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Online since: May 2013
Authors: Ke Tong, Xiao Dong He, Guang San Song
The fine grains can improve the strength, ductility and toughness of materials.
Journal of Materials Engineering, 2002, 9:37-39
Materials Science and Engineering A, 2003, (A357): 104-110
Metallurgical and Materials Transactions A, 1996, (27A): 3601-3611
Materials Review, 2010, 24(2): 98-101
Journal of Materials Engineering, 2002, 9:37-39
Materials Science and Engineering A, 2003, (A357): 104-110
Metallurgical and Materials Transactions A, 1996, (27A): 3601-3611
Materials Review, 2010, 24(2): 98-101
Online since: September 2024
Authors: Marcin Sikora, Jan Marek Michalik, Elżbieta Szostak, Khrystyna Bandura, Larysa Kaykan, Julia Mazurenko, Lilia Turovska, Olexij Vyshnevskyi
Introduction
Nanoscale ferrite materials belong to a material widely used in engineering and manufacturing.
Materials and Methods Synthesis.
A, Materials Science & Processing, 130(1). (2024)
Materials Science & Engineering.
B, Solid-State Materials for Advanced Technology, 300(117134), (2024). 117134
Materials and Methods Synthesis.
A, Materials Science & Processing, 130(1). (2024)
Materials Science & Engineering.
B, Solid-State Materials for Advanced Technology, 300(117134), (2024). 117134
Online since: November 2012
Authors: C. Lucchesi, Eliana Aparecida De Rezende Duek, Marcia Adriana Tomaz Duarte, Larissa Coppini, Marcelo Macedo
In an attempt to solve the PLLA’s high crystallinity problem, research has been conducted towards the contribution to the synthesis of new materials.
The work was conducted at the Biomaterials Laboratory of the Medical and Biological Sciences Center of PUC-SP.
Has been widely used in the study of biomaterials, for this technique makes it possible to obtain direct measurements of roughness and porosity, among others, which are an important parameter for biomedical materials, since they can affect cellular adhesion [10].
The 100/0 membranes shows slow adhesion which could be due to hydrophobic of the surface of the material, that it tends to had presented cellular adhesion, unlike the hydrophilic materials.
Journal Mater Sci: Mater Med, ,17, (2006). pp.481-485
The work was conducted at the Biomaterials Laboratory of the Medical and Biological Sciences Center of PUC-SP.
Has been widely used in the study of biomaterials, for this technique makes it possible to obtain direct measurements of roughness and porosity, among others, which are an important parameter for biomedical materials, since they can affect cellular adhesion [10].
The 100/0 membranes shows slow adhesion which could be due to hydrophobic of the surface of the material, that it tends to had presented cellular adhesion, unlike the hydrophilic materials.
Journal Mater Sci: Mater Med, ,17, (2006). pp.481-485
Online since: December 2010
Authors: Qing He, Zhen Yan
Zheng et al [23] consider both elastic materials as well as piezoelectric materials for the design of energy harvesting devices under the topology optimization formulation.
IEEE Trans. on Plasma Science.
Smart Materials & Structures, Vol.14, (2005), p.769-774
Smart Materials & Structures, Vol.13, (2004), p.56-63
Farrar, Smart Materials and Structures, Vol.16, (2007), p.2137–2145
IEEE Trans. on Plasma Science.
Smart Materials & Structures, Vol.14, (2005), p.769-774
Smart Materials & Structures, Vol.13, (2004), p.56-63
Farrar, Smart Materials and Structures, Vol.16, (2007), p.2137–2145
Online since: June 2021
Authors: Marius Cocard
PE100 type materials are currently the recommended materials for the realization of natural gas distribution systems, having that important feature of inhibiting the development of pre-existing imperfections, thus preventing the formation and subsequent propagation of the crack.
Kim and et al., „Butt-welding technology for double walled Polyethylene pipe,” Materials & Design, vol. 35, pp. 626-632, 2012
Barczy, „A study of structure and mechanical properties of welded joints in polyethylene pipes,” Materials Science and Engineering A 419, pp. 138–143, 2006
Nezbedová and et. al, „On crack propagation in the welded polyolefin pipes with and without the presence of weld beads,” Materials & Design, vol. 87, pp. 95-104, 2015
Yoon, "Effects of defect size on failure of butt fusion welded MDPE pipe under tension," Journal of Mechanical Science and Technology, vol. 29, no. 5, pp. 1973-1980, 2015
Kim and et al., „Butt-welding technology for double walled Polyethylene pipe,” Materials & Design, vol. 35, pp. 626-632, 2012
Barczy, „A study of structure and mechanical properties of welded joints in polyethylene pipes,” Materials Science and Engineering A 419, pp. 138–143, 2006
Nezbedová and et. al, „On crack propagation in the welded polyolefin pipes with and without the presence of weld beads,” Materials & Design, vol. 87, pp. 95-104, 2015
Yoon, "Effects of defect size on failure of butt fusion welded MDPE pipe under tension," Journal of Mechanical Science and Technology, vol. 29, no. 5, pp. 1973-1980, 2015
Online since: March 2014
Authors: R.S. Daries Bella, C. Sanjeeviraja, S. Karthickprabhu, G. Hirankumar, A. Maheswaran
Hirankumar2, b*, A.Maheswaran1 ,c,
R.S.Daries Bella1, d and C.Sanjeeviraja3, e
1 Energy Materials Research Laboratory, Department of Physics, Kalasalingam University, Krishnankoil – 626 126, India.
2 Centre for Scientific and Applied Research, School of Basic Engineering and Sciences, PSN College of Engineering and Technology, Melathediyoor – 627 152, TN, India
3Department of Physics, Alagappa chettiar college of Engineering and Technology, Karaikudi, India.
Among these olivine cathode materials, the pristine LiNiPO4 shows high voltage vs Lithium while exhibiting extremely poor electronic conductivity at ambient temperature [2].
Such kind of morphology is very important to achieve high capacity and good cycleability of the cathode materials.
Allen, Effect of carbon on the electronic conductivity and discharge capacity LiCoPO4, Journal of Power sources, 163 (2007) 1070-1073
Sanjeeviraja, Y.S.Lee, R.Kalai Selvan, Physicochemical properties of V5+ doped LiCoPO4 as cathode materials for Li-ion batteries, J Sol-Gel Sci Technol, Doi.10.1007/s 10971-012-2952-y
Among these olivine cathode materials, the pristine LiNiPO4 shows high voltage vs Lithium while exhibiting extremely poor electronic conductivity at ambient temperature [2].
Such kind of morphology is very important to achieve high capacity and good cycleability of the cathode materials.
Allen, Effect of carbon on the electronic conductivity and discharge capacity LiCoPO4, Journal of Power sources, 163 (2007) 1070-1073
Sanjeeviraja, Y.S.Lee, R.Kalai Selvan, Physicochemical properties of V5+ doped LiCoPO4 as cathode materials for Li-ion batteries, J Sol-Gel Sci Technol, Doi.10.1007/s 10971-012-2952-y
Online since: June 2021
Authors: Lu Cui, Yin Ping Cao, Jia Rui Cheng, Wen Lan Wei, Long Long Guo, Ze Bing Wei, Ya Fei Zhang
Among the 80 steel grade materials, the ductile fracture of N80Q steel due to tensile load is microporous polymerization fracture [10], which shows good toughness fracture.
However, for 110 steel grade materials, due to the reduction of ductility caused by high steel grade, some brittle fracture characteristics are formed [8].
Experimental Three kinds of materials, 80H, 90H and 110H, are low-alloy tempered steel, and the main structure is tempered sorbite.
In the API standard, the steel grade represents the strength range of the casing materials.
Zhang, Failure Analysis and Service Life Prediction of 80SH Casing Steel under Thermal Cycle Service Environment, Materials Science Forum, 993 (2020) 1293-1300
However, for 110 steel grade materials, due to the reduction of ductility caused by high steel grade, some brittle fracture characteristics are formed [8].
Experimental Three kinds of materials, 80H, 90H and 110H, are low-alloy tempered steel, and the main structure is tempered sorbite.
In the API standard, the steel grade represents the strength range of the casing materials.
Zhang, Failure Analysis and Service Life Prediction of 80SH Casing Steel under Thermal Cycle Service Environment, Materials Science Forum, 993 (2020) 1293-1300
Online since: May 2011
Authors: Mohammad Ismail, Mohammad Sakhawat Hussain, A.S. Abdulrahman
Construction and Building Materials, 2010. 24(1): p. 61-70
Construction and Building Materials, 2009. 23(7): p. 2641-2646
Construction and Building Materials, 2011. 25(4): p. 1895-1905
Construction and Building Materials, 2009. 23(6): p. 2346-2356
Materials Letters, 2008. 62(1): p. 113-116
Construction and Building Materials, 2009. 23(7): p. 2641-2646
Construction and Building Materials, 2011. 25(4): p. 1895-1905
Construction and Building Materials, 2009. 23(6): p. 2346-2356
Materials Letters, 2008. 62(1): p. 113-116
Online since: August 2014
Authors: Abdelhafid Moummi, Mohammed El Ganaoui, Nadjiba Mahfoudi
Materials scientists classify them into four families: metals and alloys, ceramics and glasses, polymers and elastomers, and hybrids that include composites and natural materials [6].
A very few studies were conducted on large sized packing materials.
References [1] Khare S, Dell Amico M, Knight C, McGarry S, Selection of materials for high temperature sensible energy storage, Solar Energy Materials & Solar Cells 115(2013), 114–122 [2] A.
Fernandez, M.Martı´nez, M.Segarra, I.Martorell, L.F.Cabeza, Selection of materials with potential in sensible thermal energy storage, Solar Energy Materials & Solar Cells, 94, 2010, p. 1723–1729 [7] H.
Corriou c, Experimental study of the dynamic behaviour of a porous medium submitted to a wall heat flux in view of thermal energy storage by sensible heat, International Journal of Thermal Sciences, 46, 2007, p. 1056–1063 [12] M.
A very few studies were conducted on large sized packing materials.
References [1] Khare S, Dell Amico M, Knight C, McGarry S, Selection of materials for high temperature sensible energy storage, Solar Energy Materials & Solar Cells 115(2013), 114–122 [2] A.
Fernandez, M.Martı´nez, M.Segarra, I.Martorell, L.F.Cabeza, Selection of materials with potential in sensible thermal energy storage, Solar Energy Materials & Solar Cells, 94, 2010, p. 1723–1729 [7] H.
Corriou c, Experimental study of the dynamic behaviour of a porous medium submitted to a wall heat flux in view of thermal energy storage by sensible heat, International Journal of Thermal Sciences, 46, 2007, p. 1056–1063 [12] M.
Online since: November 2012
Authors: Vladimir Slugeň, Jarmila Degmová, Jana Veterníková, S. Kilpeläinen, F. Tuomisto, V. Kršjak
Introduction
Design and introduction of future nuclear reactor systems are strongly dependent on the choice of structural materials.
The presented paper is focused on a group of oxide-dispersion strengthened (ODS) materials, which have been considered as candidate materials in most Gen IV concepts.
ODS materials are appropriate for applications requiring higher temperature limit than classical ferritic steels.
Zinkle, Fusion Materials Science: Overview of Challenges and Recent Progress, APS Division of Plasma Physics 46 Annual Meeting, Savannah, GA, USA (2004)
Vaidyanathan, Russian Journal of nondestructive Testing 37 (2001) 789
The presented paper is focused on a group of oxide-dispersion strengthened (ODS) materials, which have been considered as candidate materials in most Gen IV concepts.
ODS materials are appropriate for applications requiring higher temperature limit than classical ferritic steels.
Zinkle, Fusion Materials Science: Overview of Challenges and Recent Progress, APS Division of Plasma Physics 46 Annual Meeting, Savannah, GA, USA (2004)
Vaidyanathan, Russian Journal of nondestructive Testing 37 (2001) 789