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Online since: June 2009
Authors: Sarah Montes, Agustín Etxeberria, Hans Grande, Jose A. Pomposo
Pomposo4,d
1,2,4New Materials Department, CIDETEC, Paseo Miramón 196,
Donostia E-20009, Spain
3
Departament of Polymer Science and Technology, Faculty of Chemistry and Polymat, UPV/EHU,
P.O.
Dissanayake, Solid State Ionics: Advanced Materials for Emerging Technologies, Proceedings of the Asian Conference World Scientific Publishing: Singapore, 2006
A photo-physical and electrochemical impedance spectroscopy study on the quasi-solid state dye-sensitized solar cells based on poly(vinylidene fluoride-co-hexafluoropropylene), Journal of Power Sources 180 (2008) 896
Krishnan, Science, 311 (2006) 1740
Pomposo, A Theoretical Investigation of PolymerNanoparticles as Miscibility Improvers in All-Polymer Nanocomposites, Journal of Nano Research 2 (2008) 105
Dissanayake, Solid State Ionics: Advanced Materials for Emerging Technologies, Proceedings of the Asian Conference World Scientific Publishing: Singapore, 2006
A photo-physical and electrochemical impedance spectroscopy study on the quasi-solid state dye-sensitized solar cells based on poly(vinylidene fluoride-co-hexafluoropropylene), Journal of Power Sources 180 (2008) 896
Krishnan, Science, 311 (2006) 1740
Pomposo, A Theoretical Investigation of PolymerNanoparticles as Miscibility Improvers in All-Polymer Nanocomposites, Journal of Nano Research 2 (2008) 105
Online since: September 2019
Authors: Peter Apata Olubambi, Mxolisi Brendon Shongwe, Mary Awotunde, Adewale Oladapo Adegbenjo, Babatunde A. Obadele, Bukola Joseph Babalola, Olusoji Oluremi Ayodele
Wear debris obtained was found to contain mostly the sintered materials with minute traces of the counterface material.
Wear debris obtained was found to contain mostly the sintered materials with minute traces of the counterface material.
Wear debris obtained was found to contain mostly the sintered materials with minute traces of the counterface material.
O Obadele, Effect of sintering temperature on the microstructure and mechanical properties of Fe–30%Ni alloys produced by spark plasma sintering, International Journal of Refractory Metals and Hard Materials. 55 (2015) 824-832 [8] D.
A Olubambi, Dependence of Densification, Hardness and Wear Behaviors of Ti6Al4V Powders on Sintering Temperature, International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering. 10 (2016) 560-566.
Wear debris obtained was found to contain mostly the sintered materials with minute traces of the counterface material.
Wear debris obtained was found to contain mostly the sintered materials with minute traces of the counterface material.
O Obadele, Effect of sintering temperature on the microstructure and mechanical properties of Fe–30%Ni alloys produced by spark plasma sintering, International Journal of Refractory Metals and Hard Materials. 55 (2015) 824-832 [8] D.
A Olubambi, Dependence of Densification, Hardness and Wear Behaviors of Ti6Al4V Powders on Sintering Temperature, International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering. 10 (2016) 560-566.
Online since: May 2011
Authors: Xiu Mei Feng, Ming Xue Jiang, Xiao Qing Lian
Stress and System Energy in Erosion Process for Brittle Materials
Xiaoqing Lian1,a, Xiumei Feng1,b, Mingxue Jiang1,c
1School of Material Science and Engineering, Xi’an University of Architecture and Technology,Xi’an ,Shanxi,710055, China
alianxiaoqing0304@126.com, bfengxm1973@126.com, cmingxuejiang@163.com,
Keywords: Solid Particle Erosion, Stress, System Energy, Impact Angle, Brittle Materials, Finite Element Method
Abstract.
The latest prediction equations for erosion of ceramic materials were proposed by Y.I.Oka[7],which were verified in cases of metallic materials.
Although many studies on the solid particle erosion of brittle materials may be found[5-10], most of their targets were homogeneous materials.
They were heterogeneous brittle materials other than homogeneous brittle materials.
The erosion rate of brittle materials is at its maximum at normal incidence at room tempetature [5-10], which is different from ductile materials whose maximun erosion rate occurs at shallow impact angles.
The latest prediction equations for erosion of ceramic materials were proposed by Y.I.Oka[7],which were verified in cases of metallic materials.
Although many studies on the solid particle erosion of brittle materials may be found[5-10], most of their targets were homogeneous materials.
They were heterogeneous brittle materials other than homogeneous brittle materials.
The erosion rate of brittle materials is at its maximum at normal incidence at room tempetature [5-10], which is different from ductile materials whose maximun erosion rate occurs at shallow impact angles.
Online since: October 2012
Authors: Hui Ouyang, Tian Shun Hou, Wei Wang, Xiu Juan Yang
So the question is how to choose building materials to meet the requirements.
2.
The geotechnical media widespread in nature is natural building materials.
But a considerable part of geotechnical materials are not very good building materials, deformation modulus or damping of part of the materials are not appropriate additionally, these will enlarge the seismic effect to a certain extent(>1).
EPS was used as antifreeze materials in Norway in 1965[7].
The core issue of soil materials is the problem of deformation and strength.
The geotechnical media widespread in nature is natural building materials.
But a considerable part of geotechnical materials are not very good building materials, deformation modulus or damping of part of the materials are not appropriate additionally, these will enlarge the seismic effect to a certain extent(>1).
EPS was used as antifreeze materials in Norway in 1965[7].
The core issue of soil materials is the problem of deformation and strength.
Online since: October 2013
Authors: Qing Liu, Wei Ding, Ben Wang, Hong Hai Liu, Bing Yu Wang
According to the unified strength theory, eight kinds of expressions of the strength criterion can be applied to various kinds of geotechnical materials [3].
The Unified Strength Criterion of Rock and Soil Materials Mathematical expressions for geotechnical materials unified strength theory is : (1) In which, , , is the angle of internal friction of pile soil, c is the cohesion of the soil around pile, b is reflect the intermediate principal shear stress and normal stress on the surface of the corresponding effect on the material damage influence degree coefficient.
Yu, The Unified Strength Theory of Rock and Soil Materials and Applications, Journal of Geotechnical Engineering, 2 (1994) 1-10
Zhang, Theoretical analysis on compaction effectiveness of liquefiable foundation by pebble columns, China Safety Science Journal, 6 (2005) 77-79
Chen, Unified Limit Solution of thick wall cylinder subject to external pressure considering strain softening, Journal of Hunan University (Natural Sciences), 2 (2006) 1-5.
The Unified Strength Criterion of Rock and Soil Materials Mathematical expressions for geotechnical materials unified strength theory is : (1) In which, , , is the angle of internal friction of pile soil, c is the cohesion of the soil around pile, b is reflect the intermediate principal shear stress and normal stress on the surface of the corresponding effect on the material damage influence degree coefficient.
Yu, The Unified Strength Theory of Rock and Soil Materials and Applications, Journal of Geotechnical Engineering, 2 (1994) 1-10
Zhang, Theoretical analysis on compaction effectiveness of liquefiable foundation by pebble columns, China Safety Science Journal, 6 (2005) 77-79
Chen, Unified Limit Solution of thick wall cylinder subject to external pressure considering strain softening, Journal of Hunan University (Natural Sciences), 2 (2006) 1-5.
Online since: August 2017
Authors: Alexandru Popa, Andrei Petru Bertea, Liliana Rozemarie Manea
New groups of polymer materials and new generations of composite and nanostructural materials and their new applicability in the medical field are reviewed.
Babu, Electrospun Nanomaterials: Biotechnology, Food, Water, Environment and Energy, Hindawi Publishing Corporation Conference Papers in Materials Science 2013 (2013) 1-14 [4] R.
Tan, Electrospun 3D fibrous scaffolds for chronic wound repair, Materials 9 (2016) 272-284 [44] M.D.
Pinzon-Garcia et al., Efficient cutaneous wound healing using bixin-loaded PCL nanofibers in diabetic mice, Journal of biomedical materials research b: applied biomaterials 00B (2016) 1-12 [50] M.T.P.
Chang, Electrospun nanofibrous materials for tissue engineering and drug delivery, Science and Technology of Advanced Materials 11 (2010) 2-12 [56] L.
Babu, Electrospun Nanomaterials: Biotechnology, Food, Water, Environment and Energy, Hindawi Publishing Corporation Conference Papers in Materials Science 2013 (2013) 1-14 [4] R.
Tan, Electrospun 3D fibrous scaffolds for chronic wound repair, Materials 9 (2016) 272-284 [44] M.D.
Pinzon-Garcia et al., Efficient cutaneous wound healing using bixin-loaded PCL nanofibers in diabetic mice, Journal of biomedical materials research b: applied biomaterials 00B (2016) 1-12 [50] M.T.P.
Chang, Electrospun nanofibrous materials for tissue engineering and drug delivery, Science and Technology of Advanced Materials 11 (2010) 2-12 [56] L.
TiO2 Nanotubes Modified with Polyelectrolyte Multilayers as a Drug Delivery and its Release Behavior
Online since: September 2013
Authors: Zhang Wang, Ping Li, Yi Rong Chen, Xiu Feng Xiao, Xiao Juan Yang
TiO2 nanotubes Modified with Polyelectrolyte Multilayers as a drug delivery and its release behavior
Xiao-juan Yang1,a, Zhang Wang 1,b, Ping Li 1,c, Yi-rong Chen1,d, Xiu-feng Xiao1,*
1College of Chemistry and Materials Science, Fujian Key Laboratory of Polymer Materials, Fujian Normal University, Fuzhou 350007, P.
Materials. 16(2004) ,1271-1293
Decher:submitted to Journal of Science , 277,( 1997) 1232-1237
Mohwald: submitted to Journal of Science, 282, (1998) 1111-1114
F: submitted to Journal of Materials Science and Engineering (2012),670-673 [10] J.
Materials. 16(2004) ,1271-1293
Decher:submitted to Journal of Science , 277,( 1997) 1232-1237
Mohwald: submitted to Journal of Science, 282, (1998) 1111-1114
F: submitted to Journal of Materials Science and Engineering (2012),670-673 [10] J.
Online since: October 2023
Authors: Mykhailo Kharlamov, Dmytro Tregubov, Yuliana Hapon, Yevhen Slepuzhnikov
Kurska, Investigation of the Processes of Formation of a Fire Retardant Coating, Materials Science Forum, 1038 (2021) 480–485
Romanova, Co-Mo-W galvanochemical alloy application as cathode material in the industrial wastewater treatment processes, Materials Science Forum, 1038 (2021) 251–257
Bezuglov, Mathematical modeling of fire-proof efficiency of coatings based on silicate composition, Materials Science Forum, 1006 (2020) 70–75
Savchenko, Thermodynamic Study of Fire-Protective Material, Materials Science Forum, 1038 (2021) 486–491
Hapon, Design, synthesis, and diagnostics of functional galvanic coatings made of multicomponent alloys, Materials science, 52 (2017) 680–688
Romanova, Co-Mo-W galvanochemical alloy application as cathode material in the industrial wastewater treatment processes, Materials Science Forum, 1038 (2021) 251–257
Bezuglov, Mathematical modeling of fire-proof efficiency of coatings based on silicate composition, Materials Science Forum, 1006 (2020) 70–75
Savchenko, Thermodynamic Study of Fire-Protective Material, Materials Science Forum, 1038 (2021) 486–491
Hapon, Design, synthesis, and diagnostics of functional galvanic coatings made of multicomponent alloys, Materials science, 52 (2017) 680–688
Online since: December 2024
Authors: Yurii Otrosh, Nina Rashkevich, Olena Kuleba, Ihor Mamontov
Materials Science Forum, 1006 (2020)166–172
In Materials Science Forum.
Key Engineering Materials, 952 (2023) 121-129
In Materials Science Forum. 1006 (2020) p. 179-184
Determination of the Fire-Retardant Efficiency of Magnesite Thermal Insulating Materials to Protect Metal Structures from Fire, In Materials Science Forum, 1038 (2021) p. 524-530.
In Materials Science Forum.
Key Engineering Materials, 952 (2023) 121-129
In Materials Science Forum. 1006 (2020) p. 179-184
Determination of the Fire-Retardant Efficiency of Magnesite Thermal Insulating Materials to Protect Metal Structures from Fire, In Materials Science Forum, 1038 (2021) p. 524-530.