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Online since: June 2010
Authors: Hui Ji Shi, Guo Dong Zhang, Jian Lu, Zhao Xi Wang, Bao Ping Qu, Xian Bo Zhao
A considerable amount of research has been conducted to understand the damaging effect of
hydrogen in materials [5,6].
References [1] R.K.Dayal, N.parvathavarthini, Sadhana, Vol.28(2003), p.431 [2] R.D.Sisson, G.Fuller, Wire Forming Technology International, Vol.20 (2007) p.20 [3] Z.X.Wang, H.J.Shi, Nuclear engineering and design Vol.238(2008) p.3186 [4] T.Nambu, K.Shimizu, Journal of Alloys and Compounds Vol.446(2007) p.588 [5] R.A.Siddiqui, H.A.Abdullah, Journal of Materials processing technology Vol.170(2005) p.430 [6] N.F.Rhines, Trans.ASM Vol.48(1956) p.919 [7] J.S.
Ha, E.Fleury, International Journal of Pressure Vessels and Piping, Vol.75 (1998) p.707 [8] S.
Timoshenko, Strength of materials: II.
Chung, Fatigue Fract Engng Mater Struct Vol.22 (1999) p.889 [10] J.Kameda, X.Mao, Journal of materials science Vol.27(1992) p.983 [11] G.M.V.Pressouyre, C.G.Interrante, Current solution to hydrogen problems in steels, ASM, Metal Park, OH, 1982, p.18
References [1] R.K.Dayal, N.parvathavarthini, Sadhana, Vol.28(2003), p.431 [2] R.D.Sisson, G.Fuller, Wire Forming Technology International, Vol.20 (2007) p.20 [3] Z.X.Wang, H.J.Shi, Nuclear engineering and design Vol.238(2008) p.3186 [4] T.Nambu, K.Shimizu, Journal of Alloys and Compounds Vol.446(2007) p.588 [5] R.A.Siddiqui, H.A.Abdullah, Journal of Materials processing technology Vol.170(2005) p.430 [6] N.F.Rhines, Trans.ASM Vol.48(1956) p.919 [7] J.S.
Ha, E.Fleury, International Journal of Pressure Vessels and Piping, Vol.75 (1998) p.707 [8] S.
Timoshenko, Strength of materials: II.
Chung, Fatigue Fract Engng Mater Struct Vol.22 (1999) p.889 [10] J.Kameda, X.Mao, Journal of materials science Vol.27(1992) p.983 [11] G.M.V.Pressouyre, C.G.Interrante, Current solution to hydrogen problems in steels, ASM, Metal Park, OH, 1982, p.18
Online since: January 2011
Authors: Vladislav Kozák, Jiří Vala, Stanislav Šťastník
Micro- and macro-scale thermomechanical modelling of bulk deformation in early-age cement-based materials
Jiří Vala1,a, Stanislav Šťastník1,b and Vladislav Kozák2,c
1Brno University of Technology, Faculty of Civil Engineering, Veveří 95, 602 00 Brno, Czech Republic
2Institute of Physics of Material, AS CR, Žižkova 22, 616 62 Brno, Czech Republic
avala.j@fce.vutbr.cz, bstastnik.s@ fce.vutbr.cz, ckozak@ipm.cz
Keywords: cement-based composites, early-age massive concrete structures, hygro-thermo-chemo-mechanical modelling, scale bridging.
Practical application Most difficulties of computational modelling of early-age behaviour of cement-based materials have their origin in the non-periodic material structure, formed as a result of rather complicated chemical reactions, its different mechanisms of deformation under stress and tension, including the danger of fracturing, the uncertain boundary conditions from external environment and in the need of cooperation with the standard or pre-stressed reinforcement of other stiffening particles.
MSM 0021630511, by the Czech Science Foundation No. 101/08/1304, by the project of specific university research of Brno University of Technology No.
Schrefler: International Journal for Numerical Methods in Engineering 67 (2006), 297-363
Šťastník: Building Research Journal 52 (2004), 31-56
Practical application Most difficulties of computational modelling of early-age behaviour of cement-based materials have their origin in the non-periodic material structure, formed as a result of rather complicated chemical reactions, its different mechanisms of deformation under stress and tension, including the danger of fracturing, the uncertain boundary conditions from external environment and in the need of cooperation with the standard or pre-stressed reinforcement of other stiffening particles.
MSM 0021630511, by the Czech Science Foundation No. 101/08/1304, by the project of specific university research of Brno University of Technology No.
Schrefler: International Journal for Numerical Methods in Engineering 67 (2006), 297-363
Šťastník: Building Research Journal 52 (2004), 31-56
Online since: July 2016
Authors: Ján Dusza, Alexandra Kovalčíková, Pawel Rutkowski, Richard Sedlák, Monika Tatarková
Indentation Fracture Toughness of Al2O3 + GPLs and Si3N4 + GPLs Systems
Richard Sedlák1,2,a*, Alexandra Kovalčíková1,b, Monika Tatarková1,c,
Pawel Rutkowski3,d and Ján Dusza1,e
1Institute of Materials Research, Slovak Academy of Sciences, Department of Structural Ceramics, Watsonova 47, 040 01 Košice, Slovak Republic
2Technical University of Košice, Faculty of Metallurgy, Letná 9, 040 01 Košice, Slovak Republic
3AGH University of Science and Technology in Krakow, Faculty of Material Science and Ceramics, Department of Ceramics and Refractories, al.
However, low fracture toughness they have limited applications in the materials.
Results and discussion The microstructures of both sintered materials consist of fine submicron-sized grains.
Seal, Graphene based materials: Past, present and future, Progress in Materials Science. 56 (2011) 1178-1271
Clauer, Indentation fracture of WC-Co cermets, Journal of Materials Science. 20 (1985) 1873-1882
However, low fracture toughness they have limited applications in the materials.
Results and discussion The microstructures of both sintered materials consist of fine submicron-sized grains.
Seal, Graphene based materials: Past, present and future, Progress in Materials Science. 56 (2011) 1178-1271
Clauer, Indentation fracture of WC-Co cermets, Journal of Materials Science. 20 (1985) 1873-1882
Online since: May 2014
Authors: Togeir Welo, Mads Bolstad
The rapid application of alternative materials is vital to the environmental and sustainable development of the European manufacturing industry.
‘A design method for prediction of dimensions of rectangular hollow sections formed in stretch bending’, Journal of Materials Processing Technology Volume 128, Issues 1–3, 6, 2002, Pages 48–66
Stelson, ‘Modeling and Closed-Loop Control of Stretch Bending of Aluminum Rectangular Tubes’, Journal of Manufacturing Science and Engineering, vol. 125, pp. 113-119, 2003
Bastard, ‘On bend-stretch forming of aluminum extruded tubes — I: experiments’ International Journal of Mechanical Sciences, Volume 43, Issue 5, May 2001, Pages 1283–1317 [8] Corona, E, ‘A simple analysis for bend-stretch forming of aluminum extrusions’, International Journal of Mechanical Sciences, Volume 43, Issue 5, May 2001, Pages 1283–1317
[10] Frank Vollertsen, F, Sprenger, A., Kraus, J., and Arnet, H, ‘Extrusion, channel, and profile bending: a review’, Journal of Materials Processing Technology, Volume 87, Issues 1–3, 15 March 1999, Pages 1–27 [11] Jin, Z., , Luo, S., and Fang, X.D., , ‘KBS-aided design of tube bending processes’, Engineering Applications of Artificial Intelligence, Volume 14, Issue 5, October 2001, Pages 599–606 [12] Lee,, J.W., Kwon, H.C., Rhee, H.M, and Im, Y.T., ‘Determination of forming limit of a structural aluminum tube in rubber pad bending’, Journal of Materials Processing Technology, Volume 140, Issues 1–3, 22 September 2003, Pages 487–493, Proceedings of the 6th Asia Pacific Conference on materials Processing.
‘A design method for prediction of dimensions of rectangular hollow sections formed in stretch bending’, Journal of Materials Processing Technology Volume 128, Issues 1–3, 6, 2002, Pages 48–66
Stelson, ‘Modeling and Closed-Loop Control of Stretch Bending of Aluminum Rectangular Tubes’, Journal of Manufacturing Science and Engineering, vol. 125, pp. 113-119, 2003
Bastard, ‘On bend-stretch forming of aluminum extruded tubes — I: experiments’ International Journal of Mechanical Sciences, Volume 43, Issue 5, May 2001, Pages 1283–1317 [8] Corona, E, ‘A simple analysis for bend-stretch forming of aluminum extrusions’, International Journal of Mechanical Sciences, Volume 43, Issue 5, May 2001, Pages 1283–1317
[10] Frank Vollertsen, F, Sprenger, A., Kraus, J., and Arnet, H, ‘Extrusion, channel, and profile bending: a review’, Journal of Materials Processing Technology, Volume 87, Issues 1–3, 15 March 1999, Pages 1–27 [11] Jin, Z., , Luo, S., and Fang, X.D., , ‘KBS-aided design of tube bending processes’, Engineering Applications of Artificial Intelligence, Volume 14, Issue 5, October 2001, Pages 599–606 [12] Lee,, J.W., Kwon, H.C., Rhee, H.M, and Im, Y.T., ‘Determination of forming limit of a structural aluminum tube in rubber pad bending’, Journal of Materials Processing Technology, Volume 140, Issues 1–3, 22 September 2003, Pages 487–493, Proceedings of the 6th Asia Pacific Conference on materials Processing.
Online since: January 2018
Authors: Meiry Gláucia Freire Rodrigues, Janaína C. Marinho, Tellys Lins de Almeida Barbosa
Materials and Methods
Synthesis of Molecular Sieve SBA-15.
Rodrigues: Materials Science Forum Vol. 805 (2015), p. 684
Rodrigues: Materials Science Forum Vol. 805 (2014), p. 678
Rodrigues: Materials Science Forum Vol. 798 (2014), p. 116
Rodrigues: Materials Science Forum Vol. 798 (2014), p. 100
Rodrigues: Materials Science Forum Vol. 805 (2015), p. 684
Rodrigues: Materials Science Forum Vol. 805 (2014), p. 678
Rodrigues: Materials Science Forum Vol. 798 (2014), p. 116
Rodrigues: Materials Science Forum Vol. 798 (2014), p. 100
Online since: January 2013
Authors: Guang Lin Shi, Wu Bin Xu, De Jian Zhou, Wei Li, You Ping Sun
Fabrication of the composite materials is focused on obtaining materials with improved properties compared to the matrix material.
Drilling studies of an Al2O3-Al metal matrix composite, Journal of Materials Science, 1995, 30(24): 6273-6280
Structure properties and corrosion resistance of PM composite materials based on EN AW-2124 aluminium alloy reinforced with the Al2O3 ceramic principles, Journal of Materials Processing Technology, 2005, 162–165 (5): 27–33
The structure and properties of PM composite materials based on EN AW-2124 aluminum alloy reinforced with the BN or Al2O3 ceramic particles, Journal of Materials Processing Technology, 2006, 175(1-3): 186-191
Journal of Materials Engineering, 2002, 11: 3-6.
Drilling studies of an Al2O3-Al metal matrix composite, Journal of Materials Science, 1995, 30(24): 6273-6280
Structure properties and corrosion resistance of PM composite materials based on EN AW-2124 aluminium alloy reinforced with the Al2O3 ceramic principles, Journal of Materials Processing Technology, 2005, 162–165 (5): 27–33
The structure and properties of PM composite materials based on EN AW-2124 aluminum alloy reinforced with the BN or Al2O3 ceramic particles, Journal of Materials Processing Technology, 2006, 175(1-3): 186-191
Journal of Materials Engineering, 2002, 11: 3-6.
Online since: September 2008
Authors: Jin Lian Hu, Zheng E Dong, Yan Liu, Yi Jun Liu
The thermal and hygrothermal effects of wool materials were
also summarized to discuss the shape memory behavior of wool materials.
But are there natural shape memory materials?
Materials Today, Vol.10, No.4 (2007), p 20-28
Hu, et al.: International journal of sheep and wool sciences.
Wortmann: International journal of sheep and wool science.
But are there natural shape memory materials?
Materials Today, Vol.10, No.4 (2007), p 20-28
Hu, et al.: International journal of sheep and wool sciences.
Wortmann: International journal of sheep and wool science.
Online since: November 2012
Authors: Li Na Fang, Shu Qi Liu
Namely, it is the time since the customers send out the order, then manufactures process products with procurement of raw materials and recycling of waste materials, until customers receive the product.
[2] Jing-yan Ge, Wen-hui Zhao: International Conference on Management Science ﹠ Engineering.
,M.Fisher: submitted to Management Science (2000)
[4] Lee, H.L., K.So, and C.Tang: submitted to Management Science (2000)
[9] Shihua Ma, Fushou Wang: submitted to Chinese Journal of Management Science (2006). in Chinese
[2] Jing-yan Ge, Wen-hui Zhao: International Conference on Management Science ﹠ Engineering.
,M.Fisher: submitted to Management Science (2000)
[4] Lee, H.L., K.So, and C.Tang: submitted to Management Science (2000)
[9] Shihua Ma, Fushou Wang: submitted to Chinese Journal of Management Science (2006). in Chinese
Online since: May 2013
Authors: Guo Qin Liu, Xin Qi Liu, Lu Yao Chen, Nai Jun Yan
Materials and methods
Materials.
Journal of Cereal Science, 44, 93–100. (2006) [3] Dissanayake, M., & Vasiljevic, T..
Journal of Dairy Science, 92, 1387-1397. (2009) [4] Hu, X., Zhao, M., Sun, W., Zhao, G., & Ren, J..
Journal of Agricultural and Food Chemistry, 59, 8886-8894. (2011) [5] A.
Journal of South China University of Technology (Natural Science Edition), 5, 115-120. (2012) [7] Pearce, K.
Journal of Cereal Science, 44, 93–100. (2006) [3] Dissanayake, M., & Vasiljevic, T..
Journal of Dairy Science, 92, 1387-1397. (2009) [4] Hu, X., Zhao, M., Sun, W., Zhao, G., & Ren, J..
Journal of Agricultural and Food Chemistry, 59, 8886-8894. (2011) [5] A.
Journal of South China University of Technology (Natural Science Edition), 5, 115-120. (2012) [7] Pearce, K.
Online since: July 2021
Authors: Mohammad Hafizuddin Haji Jumali, Khawla J. Tahir, Firas K. Mohamad Alosfur, Noor J. Ridha, S. Radiman, Huda Talib Hadi, Rajaa A. Madlol, Nawras Al-Dahan
Fuloria, Journal of Drug Delivery Science and Technology, 101811 (2020)
Tabet, Solar Energy Materials and Solar Cells 140, 174-179 (2015)
Ahmed, Materials Research Express 5 (12), 125008 (2018)
Abud, Materials Research Express 6 (6), 065028 (2019)
Ramanath, Chemistry of materials 18 (6), 1390-1393 (2006)
Tabet, Solar Energy Materials and Solar Cells 140, 174-179 (2015)
Ahmed, Materials Research Express 5 (12), 125008 (2018)
Abud, Materials Research Express 6 (6), 065028 (2019)
Ramanath, Chemistry of materials 18 (6), 1390-1393 (2006)