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Online since: September 2011
Authors: Er Yu Zhu, Li Zhu, Tian Xing Cheng, Xiao Yin Lv, Yong Zheng Zhou
The preparation of test materials.
Hot melt should overflow from heat shrinkable materials or it should be re-heated to adhesive overflow as qualified.
The anti-stripping test of anchor protection by heat shrinkable materials The method for anti-stripping test of prestressed anchor protection by heat shrinkable materials is based on the test specification close to domestic industries [15, 16] for design and test.
Through the anchorage on the face of thermal protection materials, construction technology testing, thermal protection materials, electrical insulation and sealing anchor test and thermal protection materials, peel test shows that using heat shrinkable material to protect prestressed anchor has the advantages of simple and reliable construction process, short construction period, low cost, good electrical insulation, as well as sealing and anti-peel strength.
(In Chinese) [9] Jules jade and so on: China Safety Science Journal, Vol. 16, NO.2 (2006), p136-140.
Hot melt should overflow from heat shrinkable materials or it should be re-heated to adhesive overflow as qualified.
The anti-stripping test of anchor protection by heat shrinkable materials The method for anti-stripping test of prestressed anchor protection by heat shrinkable materials is based on the test specification close to domestic industries [15, 16] for design and test.
Through the anchorage on the face of thermal protection materials, construction technology testing, thermal protection materials, electrical insulation and sealing anchor test and thermal protection materials, peel test shows that using heat shrinkable material to protect prestressed anchor has the advantages of simple and reliable construction process, short construction period, low cost, good electrical insulation, as well as sealing and anti-peel strength.
(In Chinese) [9] Jules jade and so on: China Safety Science Journal, Vol. 16, NO.2 (2006), p136-140.
Online since: September 2013
Authors: Olurotimi A. Dahunsi, Temidayo Oluwagbenga Johnson, Olayinka O. Awopetu
Boyer: An Overview on the Use of Titanium in the Aerospace Industry, Materials Science and Engineering A.
Semiatin: Thermomechanical Procesing of Alpha Titanium Alloys – An Overview, Materials Science and Engineering.
Kander: Mechanical Properties of Ultra-Fine Grain Titanium, Journal of Achievement in Materials and Manufacturing Enginnering.
Gogia: Ti based Biomaterials, the Ultimate Choice for Orthopaedic Implants – A Review, Progress in Materials Science.
Ninnomi: Biocompatibility of Ti-Alloys for Long-Term Implantation, Journal of the Mechanical Behaviour of Biomedical Materials.
Semiatin: Thermomechanical Procesing of Alpha Titanium Alloys – An Overview, Materials Science and Engineering.
Kander: Mechanical Properties of Ultra-Fine Grain Titanium, Journal of Achievement in Materials and Manufacturing Enginnering.
Gogia: Ti based Biomaterials, the Ultimate Choice for Orthopaedic Implants – A Review, Progress in Materials Science.
Ninnomi: Biocompatibility of Ti-Alloys for Long-Term Implantation, Journal of the Mechanical Behaviour of Biomedical Materials.
Online since: January 2016
Authors: Akos Lakatos
In addition building materials, insulating materials were tested and will be put forward, as well, eg.: expanded polystyrene, extruded polystyrene, poly-urethane, and some fibrous materials.
Acknowledgements This paper was supported by the János Bolyai Research Scholarship of the Hungarian Academy of Sciences.
International Journal of Pharmaceutics, 114 (1994) 55–64
Kalmar, Materials and Structures.
Adsorption Of Gases In Multimolecular Layers, Journal of the American Chemical Society, 60 (1938) [11] A.
Acknowledgements This paper was supported by the János Bolyai Research Scholarship of the Hungarian Academy of Sciences.
International Journal of Pharmaceutics, 114 (1994) 55–64
Kalmar, Materials and Structures.
Adsorption Of Gases In Multimolecular Layers, Journal of the American Chemical Society, 60 (1938) [11] A.
Online since: September 2021
Authors: Vu Ngoc Pi, Tran Ngoc Giang, Nguyen Hong Linh, Dinh Ngoc Nguyen, Le Xuan Hung, Quoc Hoang Tran
Materials Science Forum, 2020. 977: p. 12-17
Materials Science Forum, 2020. 977: p. 18-26
Materials Science Forum, 2019. 950: p. 24-31
Materials Science Forum, 2020. 977: p. 3-11
Series: Materials Science and Engineering 635, 2019
Materials Science Forum, 2020. 977: p. 18-26
Materials Science Forum, 2019. 950: p. 24-31
Materials Science Forum, 2020. 977: p. 3-11
Series: Materials Science and Engineering 635, 2019
Online since: July 2014
Authors: Jun Cai, Xin Guo, Qiao Zhi Sun, Jing Wei Zhang, Yan Dong Wang, Shuang Jiang
The CLAM steel has been also considered as a candidate material for the cladding materials of the future fusion reactor.
Chinese Journal of Nuclear Science and Engineering, 2007, 27:41-50
Journal of Nuclear Materials, 2007, 367–370: 142–146
Chinese Journal of Nuclear Science and Engineering, 2007, 1(3):59-63
Journal of Nuclear Materials, 1996, 233-237: 985-990
Chinese Journal of Nuclear Science and Engineering, 2007, 27:41-50
Journal of Nuclear Materials, 2007, 367–370: 142–146
Chinese Journal of Nuclear Science and Engineering, 2007, 1(3):59-63
Journal of Nuclear Materials, 1996, 233-237: 985-990
Online since: September 2015
Authors: Danièle Wagner, Chong Wang, Véronique Favier, Nicolas Ranc, André Chrysochoos, Antoine Blanche, Ngoc Lam Phung, Claude Bathias
The mean grain size for both materials was about 30 µm.
Results for both materials were compared.
Mitchell, Fatigue fracture at copper bicrystal interfaces: fractography, Materials Science and Engineering A, 264 (1999) 215-231
Laird, Materials and Engineering Sciences A, 157 (1992) 21-27. [23] N.
Zhai, Fatigue crack initiation and stage I propagation in polycrystalline materials I: Micromechanisms, International Journal of fatigue, 13 (1991) 99-109
Results for both materials were compared.
Mitchell, Fatigue fracture at copper bicrystal interfaces: fractography, Materials Science and Engineering A, 264 (1999) 215-231
Laird, Materials and Engineering Sciences A, 157 (1992) 21-27. [23] N.
Zhai, Fatigue crack initiation and stage I propagation in polycrystalline materials I: Micromechanisms, International Journal of fatigue, 13 (1991) 99-109
Online since: April 2018
Authors: Yuriy I. Gordeev, Aleksandr S. Binchurov, Vitaly B. Yasinski, Nikolay E. Anistratenko, Irina V. Nikolaenko
Journal of Refractory Metals and Hard Materials 59 (2016) 121-131
Journal of Refractory Metals & Hard Materials. 27 (2009) 288-299
Design and Investigation of Hard Metal Composites Modified by Nanoparticles, Advanced Materials Research. 1040 (2014) 13-18
International Journal of Materials Research.
Pattern of the B4C Ceramics Surface Deformation at Local Loading /, // Advanced Materials Research. 872 (2014) 60-64.
Journal of Refractory Metals & Hard Materials. 27 (2009) 288-299
Design and Investigation of Hard Metal Composites Modified by Nanoparticles, Advanced Materials Research. 1040 (2014) 13-18
International Journal of Materials Research.
Pattern of the B4C Ceramics Surface Deformation at Local Loading /, // Advanced Materials Research. 872 (2014) 60-64.
Online since: February 2007
Authors: Jie Cai Han, Xing Hong Zhang, Jin Huai Liu, Yue Feng Sun, Qiang Xu
Gibeling: Materials Science and Engineering A Vol.171 (1993, pp.115
Li: Journal of Materials Engineering Vol.10 (1995), pp.23
Jung, et al: Journal of Materials Science Letters Vol.18 (1999), pp.67
Chung: Journal of Materials Science Vol.32 (1997), pp.1703
Hirano: Journal of Materials Science Letters Vol.13 (1994), pp.1219.
Li: Journal of Materials Engineering Vol.10 (1995), pp.23
Jung, et al: Journal of Materials Science Letters Vol.18 (1999), pp.67
Chung: Journal of Materials Science Vol.32 (1997), pp.1703
Hirano: Journal of Materials Science Letters Vol.13 (1994), pp.1219.
Online since: October 2023
Authors: Alexander E. De Los Reyes, Danell Jeune C. Nagal, Marish Madlangbayan, Joshua Libre Castro, Arvin Lester C. Jusi, Alvin Karlo Garcia Tapia
Materials and Methods
Sample Preparation.
The absorption coefficient follows a power-law behavior typical of disordered dielectric materials [18].
[4] S.Bhattacharya, V.K.Sachdev, R.Chatterjee, and R.P.Tandon, in: Decisive properties of graphite-filled cement composites for device application (Applied Physics A, Materials Science & Processing, 92, 417–420, 2008)
[5] K.S.Moon, H.D.Choi, A.K.Lee, K.Y.Cho, H.G.Yoon, and K.S.Suh, in: Dielectric Properties of Epoxy-Dielectrics-Carbon Black Composite for Phantom Materials at Radio Frequencies (Journal of Applied Polymer Science, 77, 1294–1302, 2000)
[17] Z.Ji, J.Wu, X.Shen, H.Zhou and H.Xi, in: Preparation and characterization of graphene/NiO nanocomposites (Journal of materials science, 46(5), 1190-1195, 2011)
The absorption coefficient follows a power-law behavior typical of disordered dielectric materials [18].
[4] S.Bhattacharya, V.K.Sachdev, R.Chatterjee, and R.P.Tandon, in: Decisive properties of graphite-filled cement composites for device application (Applied Physics A, Materials Science & Processing, 92, 417–420, 2008)
[5] K.S.Moon, H.D.Choi, A.K.Lee, K.Y.Cho, H.G.Yoon, and K.S.Suh, in: Dielectric Properties of Epoxy-Dielectrics-Carbon Black Composite for Phantom Materials at Radio Frequencies (Journal of Applied Polymer Science, 77, 1294–1302, 2000)
[17] Z.Ji, J.Wu, X.Shen, H.Zhou and H.Xi, in: Preparation and characterization of graphene/NiO nanocomposites (Journal of materials science, 46(5), 1190-1195, 2011)
Online since: November 2015
Authors: Mircea Lobonțiu, Bogdan Emanuel Mocerneac
The resulting properties of the two materials were compared with those of the specimens.
Reference [1] ASTM-D1566-00, American Society for Testing of Materials, in Standard Terminology Relating to Rubber, 2000
Bonfring International Journal of Industrial Engineering and Management Science. 2, 2 (2012) 10-13
Materials and Manufacturing Processes. 15, 5 (2000) 667-678
Journal of Manufacturing Science and Engineering. 126, 1 (2004) 115-123.
Reference [1] ASTM-D1566-00, American Society for Testing of Materials, in Standard Terminology Relating to Rubber, 2000
Bonfring International Journal of Industrial Engineering and Management Science. 2, 2 (2012) 10-13
Materials and Manufacturing Processes. 15, 5 (2000) 667-678
Journal of Manufacturing Science and Engineering. 126, 1 (2004) 115-123.