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Online since: September 2013
Authors: Miroslaw Witoś, Szymon Gontarz, Marek Iwaniec, Maciej Roskosz
Newnham: Properties of materials.
The Journal of the College of Science, Imperial University of Tokyo 1898–1925, Section 353
[34] The Journal of the College of Science, Imperial University of Tokyo 1901–1908, Vol.
Sinning: Internal Friction in Metallic Materials.
Kotowicz: Journal of Achievements in Materials and Manufacturing Engineering Vol. 43/1 (2010) p. 362
The Journal of the College of Science, Imperial University of Tokyo 1898–1925, Section 353
[34] The Journal of the College of Science, Imperial University of Tokyo 1901–1908, Vol.
Sinning: Internal Friction in Metallic Materials.
Kotowicz: Journal of Achievements in Materials and Manufacturing Engineering Vol. 43/1 (2010) p. 362
Online since: March 2014
Authors: Sten Johansson, Ru Lin Peng, Maqsood Ahmad, Taina Vuoristo, Daniel Bäckström, Mattias Lundberg
These advantages outweigh the relatively poor mechanical performance when compared to other common materials.
Johansson, Influence of Shot Peening Parameters on Residual Stresses in Flake and Vermicular Cast Irons, Materials Science Forum Vols. 768-769 (2013) 534-541
Johansson, Graphite Morphology's Influence on Shot Peening Results in Cast Irons, Materials Science Forum Vols. 768-769 (2013) 542-549
Davis, ASM SPECIALTY HANDBOOK - Cast Irons, ASM International, Materials Park, USA, 1996
Zambelli, The stiffness and modulus of elasticity of grey cast irons, Journal of Materials Science Letters. 2 (1983) 239-242
Johansson, Influence of Shot Peening Parameters on Residual Stresses in Flake and Vermicular Cast Irons, Materials Science Forum Vols. 768-769 (2013) 534-541
Johansson, Graphite Morphology's Influence on Shot Peening Results in Cast Irons, Materials Science Forum Vols. 768-769 (2013) 542-549
Davis, ASM SPECIALTY HANDBOOK - Cast Irons, ASM International, Materials Park, USA, 1996
Zambelli, The stiffness and modulus of elasticity of grey cast irons, Journal of Materials Science Letters. 2 (1983) 239-242
Online since: May 2020
Authors: Oluwole Daniel Makinde, B.N. Hanumagowda, C.K. Sreekala, Noorjahan Noorjahan
(7)
The Darcy’s law for porous material is
, (8)
Lin, Squeeze film characteristics of long partial journal bearings lubricated with couplestress fluids, Tribol Int., 30 (1997) 53–58
Naduvinamani, Combined effects of surface roughness and viscosity variation due to additives on long journal bearings, Tribology Materials, Surfaces and Interface, 7(1) (2013) 21-35
Wu, An analysis of the squeeze film between porous rectangular plates, ASME Journal of Tribology, 94(1) (1972) 64-68
Cusano, Lubrication of a two layered porous journal bearing, Journal of mechanical Engineering Science, 14 (1972) 335-339
Lin, Squeeze film characteristics of long partial journal bearings lubricated with couplestress fluids, Tribol Int., 30 (1997) 53–58
Naduvinamani, Combined effects of surface roughness and viscosity variation due to additives on long journal bearings, Tribology Materials, Surfaces and Interface, 7(1) (2013) 21-35
Wu, An analysis of the squeeze film between porous rectangular plates, ASME Journal of Tribology, 94(1) (1972) 64-68
Cusano, Lubrication of a two layered porous journal bearing, Journal of mechanical Engineering Science, 14 (1972) 335-339
Online since: January 2019
Authors: Xiao Hong Wang, Yuan Hua Lin, Qiao Gang Hu, Shi Yu Zhong, Teng Dang, Hai Lun Wang
Ordnance Material Science and Engineering, 2006, 29(2): 66-69
Chinese Journal of Materials Research, 2009, 23(2): 211-214
Journal of Composite Materials. 2003, 15(8): 6-20
Journal of Inorganic Materials, 2015, 30(12): 1283-1290
Journal of Inorganic Materials, 2015, 30(12): 1283-1290
Chinese Journal of Materials Research, 2009, 23(2): 211-214
Journal of Composite Materials. 2003, 15(8): 6-20
Journal of Inorganic Materials, 2015, 30(12): 1283-1290
Journal of Inorganic Materials, 2015, 30(12): 1283-1290
Online since: June 2008
Authors: V.L. Sateesh, C. Venkatesan, C.S. Upadhyay
Introduction:
Piezoelectric materials are increasingly used in smart structures as sensors and actuators [1].
These materials develop an electric potential with the application of mechanical pressure, which allows piezo materials to be used as sensors.
Actuation is based on the converse effect, in this effect these materials produce mechanical strain with the application of electric potential.
F., "On the Nonlinear Equations of thermo-electro-elasticity," International Journal of Engineering Science, Vol. 9 (1971), pp. 587
S., and Venkatesan, C., "Electro-thermo-elastic Formulation for the Analysis of Smart Structures," Smart Materials and Structures, Vol. 15 (2006), pp. 401
These materials develop an electric potential with the application of mechanical pressure, which allows piezo materials to be used as sensors.
Actuation is based on the converse effect, in this effect these materials produce mechanical strain with the application of electric potential.
F., "On the Nonlinear Equations of thermo-electro-elasticity," International Journal of Engineering Science, Vol. 9 (1971), pp. 587
S., and Venkatesan, C., "Electro-thermo-elastic Formulation for the Analysis of Smart Structures," Smart Materials and Structures, Vol. 15 (2006), pp. 401
Online since: May 2011
Authors: Jin Huang, Shu Hua Wei, Ping Wang
For the flow field at, the MR material behaves like a solid.
References [1] J M He, J Huang, and C Liu: Advanced Materials Research Vols. 97-101 (2010) pp 875-879 [2] Carlson J.D: Journal of Intelligent Material Systems and Structures Vol. 13 (2002), p. 431-435 [3] Ikhouane Fayçal, Dyke Shirley J: Smart Materials and Structures Vol. 16 (2007), p. 605-616 [4] Xue Xiaomin, Sun Qing, Zhang Ling, et al: Journal of Intelligent Material Systems and Structures Vol. 20 (2009), p. 2089-2100 [5] Kyoung Kwan Ahn, Dinh Quang Truong, Muhammad Aminul Islam: Journal of Mechanical Science and Technology Vol. 23 (2009), p. 1485-1499 [6] Eduarda Costa, P.J.
Zhang: Key Engineering materials Vol. 274-276 (2004), p. 969-974 [9] Peter O.
Wei: Journal of Materials Processing Technology Vol. 129 (2002), p. 559-562 [12] Edward J.
Grunwald: Materials and Design Vol. 28 (2007), p. 2658–2664 [14] Kerem Karakoc, Edward J.
References [1] J M He, J Huang, and C Liu: Advanced Materials Research Vols. 97-101 (2010) pp 875-879 [2] Carlson J.D: Journal of Intelligent Material Systems and Structures Vol. 13 (2002), p. 431-435 [3] Ikhouane Fayçal, Dyke Shirley J: Smart Materials and Structures Vol. 16 (2007), p. 605-616 [4] Xue Xiaomin, Sun Qing, Zhang Ling, et al: Journal of Intelligent Material Systems and Structures Vol. 20 (2009), p. 2089-2100 [5] Kyoung Kwan Ahn, Dinh Quang Truong, Muhammad Aminul Islam: Journal of Mechanical Science and Technology Vol. 23 (2009), p. 1485-1499 [6] Eduarda Costa, P.J.
Zhang: Key Engineering materials Vol. 274-276 (2004), p. 969-974 [9] Peter O.
Wei: Journal of Materials Processing Technology Vol. 129 (2002), p. 559-562 [12] Edward J.
Grunwald: Materials and Design Vol. 28 (2007), p. 2658–2664 [14] Kerem Karakoc, Edward J.
Online since: April 2015
Authors: Zakaria Boumerzoug, Fabienne Delaunois, Fethi Remli
The selected work materials was low carbon steel (XC18) in the forms of bars.
Metallurgical and Materials Transactions A 2002; 33: 1245–54
Materials Science and Engineering A2005; 390: 88–97
Journal of Refractory Metals and Hard Materials 33 (2012) 75–86 [12] J.D.Thiele, S.N.
Bisi, Residual stress and surface roughness in turning, Journal of Engineering Materials and Technology 121 (3) (1999) 346 – 351–TASME.
Metallurgical and Materials Transactions A 2002; 33: 1245–54
Materials Science and Engineering A2005; 390: 88–97
Journal of Refractory Metals and Hard Materials 33 (2012) 75–86 [12] J.D.Thiele, S.N.
Bisi, Residual stress and surface roughness in turning, Journal of Engineering Materials and Technology 121 (3) (1999) 346 – 351–TASME.
Online since: October 2010
Authors: Xin Zhang, Xiao Qing Guo, Li Jun Qu
Experimental Materials and Methods
Materials Chemical composition analysis.
According to GB35888-89, the analysis of composition in raw materials was carried out.
In Chinese [6] Huang W., Lei X.C.: submitted to Journal of China Pulp & Paper 2005: 39-41.
In Chinese [7] Guo A.L: submitted to Journal of Shandong Textile Science &Technology 2005, (6): 49-51
[8] Jin J.Y., Xue W.L.: submitted to Journal of Fibre Technology 2006, (4): 60-62.
According to GB35888-89, the analysis of composition in raw materials was carried out.
In Chinese [6] Huang W., Lei X.C.: submitted to Journal of China Pulp & Paper 2005: 39-41.
In Chinese [7] Guo A.L: submitted to Journal of Shandong Textile Science &Technology 2005, (6): 49-51
[8] Jin J.Y., Xue W.L.: submitted to Journal of Fibre Technology 2006, (4): 60-62.
Online since: November 2012
Authors: Ilias Louis Kyratzis, Yen Bach Truong, Gary Peeters, Lance Nichols, Mike O'Shea, Lyndon Arnold, Rajkishore Nayak, Rajiv Padhye
Introduction
Meltblowing is a simple, versatile and one-step process for the production of materials in the micrometer and smaller scale.
Materials and Methods Materials: PP polymers of 100 and 1000 melt flow index (MFI) in pellet form, were prepared by chain scission of the base polymer (Moplen 241R (Lyondellbasell) with a MFI of 30) using the radical initiator (i.e. combination of 2, 5 dimethyl hexane and 2, 5 bis(tert-butyl peroxide) commonly known as DHBP) in an extruder [8].
Journal of Applied Polymer Science, 2002. 83(6): p. 1280-1287
Advanced Materials Research, 2012. 472: p. 1294-1299
Journal of Applied Polymer Science, 2004. 91(4): p. 2711-2720
Materials and Methods Materials: PP polymers of 100 and 1000 melt flow index (MFI) in pellet form, were prepared by chain scission of the base polymer (Moplen 241R (Lyondellbasell) with a MFI of 30) using the radical initiator (i.e. combination of 2, 5 dimethyl hexane and 2, 5 bis(tert-butyl peroxide) commonly known as DHBP) in an extruder [8].
Journal of Applied Polymer Science, 2002. 83(6): p. 1280-1287
Advanced Materials Research, 2012. 472: p. 1294-1299
Journal of Applied Polymer Science, 2004. 91(4): p. 2711-2720
Online since: July 2014
Authors: Yu Qing Zhao, Chun Zhen Qiao, Wei Jiao Chen
Unfortunately, during calcination, the relatively compact limestone is transformed into a porous material[4-6].
Chemical Engineering Science, 2006, 61:1195 – 1202 [3] Frank Zeman.
International Journal of Greenhouse Gas Control 2, 2008:203-209
Chemical Engineering Journal, 2003, 96(1-3): 187-195
Progress in Energy and Combustion Science, 2010,36 : 260–279 [15] D.
Chemical Engineering Science, 2006, 61:1195 – 1202 [3] Frank Zeman.
International Journal of Greenhouse Gas Control 2, 2008:203-209
Chemical Engineering Journal, 2003, 96(1-3): 187-195
Progress in Energy and Combustion Science, 2010,36 : 260–279 [15] D.