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Online since: December 2013
Authors: Xue Jun Jin, Wei Shun Zhou, Ming Jiang Jin
Bigot: Materials Science and Engineering A, Vol. 124 (1990) No.3, p.241
Tadaki: Materials Science and Engineering A, Vol. 273-275 (1999), p.262
Hirotsu: Materials Science and Engineering A, Vol. 217-218 (1996), p.235
Jin: Materials Letters, Vol. 80 (2012), p.152-154
Kakeshita: Materials Letters, Vol. 109 (2013), p.190
Tadaki: Materials Science and Engineering A, Vol. 273-275 (1999), p.262
Hirotsu: Materials Science and Engineering A, Vol. 217-218 (1996), p.235
Jin: Materials Letters, Vol. 80 (2012), p.152-154
Kakeshita: Materials Letters, Vol. 109 (2013), p.190
Online since: October 2011
Authors: Vandana Gupta, Satya Bir Singh
Material of disc is orthotropic and incompressible.
2.
Here case 3 is for isotropic material.
Ray, Modeling the anisotropy and creep in orthotropic Al-SiC composite rotating disc, Mechanics of Materials, 34 (2002), 363-372
Gupta et. al., Steady state creep and material parameters in a rotating disc of Al-SiCp composite, European Journal of Mechanics A/Solids, 23 (2004), 335-344 [12] S.
Sciences, Vol. 5 ( 2010) no. 11, 509 – 516.
Here case 3 is for isotropic material.
Ray, Modeling the anisotropy and creep in orthotropic Al-SiC composite rotating disc, Mechanics of Materials, 34 (2002), 363-372
Gupta et. al., Steady state creep and material parameters in a rotating disc of Al-SiCp composite, European Journal of Mechanics A/Solids, 23 (2004), 335-344 [12] S.
Sciences, Vol. 5 ( 2010) no. 11, 509 – 516.
Online since: June 2020
Authors: Ke Zhong, Fei Chen, Rong Ma, Wei Zeng, Xiao Chen Ma
In this study, a series of laboratory investigation were conducted on the cement stabilized macadam materials.
Therefore, it is important to clearly understand the deterioration law of semi-rigid materials and evaluate the remaining life of materials to fully utilize the structural materials of the original pavement to optimize the design, especially in the structure design of resurface or rehabilitation.
Fatigue assessment of cement-treated base for roads: An examination of beam-fatigue tests[J], Journal of Materials in Civil Engineering. 2016, 28(10): 04016095
Standardization of Fatigue Characteristics of Cement-Treated Aggregate Base Materials under Different Stress States[J], Applied Sciences. 2018, 8(9): 1500
Transportation Research Record: Journal of the Transportation Research Board, (1539), 6-17
Therefore, it is important to clearly understand the deterioration law of semi-rigid materials and evaluate the remaining life of materials to fully utilize the structural materials of the original pavement to optimize the design, especially in the structure design of resurface or rehabilitation.
Fatigue assessment of cement-treated base for roads: An examination of beam-fatigue tests[J], Journal of Materials in Civil Engineering. 2016, 28(10): 04016095
Standardization of Fatigue Characteristics of Cement-Treated Aggregate Base Materials under Different Stress States[J], Applied Sciences. 2018, 8(9): 1500
Transportation Research Record: Journal of the Transportation Research Board, (1539), 6-17
Online since: August 2010
Authors: Hong You Li, Xiao Mei Liu, Qing Juan Zheng, Yu Ying Shi, Yi Jian Huang
Usually, it is sufficient to modeling some visco-elastic materials use linear rheological models
which consist of linear springs and viscous dashpots, and results in constitutive equations of
integer-order derivative.
Magneto-rheological fluids (MRF) are such visco-elastic materials that respond to an applied magnetic field with a change in rheological behavior.
Journal of Rheology 27 (1983), Nr. 3, S. 201-210
Journal of Applied Mechanics 51 (1984), S. 299-307
Journal of Northeastern University (Natural Science), Vol.28, No. 1, Jan. 2007.
Magneto-rheological fluids (MRF) are such visco-elastic materials that respond to an applied magnetic field with a change in rheological behavior.
Journal of Rheology 27 (1983), Nr. 3, S. 201-210
Journal of Applied Mechanics 51 (1984), S. 299-307
Journal of Northeastern University (Natural Science), Vol.28, No. 1, Jan. 2007.
Online since: June 2025
Authors: Jun Xiang Jiang, Lei Ke
Review on piezoelectric actuators: materials, classifications, applications, and recent trends [J].
Materials Science in Semiconductor Processing. 2023, 158: 107324
Smart Materials and Structures. 2017, 26(8): 085031
Journal of Intelligent Material Systems and Structures. 2010, 21(18): 1867-1897
Applied Sciences. 2017, 7(12): 1324
Materials Science in Semiconductor Processing. 2023, 158: 107324
Smart Materials and Structures. 2017, 26(8): 085031
Journal of Intelligent Material Systems and Structures. 2010, 21(18): 1867-1897
Applied Sciences. 2017, 7(12): 1324
Online since: May 2023
Authors: Satyendra N. Shukla, Pratiksha Gaur, Ripul Mehrotra
These porous substances attract substantial interest among researchers in chemistry, chemical engineering, and materials science to find novel porous stuff with improved properties and applications.
Nanoporous Materials for the Onboard Storage of Natural Gas.
Applications of nanocomposite materials in drug delivery.
Materials, 15, 7591
Caglar, (2020) Fabrication and characterization of green synthesized ZnO nanoparticle-based dye-sensitized solar cell, Journal of Science: Advanced Materials and Devices, 5, 185 – 191
Nanoporous Materials for the Onboard Storage of Natural Gas.
Applications of nanocomposite materials in drug delivery.
Materials, 15, 7591
Caglar, (2020) Fabrication and characterization of green synthesized ZnO nanoparticle-based dye-sensitized solar cell, Journal of Science: Advanced Materials and Devices, 5, 185 – 191
Online since: October 2014
Authors: Kang Ning Sun, Ai Min Li, Yuan Cheng
Materials
FeSO4·7H2O Sinopharm Chemical Reagent Co., Ltd.
Journal of Magnetism and Magnetic Materials, 2005, 293: 310-313
Journal of Magnetism and Magnetic Materials, 2005, 293: 328-333
Journal of Magnetism and Magnetic Materials, 2005, 293: 320- 327
Journal of Magnet ism and Magnetic Materials, 2005, 293:287-292
Journal of Magnetism and Magnetic Materials, 2005, 293: 310-313
Journal of Magnetism and Magnetic Materials, 2005, 293: 328-333
Journal of Magnetism and Magnetic Materials, 2005, 293: 320- 327
Journal of Magnet ism and Magnetic Materials, 2005, 293:287-292
Online since: June 2016
Authors: Rupinder Singh
Journal of Materials Processing Technology. 142, 648- 658, 2003
Journal of Material Processing Technology. 209, 4051-4061, 2008
Journal of materials processing technology. 189, 97–106, 2008
Journal of Materials Processing Technology. 180, 37- 43, 2006
Journal of Mechanical Science and Technology. 28 (2), 699-704, 2014
Journal of Material Processing Technology. 209, 4051-4061, 2008
Journal of materials processing technology. 189, 97–106, 2008
Journal of Materials Processing Technology. 180, 37- 43, 2006
Journal of Mechanical Science and Technology. 28 (2), 699-704, 2014
Online since: March 2006
Authors: Bruno A. Latella, Besim Ben-Nissan, R. Roest, Greg Heness
Materials Division, ANSTO, PMB1, Menai, NSW, 2560, Australia
* g.heness@uts.edu.au
Keywords: Thin Film, Fracture Toughness, Nanoscale, Hydroxyapatite, Sol-gel
Abstract: In the biomedical field, the surface modification of titanium aims to inhibit wear, reduce
corrosion and ion release, and promote biocompatibility.
References 1 Kirk, P.B., Filiaggi, M., Sodhi, R., Pilliar, R., Journal of Biomedical Materials Research (USA), 48(4) (1999), p. 424 2 Chen, Y. and Liu, W., Materials Letters, 55(6) (2002, p. 407 3 Filiaggi, M.J., Pilliar, R.M. and Abdullah, D., Journal of Biomedical Materials Research, 33(4) (1996), p. 239 4 Kirk, P. and Pilliar, R., J.
Sci., 34 (16) (1999), p. 3967 5 Jaffe, W.L. and Scott, D.F., The Journal of Bone and Joint Surgery (American Volume), 78A(12) (1996) p. 1918 6 Brunette, D.M., Titanium in Medicine - Material Science, Surface Science, Engineering, Biological Responses and Medical Applications, (Springer Heidelberg, 2001, p. 1000) 7 Oonishi, H., Bioceramics. in Proceedings of 1st International Bioceramic Symposium. 1988.
(Wiley - Interscience. 1974 p. 801. 12 Critchlow, G.W. and Brewis, D.M., International Journal of Adhesion and Adhesives,. 15(3): (1995) p. 161 13 Arsov, L.D., Electrochimica Acta, 30(12) (1985). p. 1645 14 Aladjem, A., Journal of Materials Science, 8 (1973) p. 688 15 Delplancke, J.L. and Winand, R., Electrochimica Acta, 33 (1988) p. 1539 16 Blondeau, G., Froelicher, M., Froment, M. and.
Davis: ASM. p. 1521 21 Hu, M.S. and Evans, A.G., Acta Metallurgica,. 37(3) (1989). p. 917 22 Ignat, M., Key Engineering Materials, 116-117 (1996). p. 279 23 Beuth, J.L. and Klingbeil, N.W., J.
References 1 Kirk, P.B., Filiaggi, M., Sodhi, R., Pilliar, R., Journal of Biomedical Materials Research (USA), 48(4) (1999), p. 424 2 Chen, Y. and Liu, W., Materials Letters, 55(6) (2002, p. 407 3 Filiaggi, M.J., Pilliar, R.M. and Abdullah, D., Journal of Biomedical Materials Research, 33(4) (1996), p. 239 4 Kirk, P. and Pilliar, R., J.
Sci., 34 (16) (1999), p. 3967 5 Jaffe, W.L. and Scott, D.F., The Journal of Bone and Joint Surgery (American Volume), 78A(12) (1996) p. 1918 6 Brunette, D.M., Titanium in Medicine - Material Science, Surface Science, Engineering, Biological Responses and Medical Applications, (Springer Heidelberg, 2001, p. 1000) 7 Oonishi, H., Bioceramics. in Proceedings of 1st International Bioceramic Symposium. 1988.
(Wiley - Interscience. 1974 p. 801. 12 Critchlow, G.W. and Brewis, D.M., International Journal of Adhesion and Adhesives,. 15(3): (1995) p. 161 13 Arsov, L.D., Electrochimica Acta, 30(12) (1985). p. 1645 14 Aladjem, A., Journal of Materials Science, 8 (1973) p. 688 15 Delplancke, J.L. and Winand, R., Electrochimica Acta, 33 (1988) p. 1539 16 Blondeau, G., Froelicher, M., Froment, M. and.
Davis: ASM. p. 1521 21 Hu, M.S. and Evans, A.G., Acta Metallurgica,. 37(3) (1989). p. 917 22 Ignat, M., Key Engineering Materials, 116-117 (1996). p. 279 23 Beuth, J.L. and Klingbeil, N.W., J.
Online since: March 2008
Authors: Yu Fu Li, Xian Li Liu, Peng Wang, Hong Min Pen, Yu Wang
The workpiece material property is a function of temperature, strain, and strain rate in the
primary and secondary shear zones.
The heat generated during cutting is caused by the large plastic deformations and friction between workpiece material and tool.
Liu: Journal of Manufacturing Science and Engineering, (2005), pp.476-483
Altan: Journal of Materials Processing Technology, (2004), pp.72-81
Giovanola: Mechanics of Materials, (1988) No.7, pp.73-78
The heat generated during cutting is caused by the large plastic deformations and friction between workpiece material and tool.
Liu: Journal of Manufacturing Science and Engineering, (2005), pp.476-483
Altan: Journal of Materials Processing Technology, (2004), pp.72-81
Giovanola: Mechanics of Materials, (1988) No.7, pp.73-78