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Online since: October 2025
Authors: Natthaya Siangdee, Wilasinee Kingkam, Sudarat Issarapanacheewin, Witsanu Katekaew, Nikom Prasertchiewchan, Kanlayawat Wangkawong
To overcome these limitations, the integration of MHCFs with carbon-based materials has been explored.
Experimental Chemical and Materials.
Composites materials Analytes Synthesis method R% Ref.
Nankawa: ACS Applied Materials and Interfaces Vol. 5 (2013), p. 12984-12990
Deng: Journal of Chemistry (2021), p. 1-9.
Experimental Chemical and Materials.
Composites materials Analytes Synthesis method R% Ref.
Nankawa: ACS Applied Materials and Interfaces Vol. 5 (2013), p. 12984-12990
Deng: Journal of Chemistry (2021), p. 1-9.
Online since: July 2012
Authors: Feng Tian, Geng Wang, Yan Rong Ni, Zhan Ying Tong
The blend was completely able to meet the requests for the insulation materials of the cable of detection.
At present, this blends has been applied in the production of probe cable as insulation materials.
Experiment We need to prepare the necessary raw materials for the test.
The raw materials should be divided into several groups according to a certain percentage.
[4] Yu Zhong Duan: Plastic modification , In Chinese, Science and Technology Literature Publishing House, 1988: 51 – 131 [5] Ying Xu, Ying Xing Xi and Feng Ji Lu: Xi'an Jiaotong University Journal , In Chinese ,Vol. 33(1999), p. 102-103 [6] Shao Hui Huang: Journal of Polymer Science , In Chinese ,Vol. 2(1991), p. 134-141 [7] Zheng Ya Zhou,Xian Dong Chen and Xiao Hua Yang: Modern Plastics Processing and Applications , In Chinese ,Vol. 10(1998), p. 34-36 [8] Hao Bo Xin: Plastic alloy and plastic blends modified , In Chinese, Light Industry Press, 2000: 27– 39
At present, this blends has been applied in the production of probe cable as insulation materials.
Experiment We need to prepare the necessary raw materials for the test.
The raw materials should be divided into several groups according to a certain percentage.
[4] Yu Zhong Duan: Plastic modification , In Chinese, Science and Technology Literature Publishing House, 1988: 51 – 131 [5] Ying Xu, Ying Xing Xi and Feng Ji Lu: Xi'an Jiaotong University Journal , In Chinese ,Vol. 33(1999), p. 102-103 [6] Shao Hui Huang: Journal of Polymer Science , In Chinese ,Vol. 2(1991), p. 134-141 [7] Zheng Ya Zhou,Xian Dong Chen and Xiao Hua Yang: Modern Plastics Processing and Applications , In Chinese ,Vol. 10(1998), p. 34-36 [8] Hao Bo Xin: Plastic alloy and plastic blends modified , In Chinese, Light Industry Press, 2000: 27– 39
Online since: March 2012
Authors: Muhamad Zaini Yunos, H. Basri, Ahmad Fauzi Ismail, Zawati Harun
Experimental
Materials.
Teo, Journal of Membrane Science, 2000. 176(2): p. 147-158
Purkait, Journal of Membrane Science, 2008. 309(1-2): p. 209-221
[14] Han, J., etc., Journal of Membrane Science, 2010. 365(1-2): p. 311-318
[17] Xu, A., etc., Journal of Membrane Science, 2008. 311(1-2): p. 153-158
Teo, Journal of Membrane Science, 2000. 176(2): p. 147-158
Purkait, Journal of Membrane Science, 2008. 309(1-2): p. 209-221
[14] Han, J., etc., Journal of Membrane Science, 2010. 365(1-2): p. 311-318
[17] Xu, A., etc., Journal of Membrane Science, 2008. 311(1-2): p. 153-158
Online since: April 2021
Authors: Zi Yuan Song
A, Deformation microstructures after low-cycle fatigue in a fourth-generation Ni-base SC superalloy TMS-138," Materials Science and Engineering: A. 381 (2004) 20-27
Décampsb, Low cycle fatigue of a nickel based superalloy at high temperature: deformation microstructures, Materials Science and Engineering: A. 316, no. 1-2, (2001) 18-31
A, Time-incremental creep–fatigue damage rule for single crystal Ni-base superalloys, Materials Science & Engineering A. 508 (2009). 200-208
A, Low-cycle fatigue of single crystal nickel-based superalloy – mechanical testing and TEM characterisation, Materials Science and Engineering: A. 744 (2019) 538-547
Hu, Thermo-mechanical fatigue behavior of a single crystal nickel-based superalloy, Materials Science and Engineering: A. 528, (2011) 6217-6224
Décampsb, Low cycle fatigue of a nickel based superalloy at high temperature: deformation microstructures, Materials Science and Engineering: A. 316, no. 1-2, (2001) 18-31
A, Time-incremental creep–fatigue damage rule for single crystal Ni-base superalloys, Materials Science & Engineering A. 508 (2009). 200-208
A, Low-cycle fatigue of single crystal nickel-based superalloy – mechanical testing and TEM characterisation, Materials Science and Engineering: A. 744 (2019) 538-547
Hu, Thermo-mechanical fatigue behavior of a single crystal nickel-based superalloy, Materials Science and Engineering: A. 528, (2011) 6217-6224
Online since: February 2022
Authors: Mikhail G. Boyarshinov, Marat Bekmansurov, Dmitriy Shamov, Konstantin Dongauzer
Khairallah Overview of modelling and simulation of metal powder bed fusion process at Lawrence Livermore National Laboratory // Material Science and Technology, Vol.31, №. 8 (2015) 957–968
Trofimov Additive manufacturing of high entropy alloys: a practical review, Journal of Materials Science & Technology 77 (2021) 131-162
Shi Experimental Investigational on Laser Metal Deposition of Ti-6Al-4V Alloy with Coaxial Local Shielding Gas Nozzle, Journal of Materials Engineering and Performance. 2020
Zhao Three-dimensional finite element analysis of temperatures and stresses in wide-band laser surface melting processing, Materials & Design, Vol. 31, №. 7 (2010) 3366–3373
Additive manufacturing of metallic components by selective electron beam melting –a review, International Materials Reviews, Vol. 61, №.5 (2016) 361–377.
Trofimov Additive manufacturing of high entropy alloys: a practical review, Journal of Materials Science & Technology 77 (2021) 131-162
Shi Experimental Investigational on Laser Metal Deposition of Ti-6Al-4V Alloy with Coaxial Local Shielding Gas Nozzle, Journal of Materials Engineering and Performance. 2020
Zhao Three-dimensional finite element analysis of temperatures and stresses in wide-band laser surface melting processing, Materials & Design, Vol. 31, №. 7 (2010) 3366–3373
Additive manufacturing of metallic components by selective electron beam melting –a review, International Materials Reviews, Vol. 61, №.5 (2016) 361–377.
Preparation Technology and Surface Finishing Characteristics Research of New Magnetic Abrasive Tools
Online since: August 2012
Authors: Xiu Hong Li, Wen Hui Li, Sheng Qiang Yang
And booming appear of new materials of also puts forward new requirements for performance of the magnetic abrasives.
Acknowledgments: This research is financially supported by the National Natural Science Foundation of China (NO.51175365), provincial natural science foundation of Shanxi (2011021021-4) and science and technology foundation of ShanXi (20090321041).
Kawashima: Journal of Materials Processing Technology, Vols.143-144 (2003), pp.682-686
Liu: International Journal of Materials and Manufacturing Processes, Vol.19 (2009) No.1, pp.250-257
Yang: Key Engineering Materials Vol.455 (2011), pp.174-178.
Acknowledgments: This research is financially supported by the National Natural Science Foundation of China (NO.51175365), provincial natural science foundation of Shanxi (2011021021-4) and science and technology foundation of ShanXi (20090321041).
Kawashima: Journal of Materials Processing Technology, Vols.143-144 (2003), pp.682-686
Liu: International Journal of Materials and Manufacturing Processes, Vol.19 (2009) No.1, pp.250-257
Yang: Key Engineering Materials Vol.455 (2011), pp.174-178.
Online since: June 2025
Authors: Péter Zoltán Kovács, Attila Baksa, Marwen Habbachi
Journal of Materials Processing Technology, 186(1- 3): 45–53, 2007
Journal of Materials Processing Technology, 140(1-3):447–453, 2003
Journal of Materials Processing Technology, 209(8):3688–3695, 2009
Journal of materials processing technology, 130:42–46, 2002
In Materials Science Forum, volume 729, pages 85–90.
Journal of Materials Processing Technology, 140(1-3):447–453, 2003
Journal of Materials Processing Technology, 209(8):3688–3695, 2009
Journal of materials processing technology, 130:42–46, 2002
In Materials Science Forum, volume 729, pages 85–90.
Online since: March 2012
Authors: Jian Gen Wang, Ya Hui Liu
This study used alumina fine as main raw materials to prepare the porous ceramic separation membrane supports.
Experiments Materials.
Figure 4 is the SEM pictures of the supports with the same materials prescription and sintering temperature at different holding time.
Kwan, The dependence of pore size distribution on porosity in hot isostatically pressed porous alumina, Journal of Porous Materials. 8(2001) 119-127
Miao, Porous alumina ceramics prepared by slurry infiltration of expanded polystyrene beads, Journal of Materials Science. 40(2005) 6145-6150.
Experiments Materials.
Figure 4 is the SEM pictures of the supports with the same materials prescription and sintering temperature at different holding time.
Kwan, The dependence of pore size distribution on porosity in hot isostatically pressed porous alumina, Journal of Porous Materials. 8(2001) 119-127
Miao, Porous alumina ceramics prepared by slurry infiltration of expanded polystyrene beads, Journal of Materials Science. 40(2005) 6145-6150.
Online since: August 2013
Authors: Qin Li, Xiao Jun Zhou, Ke Wei Sun
Analysis of the Rate Constant for Hydration Kinetics of the Cement and Ash fly in the Solidified Residues System Based on the Measurement of Ca(OH)2
Qin Li 1,2,3,a, Xiao Jun Zhou2,b, Ke-wei SUN 3,c
(1 Environmental Engineering Faculty, Kunming University of Science and Technology Kunming 650500
2 Yunnan Open University, Kunminng 650500
3 National Engineering Research Center of Waste Resource Recovery, Kunming University of Science and Technology, Kunming 650093)
aliqin6688@126.com, bjane1960@163.com, csunkewei2005@163.com
Keywords: cement; ash fly; concrete residues; kinetics; cementitious materials
Abstract: Based on the hydration kinetics of the cement matrix material, the paper presents a chemical analysis method by means of analyzing the contents of Ca(OH)2 in cement matrix material.
Therefore, Ca(OH)2 is not only the hydration products of the cement, but also the raw materials of reaction of ash fly and pozzolana.
Kinetics model for the hydration mechanism of cementitious materials[J].
Journal of The Chinese Ceramic Society, 2006,34(5):555-559
Methods of chemical analysis of cement material [M].
Therefore, Ca(OH)2 is not only the hydration products of the cement, but also the raw materials of reaction of ash fly and pozzolana.
Kinetics model for the hydration mechanism of cementitious materials[J].
Journal of The Chinese Ceramic Society, 2006,34(5):555-559
Methods of chemical analysis of cement material [M].
Online since: January 2013
Authors: Gow Yi Tzou, Yeong Maw Hwang, Hsiang Yu Teng
Bae, Journal of Materials Processing Technology, Vol. 143-144, (2003) p. 656
Yamashita, Journal of Materials Processing Technology, Vol. 110, (2001) p. 253
Murakawa, Journal of Materials Processing Technology, Vol. 192–193, (2007) p. 237
Schaper, Journal of Materials Processing Technology, Vol. 212, (2012) p. 437
Hambli, Journal of Materials Processing Technology , Vol. 177, (2006) p. 287
Yamashita, Journal of Materials Processing Technology, Vol. 110, (2001) p. 253
Murakawa, Journal of Materials Processing Technology, Vol. 192–193, (2007) p. 237
Schaper, Journal of Materials Processing Technology, Vol. 212, (2012) p. 437
Hambli, Journal of Materials Processing Technology , Vol. 177, (2006) p. 287