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Online since: June 2013
Authors: Michael J. Worswick, Dariush Ghaffari Tari, Usman Ali
Asymmetric yield locus evolution for HCP materials:
a continuum constitutive modeling approach
D.
A strong basal structure is observed in wrought magnesium alloys, which is the source of anisotropic and asymmetric mechanical response of these materials [3].
Material Science & Engineering 132 (1991), 1-11
International Journal of Plasticity 27 (2011), 688-706
International Journal of Plasticity 23 (2007), 44-86
A strong basal structure is observed in wrought magnesium alloys, which is the source of anisotropic and asymmetric mechanical response of these materials [3].
Material Science & Engineering 132 (1991), 1-11
International Journal of Plasticity 27 (2011), 688-706
International Journal of Plasticity 23 (2007), 44-86
Online since: September 2013
Authors: Xin Rui Gao
The Design, Rapid Manufacture, and Materials of Artificial Porous Bone Structure
Xinrui Gao
Information Science Technology Institute of Hainan University, Haikou, 570228, China
xr_gao2002@aliyun.com
Keywords: Artificial porous bone structure; Rapid manufacture; Materials.
The process and technologies of Additive fabrication (AF) function through materials addition.
Compared to established methods like FDM, the LDM process is the non-heating liquefying processing of materials and could preserve bio-activities of materials.
Materials used nowadays can be divided into several basic groups: synthetic polymers, natural polymers, ceramics, metals, and composites which were blended and have the properties of two or more materials of different classes.
Phytomolecules may chemically relate with scaffold materials for medical applications.
The process and technologies of Additive fabrication (AF) function through materials addition.
Compared to established methods like FDM, the LDM process is the non-heating liquefying processing of materials and could preserve bio-activities of materials.
Materials used nowadays can be divided into several basic groups: synthetic polymers, natural polymers, ceramics, metals, and composites which were blended and have the properties of two or more materials of different classes.
Phytomolecules may chemically relate with scaffold materials for medical applications.
Online since: March 2023
Authors: S.A. Kuzmin, D.A. Krasilnikov, A.A. Argunova, A.D. Egorova, M.V. Katsurba
Existing materials behave differently in different climatic zones.
Test Materials and Experiment Methodology Amokor is a series of liquid polymeric materials that allows you to return the original physical and mechanical properties and even improve them in structural materials, such as concrete, metal, brick, wood, etc.
The research of durability of constructional materials modified by polymeric Silor-ultra additive, SECTION 3, CONSTRUCTION MATERIALS AND PRODUCTS, p. 228
Emelianova, Research of Durability and Structure of the Heavy Concrete Modified by Polymeric Impregnation in the Frigid Climate, Materials Science Forum.
Kychkin, Wood concrete on the basis of Portland cement with silor-ultra additive, Norwegian Journal of development of the International Science, Oslo, Norway. 27 (2019) 63-66
Test Materials and Experiment Methodology Amokor is a series of liquid polymeric materials that allows you to return the original physical and mechanical properties and even improve them in structural materials, such as concrete, metal, brick, wood, etc.
The research of durability of constructional materials modified by polymeric Silor-ultra additive, SECTION 3, CONSTRUCTION MATERIALS AND PRODUCTS, p. 228
Emelianova, Research of Durability and Structure of the Heavy Concrete Modified by Polymeric Impregnation in the Frigid Climate, Materials Science Forum.
Kychkin, Wood concrete on the basis of Portland cement with silor-ultra additive, Norwegian Journal of development of the International Science, Oslo, Norway. 27 (2019) 63-66
Online since: May 2017
Authors: Margarita Isaenkova, Evgeny Grigoriev, Artem Lunev, Artem Zazolin, Denis Pchelyakov, Yuri Perlovich, Olga Krymskaya
Plasticity of oxide fuel based on uranium dioxide is one of the less-covered topics in nuclear
materials science.
Ching-Tsven, Dry-ADU process for UO2 production, Journal of Nuclear Materials 199,1 (1992) 61-67
Burkhammer, Sintering of high density uranium dioxide bodies, Journal of Nuclear Materials 2, 2 (1960) 176 - 180
Balzari, Hot-pressing of uranium dioxide, Journal of Nuclear Materials 20, 2 (1966) 210 - 214
Contamin, Uranium and oxygen self-diffusion in UO2, Journal of Nuclear Materials 30, 1 (1969) 16-25
Ching-Tsven, Dry-ADU process for UO2 production, Journal of Nuclear Materials 199,1 (1992) 61-67
Burkhammer, Sintering of high density uranium dioxide bodies, Journal of Nuclear Materials 2, 2 (1960) 176 - 180
Balzari, Hot-pressing of uranium dioxide, Journal of Nuclear Materials 20, 2 (1966) 210 - 214
Contamin, Uranium and oxygen self-diffusion in UO2, Journal of Nuclear Materials 30, 1 (1969) 16-25
Online since: September 2014
Authors: Xiao Di Weng, Jun Liu, Zheng Zhou, Ling Li, Xu Liang Lv
Quality Control of Camouflage Materials Development Project Using Super-efficient C2GS2 Model
LIU Jun1,a, LI Ling1,b, LV Xuliang1,c, WENG Xiaodi1,d, ZHOU Zheng2,e
1College of Field Engineering, PLA University of Science and Technology, Nanjing 210007, China
2PLA Information Engineering University, Zhengzhou 450001, China
ananjnliujn@163.com, bleonleeust@163.com, cxllu1957@126.com, dfefebi@163.com, e08liling@sohu.com
Keywords: Development of camouflage materials; DEA; Super-efficient C2GS2 model; Projection; Sufficient ranking
Abstract.
Introduction Camouflage materials development project quality is an important guarantee of camouflage materials performance, is to improve the force battlefield survivability technology base.
Camouflage materials research and development are often in people, materials, equipment, method and environment quality factors such as the specification is lax, the feasibility study, design, test and production development process such as lack of effective quality control mechanisms[1].
JOURNAL OF HARBIN ENGINEERING UNIVERSITY, 2010, 31(11):1550-1558
International Journal of Shipping and Transport Logistics, 2009, l(3): 295—310
Introduction Camouflage materials development project quality is an important guarantee of camouflage materials performance, is to improve the force battlefield survivability technology base.
Camouflage materials research and development are often in people, materials, equipment, method and environment quality factors such as the specification is lax, the feasibility study, design, test and production development process such as lack of effective quality control mechanisms[1].
JOURNAL OF HARBIN ENGINEERING UNIVERSITY, 2010, 31(11):1550-1558
International Journal of Shipping and Transport Logistics, 2009, l(3): 295—310
Online since: February 2024
Authors: Guillermo Urriolagoitia-Sosa, Daniel Maya-Anaya, Arturo Sánchez-Cervantes, Alejandro Urriolagoitia-Luna, Beatriz Romero-Ángeles, A. Trejo-Enriquez, Guillermo Manuel Urriolagoitia-Calderón
But to be able to speak of materials it is necessary to define materials as substances that make up any product [3].
Table 1 Mechanical properties of the materials used for Speed Flex helmet.
Journal of Dynamic Behavior of Materials, Vol. 5, pp 117-131, 2019
Advances in Science and Engineering, Vol. 2, No. 4, pp 81-88, 2011
International Journal of Kinesiology and Sports Science, Vol. 7, No. 4, pp 53-65, 2019
Table 1 Mechanical properties of the materials used for Speed Flex helmet.
Journal of Dynamic Behavior of Materials, Vol. 5, pp 117-131, 2019
Advances in Science and Engineering, Vol. 2, No. 4, pp 81-88, 2011
International Journal of Kinesiology and Sports Science, Vol. 7, No. 4, pp 53-65, 2019
Online since: October 2010
Authors: Jian Wei Jiang, Jian Bing Men, Shu You Wang
Numerical Study on Characteristics of EFP with Two Kinds of Liner Materials
Shuyou Wanga, Jianwei Jiangb and Jianbing Menc
State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology,
Beijing 100081, P.R.
Figure 3 shows the material status of shaped charge.
The configuration of EFP with these two kinds of material, Forming Quasi-spherical EFP , was optimized respectively.
Acknowledgements The work presented in this paper is supported by the Docrtoral Program of Higher Education(No. 20091101120009) and the project of State Key Laboratory of Explosion Science and Technology (Beijing Institute of Technology) (No.YBKT09-03).
J. of Impact Eng, Vol.34(2007),p.1147 [2] Jiang Houman, Zhang Ruoqi, Zhang Shouqi:Journal of Ballistics,Vol.10(3) (1998),p.25 [3] Youhua Qin, Tingqing Zhou, Yuxin Sun: Journal of Experimental Mechanics, Vol.17(2) (2002),p.160 [4] Yang Dongmei, Chen Huiwu, Guan Chen: Journal of Ballistics, Vol.12(4) (2000),p.82 [5] Shuyuan Sui, Shushan Wang: Terminal Effets (China National Defence Industry Press, Beijing 2000).
Figure 3 shows the material status of shaped charge.
The configuration of EFP with these two kinds of material, Forming Quasi-spherical EFP , was optimized respectively.
Acknowledgements The work presented in this paper is supported by the Docrtoral Program of Higher Education(No. 20091101120009) and the project of State Key Laboratory of Explosion Science and Technology (Beijing Institute of Technology) (No.YBKT09-03).
J. of Impact Eng, Vol.34(2007),p.1147 [2] Jiang Houman, Zhang Ruoqi, Zhang Shouqi:Journal of Ballistics,Vol.10(3) (1998),p.25 [3] Youhua Qin, Tingqing Zhou, Yuxin Sun: Journal of Experimental Mechanics, Vol.17(2) (2002),p.160 [4] Yang Dongmei, Chen Huiwu, Guan Chen: Journal of Ballistics, Vol.12(4) (2000),p.82 [5] Shuyuan Sui, Shushan Wang: Terminal Effets (China National Defence Industry Press, Beijing 2000).
Online since: May 2020
Authors: A.S. Aleksandrov, G.V. Dolgih, A.L. Kalinin
Materials and Methods
The parameters of the original Mohr – Coulomb plasticity condition are determined from triaxial tests.
Canadian Geotechnical Journal. 18(4) (1981) 599-603
Series: Materials Science and Engineering. 463 (2018) 1–11
Materials Science Forum. 945 (2019) 813-820
IOP Conference Series: Materials Science and Engineering. 463 (2018) Paper № 032101.
Canadian Geotechnical Journal. 18(4) (1981) 599-603
Series: Materials Science and Engineering. 463 (2018) 1–11
Materials Science Forum. 945 (2019) 813-820
IOP Conference Series: Materials Science and Engineering. 463 (2018) Paper № 032101.
Online since: January 2012
Authors: Yu Bao Bi, Hui Fang Wang, Wei Lu
Experimental procedure
1.1 Starting materials
The starting materials include nature silica, industrial alumina, carbon black, coke and anthracite.
Journal of the European Ceramic Society, 28(2008):329~344
Journal of the European Ceramic Society, 29(2009):31~38
Journal of alloys and Compounds, 460(2008):599~606
Journal of the European Ceramic Society, 29(2009):347~353
Journal of the European Ceramic Society, 28(2008):329~344
Journal of the European Ceramic Society, 29(2009):31~38
Journal of alloys and Compounds, 460(2008):599~606
Journal of the European Ceramic Society, 29(2009):347~353
Online since: September 2013
Authors: Kamilia Abahri, Rafik Belarbi, M. Ferroukhi, N. Oudjehani, N. Issaadi
Total Pressure Gradient Incidence on Hygrothermal Transfer in Highly Porous Building Materials
K.
Tested materials Three different types of hygroscopic materials are studied.
Physical properties of these materials are listed in Table 1.
This leads to extract conclusion about the hygric behavior of materials according to the total pressure changes.
International Journal of Thermal Sciences, Vol. 57 (2012), p. 135-141
Tested materials Three different types of hygroscopic materials are studied.
Physical properties of these materials are listed in Table 1.
This leads to extract conclusion about the hygric behavior of materials according to the total pressure changes.
International Journal of Thermal Sciences, Vol. 57 (2012), p. 135-141