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Online since: October 2014
Authors: Aleksander Petelin, Yulia Petelina, Konstantin A. Polosukhin, Svetlana Kolupaeva
Predvoditelev, Formation of dislocation-structure of sliding lines, Soviet Physics Journal. 26, 1 (1983) 65–69
Popov, Source of dislocations in the field of obstacles, Soviet Physics Journal. 33, 12 (1990) 20-24
Panin, Fundamental role of nanoscale structural level of plastic strain in solids, Metal science and heat treatment. 48, 11-12 (2006) 533-538
Popov, The dynamics of crystallographic slip in copper, Metal Science. 9 (2003) 14-19
Petelin, Software support for the mathematical modeling of plastic deformation in crystalline materials, Vestnik TSUAB. 3 (2011) 159-163
Popov, Source of dislocations in the field of obstacles, Soviet Physics Journal. 33, 12 (1990) 20-24
Panin, Fundamental role of nanoscale structural level of plastic strain in solids, Metal science and heat treatment. 48, 11-12 (2006) 533-538
Popov, The dynamics of crystallographic slip in copper, Metal Science. 9 (2003) 14-19
Petelin, Software support for the mathematical modeling of plastic deformation in crystalline materials, Vestnik TSUAB. 3 (2011) 159-163
Online since: June 2012
Authors: Min Deng, Dao Sheng Sun, Xiu Sheng Wu, Ai Guo Wang, Wei Xu, Yan Li
Dry Shrinkage and Compressive Strength of Blended Cement Pastes with Fly Ash and Silica Fume
Yan Li 1, a, Daosheng Sun1, Xiusheng Wu1, Aiguo Wang 1, Wei Xu 1
and Min Deng 2
1Anhui Key Laboratory of Advanced Building Materials, Anhui University of Architecture, Hefei 230022, China
2College of Materials Science and Engineering, Nanjing University of Technology, Nanjing 210009, China
alyc@aiai.edu.cn
Keywords: Compressive Strength , Drying Shrinkage, Cement Pastes, Fly Ash, Silica Fume.
Fly ash (FA) and silica fume (SF) were used as cement replacement materials at levels of 0%, 5%, 10%, and 15% , 40%, 35%, 25%, and 15% by weight of the total cementitious material, respectively.
These materials are industrial by-products such as fly ash, slags, silica fume (or microsilica), and some naturally active materials such as volcanic tuffs.
Experimental Iinvestigation Raw Materials.
Nehdi: Environmental Science and Policy Vol. 8(2), (2005), p. 105 [5] L.
Fly ash (FA) and silica fume (SF) were used as cement replacement materials at levels of 0%, 5%, 10%, and 15% , 40%, 35%, 25%, and 15% by weight of the total cementitious material, respectively.
These materials are industrial by-products such as fly ash, slags, silica fume (or microsilica), and some naturally active materials such as volcanic tuffs.
Experimental Iinvestigation Raw Materials.
Nehdi: Environmental Science and Policy Vol. 8(2), (2005), p. 105 [5] L.
Online since: December 2003
Authors: S. Hansen, Ivana McCarthy, Lars Lidgren, C.L. Camiré, S. Jegou Saint-Jean
Christopher.Camire@ort.lu.se
2
Department of Materials Chemistry, LTH, Box 124, 221-00, Lund, Sweden.
The materials were mixed vigorously in a mortar and pestle for 15 minutes and then placed in a platinum crucible for heat treatment.
Journal of the American Ceramic Society , Vol 82, (1999), p. 2808- 2812
Journal of Materials Science-Materials in Medicine: Vol 6, (1995), p. 272-278
Journal of Biomedical Materials Research , Vol 32, (1996), p. 367-374
The materials were mixed vigorously in a mortar and pestle for 15 minutes and then placed in a platinum crucible for heat treatment.
Journal of the American Ceramic Society , Vol 82, (1999), p. 2808- 2812
Journal of Materials Science-Materials in Medicine: Vol 6, (1995), p. 272-278
Journal of Biomedical Materials Research , Vol 32, (1996), p. 367-374
Online since: April 2013
Authors: Kee Sun Bae, Sung Min Choi, Sang Geun Oh
This is because continuous-type mixing equipment currently in use were manufactured to mix materials with rather small amounts of additives, including cement such as SL materials or floor-finishing mortar and fine aggregate[2, 3].
A long mixing time and high performance by the mixing equipment are required due to properties of the materials.
This study improved existing mixing equipment to produce suitable repair work mortar by changing the properties of the materials used.
Mixing materials and making specimens Photo 6.
However, additional experiments are required to more precisely determine the chemical influence on materials.
A long mixing time and high performance by the mixing equipment are required due to properties of the materials.
This study improved existing mixing equipment to produce suitable repair work mortar by changing the properties of the materials used.
Mixing materials and making specimens Photo 6.
However, additional experiments are required to more precisely determine the chemical influence on materials.
Online since: December 2004
Authors: Wen Feng Ding, J.B. Lu, Jiu Hua Xu, Bing Xiao, Yu Can Fu, Hong Jun Xu
Materials Science Forum Vols. *** (2004) pp.11-15
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Brazed CBN Grinding Wheel with Ag-base Filler Alloy
W.F.
On the other hand, the current CBN wheels, whether monolayer electroplated wheels or multilayer sintered ones, both could not meet the requirements of hard materials to the tools.
Prior to brazing, all the materials were cleaned, respectively.
Fig.7 Concentration curves of elements Fig.8 SEM photograph of the fracture morphology C Ti Fe Cu Ag Materials Science Forum Vols. *** 15 References [1] B.H.Chen: 4th Zhengzhou International Superhard Material & Related Products Conference (China Machine Press, 2003) [2] B.
Xiao: Journal of Mechanical Engineering Vol.38 (2002), p. 91 (in Chinese) [3] Y.C.
On the other hand, the current CBN wheels, whether monolayer electroplated wheels or multilayer sintered ones, both could not meet the requirements of hard materials to the tools.
Prior to brazing, all the materials were cleaned, respectively.
Fig.7 Concentration curves of elements Fig.8 SEM photograph of the fracture morphology C Ti Fe Cu Ag Materials Science Forum Vols. *** 15 References [1] B.H.Chen: 4th Zhengzhou International Superhard Material & Related Products Conference (China Machine Press, 2003) [2] B.
Xiao: Journal of Mechanical Engineering Vol.38 (2002), p. 91 (in Chinese) [3] Y.C.
Online since: February 2022
Authors: Evgeniy V. Aryshenskii, Viacheslav Bazhenov, Jurgen Hirsch, Sergey Konovalov
Introduction
Aluminum alloys belong to the most promising materials applied in many industries [1 – 5].
Bazhin, Al–Cu–B 4 C Composite Materials for the Production of High-Strength Billets, Metallurgist. 64 (2020) 566-573
In Materials Proceedings 3 (2021) 7
Ryum, Scandium in aluminium alloys, International Materials Reviews. 1 (2005) 19-44
Sundman, Thermo-Calc and DICTRA, Computational tools for materials science. 26 (2002) 273-312
Bazhin, Al–Cu–B 4 C Composite Materials for the Production of High-Strength Billets, Metallurgist. 64 (2020) 566-573
In Materials Proceedings 3 (2021) 7
Ryum, Scandium in aluminium alloys, International Materials Reviews. 1 (2005) 19-44
Sundman, Thermo-Calc and DICTRA, Computational tools for materials science. 26 (2002) 273-312
Online since: September 2011
Authors: Yong En Guo, Jing Cao, Cai Ju Zhou, Shao Peng Wen, Ya Mei Zhang, Guo Zhen Fang
Journal of ethnopharmacology 2010, 132(2), 384-92
Science China.
Life Sciences 2010, 53(6), 653-62
Journal of Shenyang Pharmaceutical University, 2006, 23(1), 60-63
Chinese Journal of Organic Chemistry, 2005, 25(11), 1416-1419
Science China.
Life Sciences 2010, 53(6), 653-62
Journal of Shenyang Pharmaceutical University, 2006, 23(1), 60-63
Chinese Journal of Organic Chemistry, 2005, 25(11), 1416-1419
Online since: March 2010
Authors: Xuan Hui Qu, Zou Shun Zheng, Yuan Peng Zhu, Qin Wu Xu
This non-linear elastic body is close to a large
number of actual materials [19 ].
[5] JONSéN P, HAGGBLAD HA,TROIVEL, FURUB ERG J, ALLROTH S,SKOGLUND P: Materials Science Forum.
[6] Wang J.Z., Qu X.H., Yin H.Q., et al: Chinese journal of materials research.
[12] ZHOU Shengyu, YIN Haiqing, QU Xuanhui: Materials Review.
German: Materials Science and Technology.
[5] JONSéN P, HAGGBLAD HA,TROIVEL, FURUB ERG J, ALLROTH S,SKOGLUND P: Materials Science Forum.
[6] Wang J.Z., Qu X.H., Yin H.Q., et al: Chinese journal of materials research.
[12] ZHOU Shengyu, YIN Haiqing, QU Xuanhui: Materials Review.
German: Materials Science and Technology.
Online since: September 2014
Authors: Vera Murgul, Miloš Žarković, Jasmina Ćetković, Nikolay Vatin, Miloš Knežević
The emphasis is on achieving higher growth, reducing pollution and better protection of the environment, in order to minimize the impact on the consumption of energy and natural resources (use of eco-materials and renewable and locally available materials such as straw, biomass, wood, etc.)
Journal of Applied Engineering Science, Vol. 12 (2) (2014), pp 122-129 [10] V.
Journal of Applied Engineering Science, Vol. 12 (1). (2014). pp 1-10 [11] G.
Applied Mechanics and Materials.
Applied Mechanics and Materials.
Journal of Applied Engineering Science, Vol. 12 (2) (2014), pp 122-129 [10] V.
Journal of Applied Engineering Science, Vol. 12 (1). (2014). pp 1-10 [11] G.
Applied Mechanics and Materials.
Applied Mechanics and Materials.
Online since: July 2012
Authors: Ke Peng, Kun Zhang, Qing Han, Hui Juan Xiu
Experiment
Materials.
The softwood fibers with beating degree 45°SR were used as the raw material.
All materials were used as received without further purification.
Fig. 7 SEM of unmodified softwood fibers Fig. 8 SEM of softwood fibers after etherification modification Conclusion Softwood fibers could be turned into new polymer materials by epoxy chloropropane etherification modification.
Journal of the Japan Wood Research Society, 1985, 31(3): 215- 221
The softwood fibers with beating degree 45°SR were used as the raw material.
All materials were used as received without further purification.
Fig. 7 SEM of unmodified softwood fibers Fig. 8 SEM of softwood fibers after etherification modification Conclusion Softwood fibers could be turned into new polymer materials by epoxy chloropropane etherification modification.
Journal of the Japan Wood Research Society, 1985, 31(3): 215- 221