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Online since: June 2007
Authors: Andrei G. Kotousov, Hideaki Tsukamoto
The size of
rods of sintered materials is diameter of 20mm and length of 120mm.
The microstructure of the materials was observed using a scanning electron microscope (SEM).
Experimental results and discussions The SEM micrographs of sintered materials were shown in Fig.1.
Yamamoto at Ube National College of Technology for their efforts to manufacture of the materials.
Tjong: Composites Science and Technology, 61, 5 (2001), p. 771-786
The microstructure of the materials was observed using a scanning electron microscope (SEM).
Experimental results and discussions The SEM micrographs of sintered materials were shown in Fig.1.
Yamamoto at Ube National College of Technology for their efforts to manufacture of the materials.
Tjong: Composites Science and Technology, 61, 5 (2001), p. 771-786
Online since: October 2012
Authors: S.A. Sadough, Amin Jabbari, Farzad Hosseini Yekta, Vahid Pouyafar
Thixoforming of high temperature materials such as steels is still at the research and development stage [12].
Materials, 9 (2007) 231
[9] Reiner Kopp, Jongung Choi, Dag Neudenberge , Journal of Materials Processing Technology 135 (2003) 317–323
Conf., Tokyo Institute of Industrial Science, Tokyo, 1994, pp. 117–2
Karparanos; Thixotropy in Semisolid Steel Slurries under rapid compression, the Minerals, Metals & Materials Society and ASM International 2011
Materials, 9 (2007) 231
[9] Reiner Kopp, Jongung Choi, Dag Neudenberge , Journal of Materials Processing Technology 135 (2003) 317–323
Conf., Tokyo Institute of Industrial Science, Tokyo, 1994, pp. 117–2
Karparanos; Thixotropy in Semisolid Steel Slurries under rapid compression, the Minerals, Metals & Materials Society and ASM International 2011
Online since: February 2024
Authors: Peng Yong Hoo, Siti Zullaikah, Miranda Amiroh Sulaiman, Armando T. Quitain
Esterification of FFA and glycerol [5]
The continuous effort to perform a more sustainable chemistry has led to the development of new materials that accomplish the principles of green chemistry.
Materials and Methods Materials.
This may occur because the raw materials used in this study contain FFA and TG.
Rachimoellah, “Deacidification of crude rice bran oil (Crbo) to remove ffa and preserve γ-oryzanol using deep eutectic solvents (des),” in Materials Science Forum, Trans Tech Publications Ltd, 2019, pp. 109–114. doi: 10.4028/www.scientific.net/MSF.964.109
Cavallaro, “Emerging new energy crops for biodiesel production,” in Biodiesel Science and Technology, Elsevier, 2010, pp. 226–284. doi: 10.1533/9781845697761.226
Materials and Methods Materials.
This may occur because the raw materials used in this study contain FFA and TG.
Rachimoellah, “Deacidification of crude rice bran oil (Crbo) to remove ffa and preserve γ-oryzanol using deep eutectic solvents (des),” in Materials Science Forum, Trans Tech Publications Ltd, 2019, pp. 109–114. doi: 10.4028/www.scientific.net/MSF.964.109
Cavallaro, “Emerging new energy crops for biodiesel production,” in Biodiesel Science and Technology, Elsevier, 2010, pp. 226–284. doi: 10.1533/9781845697761.226
Online since: January 2017
Authors: Hadijah Hadijah
Tools and materials used in this research was a basket plastic length 44 cm, width 32 cm and height 14 cm consist of 9 units.
Marine Science Institute, College of Science University of the Philippines.
Aquatic Science and Technology.
Modern Applied Science.
Journal of Shellfish Research, 26: 763-767 p
Marine Science Institute, College of Science University of the Philippines.
Aquatic Science and Technology.
Modern Applied Science.
Journal of Shellfish Research, 26: 763-767 p
Online since: October 2015
Authors: Jian Meng Huang, Bin Wang, Ning Li, Wei Zeng Chen
Because of the h.e.r. importance in both fundamental and technological electrochemistry, the aim of many papers dealing with this reaction was to understand the principles of its kinetics and mechanism, as well as to improve the electrocatalytic behavior of electrode materials.
[12] Reshetnikov S.I., Ivanov E.A., Startsev A.N: Chemical Engineering Journal, Vol.134 (2007) No.1-3, pp. 100-105
[24] Zhou S.H., Wang Y., Jiang C., Zhu J.Z., Chen L.Q., Liu Z.K: Materials Science and Engineering A: Vol.397(2005) No.1-2, pp. 288-296
S., Argon A.S: Science, Vol.295(2002) No.5555, pp. 654-657
[27] Kedzierzawski P., Oleszak D., Janik-Czachor M: Materials Science and Engineering A: Vol.300 (2001)No.1-2, pp. 105-112
[12] Reshetnikov S.I., Ivanov E.A., Startsev A.N: Chemical Engineering Journal, Vol.134 (2007) No.1-3, pp. 100-105
[24] Zhou S.H., Wang Y., Jiang C., Zhu J.Z., Chen L.Q., Liu Z.K: Materials Science and Engineering A: Vol.397(2005) No.1-2, pp. 288-296
S., Argon A.S: Science, Vol.295(2002) No.5555, pp. 654-657
[27] Kedzierzawski P., Oleszak D., Janik-Czachor M: Materials Science and Engineering A: Vol.300 (2001)No.1-2, pp. 105-112
Online since: December 2012
Authors: Hai Jian Liang, Xiao Wei Wu, Yong Wang, Shuang Sheng Feng, Quan Lin Jin, Chao Li Ma
The Production of Automotive Body Panels in 5083 SPF Aluminium Alloy, Superplasticity in Advanced Materials ICSAM-2000, 59~64
[3].
Superplastic forming of commercial aluminium alloy car body panels, Journal of plastic engineering, 2004, 5/11:64~66 [4].
Rare Metal Materials and Engineering, 2009,38(7): 1259
Transactions of Materials and Heat Treatment, 2004 (4) 35-41
Aerospace Materials & Technology. 1992(01)20-24.
Superplastic forming of commercial aluminium alloy car body panels, Journal of plastic engineering, 2004, 5/11:64~66 [4].
Rare Metal Materials and Engineering, 2009,38(7): 1259
Transactions of Materials and Heat Treatment, 2004 (4) 35-41
Aerospace Materials & Technology. 1992(01)20-24.
Online since: January 2018
Authors: Mikhail D. Starostenkov, Gennady M. Poletaev, Irina V. Zorya
They find applications as radiation resistant materials, materials for extra-pure hydrogen filters and isotope fractioning, for accumulation and storage of light gases, for hydrogen transportation, etc.
On the other hand, hydrogen can have undesirable effects on metallic materials, for instance, hydrogen embrittlement, corrosion, stress corrosion cracking [1].
Sinyaev, Interdiffusion and order fracture over grain boundaries in the deformed Ni3Al intermetallide, Materials Science Forum. 567-568 (2008) 161-164
Dmitriev, Interatomic potentials in the systems Pd-H and Ni-H, Materials Physics and Mechanics. 27 (2016) 53-59
Effect of Hydrogen on Behavior of Materials, Met.
On the other hand, hydrogen can have undesirable effects on metallic materials, for instance, hydrogen embrittlement, corrosion, stress corrosion cracking [1].
Sinyaev, Interdiffusion and order fracture over grain boundaries in the deformed Ni3Al intermetallide, Materials Science Forum. 567-568 (2008) 161-164
Dmitriev, Interatomic potentials in the systems Pd-H and Ni-H, Materials Physics and Mechanics. 27 (2016) 53-59
Effect of Hydrogen on Behavior of Materials, Met.
Online since: September 2007
Authors: Yan Jun Qiu, Tao Xie, Ze Zhong Jiang, Bo Lan
Theoretical analyses of ultrasonic application
Ultrasonic testing uses high frequency (greater than 20 kHz) stress waves to characterize the
properties of materials or detect their defects.
Ultrasonic testing is used for inspecting a wide range of construction materials including metals, composites, and concrete.
Since ultrasonic wave technique utilize the characteristics of propagating stress waves to evaluate materials.
The device used in this study, RSM-SY5, is manufactured by Wuhan Institute of Rock and Soil Mechanics, Chinese Academy of Sciences.
Journal of Foreign Highway.
Ultrasonic testing is used for inspecting a wide range of construction materials including metals, composites, and concrete.
Since ultrasonic wave technique utilize the characteristics of propagating stress waves to evaluate materials.
The device used in this study, RSM-SY5, is manufactured by Wuhan Institute of Rock and Soil Mechanics, Chinese Academy of Sciences.
Journal of Foreign Highway.
Online since: March 2008
Authors: Xing Ai, Jun Zhao, Xiao Qin Wang, Tian Tian Li
It is known that cutting force and tool life are influenced by the
material and geometries of cutter, in this test we selected 2 different tool geometries with 2 materials
(YG6 and YT726).
Cutting force was influenced by the tool materials, at lower cutting speed, the cutting force of T1 was higher than T2, at 80 m/min the cutting force of T1 and T2 were close, but at higher cutting speed the cutting force of T1 was lower than T2 (Fig.1a, b).
Due to that, the element Ti (Table 2) of tool enabled the element Ti of workpiece material is more easily diffuse to tool material, lead to the tool material intensity decrease, and the tool quickly wear at elevated temperature(Fig.3b)[5], the diffusion wear was increase with cutting speed.
Acknowledgements This project is sponsored by the National Natural Science Foundation of China (50575126), the Foundation for the Author of National Excellent Doctoral Dissertation of P.
Liu: International Journal of Machine Tools & Manufacture, Vol.42 (2002), pp.653-661
Cutting force was influenced by the tool materials, at lower cutting speed, the cutting force of T1 was higher than T2, at 80 m/min the cutting force of T1 and T2 were close, but at higher cutting speed the cutting force of T1 was lower than T2 (Fig.1a, b).
Due to that, the element Ti (Table 2) of tool enabled the element Ti of workpiece material is more easily diffuse to tool material, lead to the tool material intensity decrease, and the tool quickly wear at elevated temperature(Fig.3b)[5], the diffusion wear was increase with cutting speed.
Acknowledgements This project is sponsored by the National Natural Science Foundation of China (50575126), the Foundation for the Author of National Excellent Doctoral Dissertation of P.
Liu: International Journal of Machine Tools & Manufacture, Vol.42 (2002), pp.653-661
Online since: October 2016
Authors: Natalia Isabel de Azevedo Lopes, Vicente Tadeu Lopes Buono, Leandro de Arruda Santos
Mechanical Properties of Nanoceramic Zirconia Coatings
on NiTi Orthodontic Wires
LOPES Natalia Isabel de Azevedo1,a*, SANTOS Leandro de Arruda1,b
and BUONO Vicente Tadeu Lopes1,c
1Department of Metallurgical and Materials Engineering, School of Engineering,
Universidade Federal de Minas Gerais (UFMG), Belo Horizonte, MG, Brazil
anlopes@ufmg.com*, bleandro.arruda@demet.ufmg.br, cvbuono@demet.ufmg.br
Keywords: nickel-titanium; superelasticity; shape memory effect; electrodeposition; zirconia coating, mechanical properties.
Material and methods Materials.
Munroe, Towards a Better Corrosion Resistance and Biocompatibility Improvement of Nitinol Medical Devices, Journal of Materials Engineering and Performance 24 (2015) 1634-1640
Breslin, Electrochemical studies on the stability and corrosion resistance of titanium-based implant materials, Biomaterials 22 (2001) 1531-1539
Kapun, The corrosion resistance of Nitinol alloy in simulated physiological solutions Part 2: The effect of surface treatment, Materials Science and Engineering C 32 (2012) 1068-1077
Material and methods Materials.
Munroe, Towards a Better Corrosion Resistance and Biocompatibility Improvement of Nitinol Medical Devices, Journal of Materials Engineering and Performance 24 (2015) 1634-1640
Breslin, Electrochemical studies on the stability and corrosion resistance of titanium-based implant materials, Biomaterials 22 (2001) 1531-1539
Kapun, The corrosion resistance of Nitinol alloy in simulated physiological solutions Part 2: The effect of surface treatment, Materials Science and Engineering C 32 (2012) 1068-1077