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Online since: February 2020
Authors: B. Ravi Sankar, P. Umamaheswarrao, K. Rajasekhara Babu, M. Pardhasaradhi
Ma, Materials Science Engineering, R50 (2005) 1-78
Arun Kumar, Joel Morris, Optimization of Process Parameters during Friction Stir Welding of dissimilar Aluminium Alloys (AA 5083 & AA 6061) using Taguchi L9 Orthogonal Array, Applied Mechanics and Materials, 592-594 (2014) 630-635
Roslee, Study the Role of Friction Stir Welding Tilt Angle on Microstructure and Hardness, Applied Mechanics and Materials, 799-800 (2015) 434-438 [4] Masoud Ahmadnia, Saeid Shahraki, Mojtaba Ahmadi Kamarposhti, Experimental studies on optimized mechanical properties while dissimilar joining AA6061 and AA5010 in a friction stir welding process, International Journal of Advanced Manufacturing Technology, DOI 10.1007/s00170-016-8636-y [5] M.
Umamaheswarrao, Modelling and Optimisation of Friction Stir Welding on AA6061 Alloy, Materials Today Proceedings, 4 (2017) 7448–7456
Keshavamurthy, Optimization of Process Parameters for Al6061-Al7075 alloys in Friction Stir Welding using Taguchi’s Technique, Materials Today Proceedings, 5 (2018) 3027–3035
Arun Kumar, Joel Morris, Optimization of Process Parameters during Friction Stir Welding of dissimilar Aluminium Alloys (AA 5083 & AA 6061) using Taguchi L9 Orthogonal Array, Applied Mechanics and Materials, 592-594 (2014) 630-635
Roslee, Study the Role of Friction Stir Welding Tilt Angle on Microstructure and Hardness, Applied Mechanics and Materials, 799-800 (2015) 434-438 [4] Masoud Ahmadnia, Saeid Shahraki, Mojtaba Ahmadi Kamarposhti, Experimental studies on optimized mechanical properties while dissimilar joining AA6061 and AA5010 in a friction stir welding process, International Journal of Advanced Manufacturing Technology, DOI 10.1007/s00170-016-8636-y [5] M.
Umamaheswarrao, Modelling and Optimisation of Friction Stir Welding on AA6061 Alloy, Materials Today Proceedings, 4 (2017) 7448–7456
Keshavamurthy, Optimization of Process Parameters for Al6061-Al7075 alloys in Friction Stir Welding using Taguchi’s Technique, Materials Today Proceedings, 5 (2018) 3027–3035
Online since: June 2011
Authors: Sheng Lu, Jing Chen, Liang Wen Wu
Experimental
Experimental materials and pretreatment.
Ebert: Materials Science and Engineering A Vol. 302 (1) (2001), p. 37
Meng: Materials Protection Vol. 43 (1) (2010), p. 1
Zong: Journal of Aeronautical Materials Vol. 29 (4) (2009), p. 47
Liu: Material science forum Vol. 561-565 (2007), p. 1185
Ebert: Materials Science and Engineering A Vol. 302 (1) (2001), p. 37
Meng: Materials Protection Vol. 43 (1) (2010), p. 1
Zong: Journal of Aeronautical Materials Vol. 29 (4) (2009), p. 47
Liu: Material science forum Vol. 561-565 (2007), p. 1185
Online since: October 2015
Authors: Tie Ming Xiang, Peng Li, Li Zhi Gu, Jian Min Xu
Fig.9 Comparison chart of natural frequency
Fig.10 Comparison chart of critical revolution speed
Conclusions
Select the low carbon alloy steel 20CrMnTi (China specification) with good mechanical properties as materials, which the carbon content is 0.17%-0.23%, the elastic modulus E=2.06675×1011Pa, the Poisson's ratio is 0.25, and the density is 7.85×103kg/m3.
Journal of Sound and Vibration, Vol.333 (2014), pp.4376-4401
Journal of Sound and Vibration.Vol.344 (2015), pp.313-331
International Journal of Mechanical Sciences.Vol.93 (2015), pp.22-31
European Journal of Mechanics A/Solids, Vol.47 (2014), pp.82-91
Journal of Sound and Vibration, Vol.333 (2014), pp.4376-4401
Journal of Sound and Vibration.Vol.344 (2015), pp.313-331
International Journal of Mechanical Sciences.Vol.93 (2015), pp.22-31
European Journal of Mechanics A/Solids, Vol.47 (2014), pp.82-91
Online since: January 2012
Authors: Wei Ping Zhao, Cheng Yi
On Stress Concentration Factor of Perforated Plate Filling
with Different Materials
Zhao Weiping1, a, Yi Cheng1,b
1China University of Mining and Technology, Beijing 100083, China
aweipingzhao163@163.com, byicheng312@tom.com
Keywords: Stress concentration factor, Elasticity, Compound plate, Finite element method
Abstract.
Stress concentration may cause fatigue cracks and static fracture in structure components made of brittle materials.
Conclusions This paper presents a new method to calculate the stress concentration factor of composite materials. and a comparison with numerical simulations has proven the reliability of the proposed method.
Sun: Fatigue fracture properties of steel fiber reinforced concrete and engineering applications (Science Press, China 2003)
Li: Journal of China University of Mining & Technology Vol. 37, p, 450
Stress concentration may cause fatigue cracks and static fracture in structure components made of brittle materials.
Conclusions This paper presents a new method to calculate the stress concentration factor of composite materials. and a comparison with numerical simulations has proven the reliability of the proposed method.
Sun: Fatigue fracture properties of steel fiber reinforced concrete and engineering applications (Science Press, China 2003)
Li: Journal of China University of Mining & Technology Vol. 37, p, 450
Online since: February 2013
Authors: Shu Cong Zhen, Yong Xun, Bu Quan Miao
Journal of hazardous materials, 2009,170(1):345-350
Journal of Wuhan University of Technology(Materials Science Edition), 2010,25(4):613-618
Journal of Building Materials, 2011,14(3):299-304
Journal of Materials Science and Engineering, 2010, 28(1):31-36
ACI materials journal, 2005,102(6) :375-381
Journal of Wuhan University of Technology(Materials Science Edition), 2010,25(4):613-618
Journal of Building Materials, 2011,14(3):299-304
Journal of Materials Science and Engineering, 2010, 28(1):31-36
ACI materials journal, 2005,102(6) :375-381
Online since: September 2018
Authors: Mamoun Fellah, Nouel Hezil, Kamel Guerfi, Mohamed Zine Touhami, Omar Assala
Applied Materials and Interfaces, 7 (3) (2016) 1795–1803
Materials, 11 (2018) 269
Journal of Hazardous Materials, 282 (2015) 150-157
Advances in Materials Science and Engineering, 2015 (2015) 8 pages
Journal of Basic and Applied Sciences 5 (1) (2016) 1-12
Materials, 11 (2018) 269
Journal of Hazardous Materials, 282 (2015) 150-157
Advances in Materials Science and Engineering, 2015 (2015) 8 pages
Journal of Basic and Applied Sciences 5 (1) (2016) 1-12
Online since: February 2018
Authors: Jin Huan Xia, Wei Hong Li, Yong Wang, Kai Ming Cheng, Ji Xue Zhou
Materials Science and Engineering A. (2016) 84-92
Materials Science and Technology. 31(9) (2015) 1122-1131
Materials Science & Technology. (2016)
Materials Science & Engineering A. 656 (2016) 102-110
Materials Science and Engineering A. (2013) 36-40.
Materials Science and Technology. 31(9) (2015) 1122-1131
Materials Science & Technology. (2016)
Materials Science & Engineering A. 656 (2016) 102-110
Materials Science and Engineering A. (2013) 36-40.
Online since: May 2025
Authors: Dániel Gere
Plastic packaging materials have a very short lifetime due to their function.
Materials & Methods Materials.
Bocz, Recycled PET packaging materials of improved toughness— Importance of devitrification of the rigid amorphous fraction, Macromolecular Materials and Engineering. (2024) 2400219
Mohanty, Biodegradable compatibilized polymer blends for packaging applications: A literature review, Journal of Applied Polymer Science. 135 (2018) 45726
Gan: Influence of blend composition and compatibilizer on mechanical and morphological properties of recycled HDPE/PET blends, Materials Sciences and Applications. 5 (2014) 943-952
Materials & Methods Materials.
Bocz, Recycled PET packaging materials of improved toughness— Importance of devitrification of the rigid amorphous fraction, Macromolecular Materials and Engineering. (2024) 2400219
Mohanty, Biodegradable compatibilized polymer blends for packaging applications: A literature review, Journal of Applied Polymer Science. 135 (2018) 45726
Gan: Influence of blend composition and compatibilizer on mechanical and morphological properties of recycled HDPE/PET blends, Materials Sciences and Applications. 5 (2014) 943-952
Online since: April 2023
Authors: R.K. Zhdanov, Y.Y. Bozhko, V.R. Belosludov, K.V. Gets
Kim, Carbon Nanotube-Reinforced Thermotropic Liquid Crystal Polymer Nanocomposites, Materials 2 (2009) 1955-1974
Efremochkin, Nano-additives for composite building materials and their environmental SAFETY, International Journal of Applied Engineering Research. 11 (2016) 7561-7565
Minko, Determination of the thermal conductivity of wood insulation materials in conditions of non-stationary heat transferInternational, Journal of Applied Engineering Research. 22 (2014) 15791
Zajcev, Effective Fine-Grained Concrete with High-Dispersed Additive Based on the Natural Mineral Wollastonite, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 945 (2018) 85-90
Bondarenko, Effective Highly Dispersed Additive for Concretes on the Basis of Natural Mineral Raw Materials, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 992 (2019) 168-172
Efremochkin, Nano-additives for composite building materials and their environmental SAFETY, International Journal of Applied Engineering Research. 11 (2016) 7561-7565
Minko, Determination of the thermal conductivity of wood insulation materials in conditions of non-stationary heat transferInternational, Journal of Applied Engineering Research. 22 (2014) 15791
Zajcev, Effective Fine-Grained Concrete with High-Dispersed Additive Based on the Natural Mineral Wollastonite, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 945 (2018) 85-90
Bondarenko, Effective Highly Dispersed Additive for Concretes on the Basis of Natural Mineral Raw Materials, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 992 (2019) 168-172
Online since: June 2014
Authors: Ji Hong Tian, Guang Ming Liu, Zhi Lei Liu, Cai Fu Wang, Gang Liu
Sauzay, Materials Science and Engineering: A 510, 99 (2009)
Isaac Samuel, Journal of Nuclear Materials 412, 82 (2011)
Bischoff, A.Motta, C.Eichfeld, Journal of Nuclear Materials 441, 604(2012)
Maruyama, Materials transactions 50, 2656 (2009)
Dooley, International Materials Reviews 55, 129 (2010)
Isaac Samuel, Journal of Nuclear Materials 412, 82 (2011)
Bischoff, A.Motta, C.Eichfeld, Journal of Nuclear Materials 441, 604(2012)
Maruyama, Materials transactions 50, 2656 (2009)
Dooley, International Materials Reviews 55, 129 (2010)