements of Regulatory Documents, Oil Construction Journal. 1 (2015) 30-39
The transition from preheating and subsequent heat treatment to welding technology with the use of layer-by-layer UST and forced cooling will significantly reduce material costs and increase the productivity of repair work.
Vorontsov, Heat treatment of welded joints of pipelines in the conditions of the route and in the factory, Science and technology of pipeline transportation of oil and petroleum products, 2 (2013) 55-59
Yushin et al., Investigation of defects in cast body parts of pumps and development of technology for their repair, Science and technology of pipeline transport of oil and petroleum products, 5 (2016) 84-89
New Requirements of Regulatory Documents, Oil Construction Journal. 1 (2015) 30-39
Online since: May 2022
Authors: Magdy Gnedy, Mohamed Helmy, Mohamed Hatem
The main objective of this research using the concept of material hybridization, is to investigate the effect of bar diameter after adding fibers & code equation coefficients for the best efficient developing length for tensile lap splice in beams under flexure.
[4],[5]The main objective of this study using the concept of material hybridization is to investigate tension lap splice a viable hybrid FRP bar for concrete structures, especially for marine and waterfront concrete structures.( Fig 1) Experimental Text Program Parameters involved in calculating the developing length of tensile lap splice of hybrid steel and their effects on the failure load and maximum deflections were studied as follows: Developing length Ld = n *φ *1.3 as recommended by the code for fcu=30 MPa - Effect of n that was taken (50,55 & 60 ) that was illustrated in the group (A) -Effect of (1.3 ) that was illustrated in the group (B) -Effect of φ increasing the fiber thickness that was illustrated in the group (C) Nine RC beams were casted with dimensions of (250*400*4200) mm Fig.2a and concrete strength of 30 MPa.
Ko,” FRP New Ductile Hybrid Reinforcing BAR FOR CONCRETE STRUCTURES ,” JOURNAL OF COMPOSITES FOR CONSTRUCTION, FEBRUARY 1998
[2] Resmi Bestari Muin and Muchammad Sholeh,"Assessment on Tension Bar Lap Splices of Concrete Reinforcement Steel," IOP Conference Series, Materials Science and Engineering,2018 IOP Conf.
Eng. 453 012068 [3] Ragi Aly, Brahim Benmokrane, and Usama Ebead, ‘Tensile Lap Splicing of Fiber-Reinforced Polymer Reinforcing Bars in Concrete”, ACI Structural Journal,November-December, 2006
[4],[5]The main objective of this study using the concept of material hybridization is to investigate tension lap splice a viable hybrid FRP bar for concrete structures, especially for marine and waterfront concrete structures.( Fig 1) Experimental Text Program Parameters involved in calculating the developing length of tensile lap splice of hybrid steel and their effects on the failure load and maximum deflections were studied as follows: Developing length Ld = n *φ *1.3 as recommended by the code for fcu=30 MPa - Effect of n that was taken (50,55 & 60 ) that was illustrated in the group (A) -Effect of (1.3 ) that was illustrated in the group (B) -Effect of φ increasing the fiber thickness that was illustrated in the group (C) Nine RC beams were casted with dimensions of (250*400*4200) mm Fig.2a and concrete strength of 30 MPa.
Ko,” FRP New Ductile Hybrid Reinforcing BAR FOR CONCRETE STRUCTURES ,” JOURNAL OF COMPOSITES FOR CONSTRUCTION, FEBRUARY 1998
[2] Resmi Bestari Muin and Muchammad Sholeh,"Assessment on Tension Bar Lap Splices of Concrete Reinforcement Steel," IOP Conference Series, Materials Science and Engineering,2018 IOP Conf.
Eng. 453 012068 [3] Ragi Aly, Brahim Benmokrane, and Usama Ebead, ‘Tensile Lap Splicing of Fiber-Reinforced Polymer Reinforcing Bars in Concrete”, ACI Structural Journal,November-December, 2006
Online since: May 2011
Authors: Hui Ni Wang, Wan Kui Ni, Gao Yang Liu
Materials and methods
Test equipment.
The principle of CT imaging is that X-rays can penetrate non-metallic materials and different wavelengths of X-rays have different penetrating power, and different materials have different absorption for the same wavelength of X-ray, the greater the density is, and the higher the atomic number is, the stronger the absorption power is.
As a consequence, the percentage of dense materials also increases.
Acknowledgements This work was partially supported by the National Natural Science Foundation of China (41030741).
Pu: Journal of Xi’an University of Science and Techenology Vol. 26 (2006), p.51 (In Chinese) [4] X.
The principle of CT imaging is that X-rays can penetrate non-metallic materials and different wavelengths of X-rays have different penetrating power, and different materials have different absorption for the same wavelength of X-ray, the greater the density is, and the higher the atomic number is, the stronger the absorption power is.
As a consequence, the percentage of dense materials also increases.
Acknowledgements This work was partially supported by the National Natural Science Foundation of China (41030741).
Pu: Journal of Xi’an University of Science and Techenology Vol. 26 (2006), p.51 (In Chinese) [4] X.
Online since: June 2012
Authors: Ke Guang Yu
Set the sediment samples for testing materials which particle size is 0.42mm, density is 1351Kg•m-3, heat time is 13s; the measured data figure is shown in the Fig.3.
Application of simulated annealing in solving the inverse problem of line heat sources [J].Journal of China Jiliang University, 2010, 21(3):246–250
Soil Science, 1952, 73(2):83–90
Journal of Computer Application,2010,30(1):76–79.
Application of simulated annealing in solving the inverse problem of line heat sources [J].Journal of China Jiliang University, 2010, 21(3):246–250
Soil Science, 1952, 73(2):83–90
Journal of Computer Application,2010,30(1):76–79.
Research for Seepage Prevention Type of Dam Foundation of Xiabandi Hydraulic Engineering in Xinjiang
Online since: January 2014
Authors: Yu Cai Song
Wall materials are plastic concrete, of which compressive strength is R28≥5.0MPa and elasticity modulus is E≤1.0FPa and permeability coefficient is K=n*10-7cm/s.
Journal of Engineering Geology.2006(03)
Journal of Engineering Geology.2006(04)
Water Conservancy Science and Technology and Economy.2012(07)
Journal of Engineering Geology.2006(03)
Journal of Engineering Geology.2006(04)
Water Conservancy Science and Technology and Economy.2012(07)