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Online since: May 2020
Authors: Fan Chen, Mustafa Hasan Balci, Xu Yuan Chen, Muhammad Nadeem Akram, He Xin Xia
Optical Materials 35.2 (2012): 263-267
Materials Research Bulletin 53 (2014): 49-53
Journal of Materials Science: Materials in Electronics 26.9 (2015): 7290-7294
Journal of Materials Science: Materials in Electronics 28.5 (2017): 4409-4413
Materials Letters 188 (2017): 119-122
Materials Research Bulletin 53 (2014): 49-53
Journal of Materials Science: Materials in Electronics 26.9 (2015): 7290-7294
Journal of Materials Science: Materials in Electronics 28.5 (2017): 4409-4413
Materials Letters 188 (2017): 119-122
Online since: July 2020
Authors: Lin Sheng Tang, Xin Zhu, Fu Long Zhou, Hong Zhi Wu, Ming Mei Sun
Macromolecular Materials & Engineering. 289 (2004) 499-511
Journal of Applied Polymer Science. 127 (2012) 1061-1068
Journal of Fire Sciences. 18 (2000) 7-27
Macromolecular Materials and Engineering. 292 (2007) 206-213
Journal of Applied Polymer Science. 131 (2015) 179-180
Journal of Applied Polymer Science. 127 (2012) 1061-1068
Journal of Fire Sciences. 18 (2000) 7-27
Macromolecular Materials and Engineering. 292 (2007) 206-213
Journal of Applied Polymer Science. 131 (2015) 179-180
Online since: July 2011
Authors: Marcin Rosiński, Andrzej Michalski, Magdalena Płocińska, Jerzy Szawłowski
WC/Ti composite material enriched with cBN particles produced by pulse plasma sintering (PPS)
Marcin Rosiński1,a, Andrzej Michalski1,b,
Magdalena Płocińska1,c, Jerzy Szawłowski 1,d
1Warsaw University of Technology, Faculty of Materials Science and Engineering, Warsaw, Poland
aninmar@inmat.pw.edu.pl, bmihalski@inmat.pw.edu.pl,
cmagdalena.plocinska@inmat.pw.edu.pl, djsz@inmat.pw.edu.pl
Keywords: cBN, hBN, composite, sintered carbide, titanium, PPS, SPS, pulse plasma sintering.
It is the second hardest material among all known hard materials, and is considerably harder than tungsten carbide (WC). cBN has a high abrasive wear resistance, and in contrast to diamond it does not react with ferrous materials.
Yuan: Key Engineering Materials, Vol. 336 (2007) p. 1053 [9] V.
Siemiaszko: International Journal of Refractory Metals & Hard Materials, Vol. 25 (2007) p. 153 [11] A.
Rosiński: Journal of the American Ceramic Society, Vol. 91 (2008) p. 3560 [12] T.
It is the second hardest material among all known hard materials, and is considerably harder than tungsten carbide (WC). cBN has a high abrasive wear resistance, and in contrast to diamond it does not react with ferrous materials.
Yuan: Key Engineering Materials, Vol. 336 (2007) p. 1053 [9] V.
Siemiaszko: International Journal of Refractory Metals & Hard Materials, Vol. 25 (2007) p. 153 [11] A.
Rosiński: Journal of the American Ceramic Society, Vol. 91 (2008) p. 3560 [12] T.
Online since: October 2025
Authors: Penpisuth Thongyoug, Jennarong Tungtrongpairoj, Paweena Treewiriyakitja, Saowaluk Chaleawlert-Umpon, Ratchapon Nilprapa
Materials
Environment
kp (mg2 cm-4 s-1)
Ref.
M., "Characterizing high temperature crack growth behaviour under mixed environmental, creep and fatigue conditions," Materials Science and Engineering: A, 728 (2018) 102-114
[4] Yamazaki, S., Lu, Z., Ito, Y., Takeda, Y., & Shoji, T., "The effect of prior deformation on stress corrosion cracking growth rates of Alloy 600 materials in a simulated pressurized water reactor primary water," Corrosion Science, 50 (2008) 835-846
T., "Oxidation behavior of ferritic–martensitic and ODS steels in supercritical water," Journal of Nuclear Materials, 424 (2012) 261-276
G., “Long-term high temperature oxidation behavior of ODS ferritics,” Journal of Nuclear Materials. 307 (2002) 763-768
M., "Characterizing high temperature crack growth behaviour under mixed environmental, creep and fatigue conditions," Materials Science and Engineering: A, 728 (2018) 102-114
[4] Yamazaki, S., Lu, Z., Ito, Y., Takeda, Y., & Shoji, T., "The effect of prior deformation on stress corrosion cracking growth rates of Alloy 600 materials in a simulated pressurized water reactor primary water," Corrosion Science, 50 (2008) 835-846
T., "Oxidation behavior of ferritic–martensitic and ODS steels in supercritical water," Journal of Nuclear Materials, 424 (2012) 261-276
G., “Long-term high temperature oxidation behavior of ODS ferritics,” Journal of Nuclear Materials. 307 (2002) 763-768
Online since: February 2011
Authors: Ming Fang Lu, Shu Hao Chuang, Hsing Juin Lee
The material of the semiconductor used in the furnace is YAG.
Results and Discussions: This study installed YAG crystal into the vertical Bridgman furnace, and the materials used are shown in Table 1.
Acknowledgements The authors would like to thank the National Science Council for supplying this research (NSC98-2221-E-273-004).
Lee: Advanced Materials Research, Vol.154-155 (2011), p.1538
Dutton: Materials Science and Engineering B.
Results and Discussions: This study installed YAG crystal into the vertical Bridgman furnace, and the materials used are shown in Table 1.
Acknowledgements The authors would like to thank the National Science Council for supplying this research (NSC98-2221-E-273-004).
Lee: Advanced Materials Research, Vol.154-155 (2011), p.1538
Dutton: Materials Science and Engineering B.
Online since: February 2011
Authors: Hui Ping Ren, Zi Li Jin, Wen Zhong Song, Qi Fang, Hui Chang
Effect of Rare Earth(RE) La on Solid Solution of Second Phase Particle and Austenite Grain Growth in Steel Containing High Niobium
Wenzhong Song1,a, Qi Fang1,b, Huiping Ren1,c, Zili Jin1,d, Hui Chang1,e
Material and Metallurgy School, Inner Mongolia University of Science and Technology, Baotou, Inner Mongolia, 014010,China
asongwenzhong5423@126.com,bfq195461162@126.com,crenhuiping@sina.com,djinzl6310@yahoo.com.cn,echanghui198@126.com
Keywords: High Niobium-Containing RE Steel; Austenite Grain Growth; Parabolic Law; Average Grain Size; Second-Phase Particle
Abstract.
Acknowledgements This work was supported by innovation foundation program of the Inner Mongolia University of Science and Technology of china(2009NC009) and Inner Mongolia autonomous region to guide program of Science and technology of china (20071911).The authors would like to thank for innovation team of Material and Metallurgy School of Inner Mongolia University of Science and Technology.
References [1] Seok-Jae Lee,June-Soo Park,Young-Kook Lee: submitted to Journal of Scripta Materialia, Vol. 59 (2008), p. 87 [2] Xinghua Zhu, Qin Lin, Jing Zeng: submitted to Journal of Rare Earths, Vol. 21 (2003), p. 81 [3] Seung Chan Hong, Sung Hwan Lim, Hyun Seon Hong: submitted to Journal of Materials Science andEngineering, Vol. 355 (2003), p. 241 [4] M.
Ågren: submitted to Journal of Acta Materialia, Vol. 44 (1996), p. 4241 [5] J.
Wusatowski: submitted to Journal of Materials Processing Technology, Vol. 53 (1995), p. 23 [6] Wenzhong Song, Qi Fang, Huiping Ren: submitted to Journal of Physics examination and testing (In Chinese), Vol. 28 (2010), p. 6 [7] Yong-ning Yu, Guo-quan Liu: Stereology: Principles and Applications of Quantitative Microstructural Analysis. ( Metallurigical Industry Press, China 1989) [8] Linna Duan, Jiman Wang, Qingyou Liu: submitted to Journal of Iron and Steel Research, Vol. 17 (2010), p. 62 [9] Qin Lin, Bangwen Chen, Li Tang: submitted to Journal of Rare Earths (In Chinese), Vol. 20 (2002), p. 256 [10] Irvine K J, Pickering F B,Gladman T: submitted to Journal of Iron and steel Institute Journal, Vol. 205 (1967), p. 161
Acknowledgements This work was supported by innovation foundation program of the Inner Mongolia University of Science and Technology of china(2009NC009) and Inner Mongolia autonomous region to guide program of Science and technology of china (20071911).The authors would like to thank for innovation team of Material and Metallurgy School of Inner Mongolia University of Science and Technology.
References [1] Seok-Jae Lee,June-Soo Park,Young-Kook Lee: submitted to Journal of Scripta Materialia, Vol. 59 (2008), p. 87 [2] Xinghua Zhu, Qin Lin, Jing Zeng: submitted to Journal of Rare Earths, Vol. 21 (2003), p. 81 [3] Seung Chan Hong, Sung Hwan Lim, Hyun Seon Hong: submitted to Journal of Materials Science andEngineering, Vol. 355 (2003), p. 241 [4] M.
Ågren: submitted to Journal of Acta Materialia, Vol. 44 (1996), p. 4241 [5] J.
Wusatowski: submitted to Journal of Materials Processing Technology, Vol. 53 (1995), p. 23 [6] Wenzhong Song, Qi Fang, Huiping Ren: submitted to Journal of Physics examination and testing (In Chinese), Vol. 28 (2010), p. 6 [7] Yong-ning Yu, Guo-quan Liu: Stereology: Principles and Applications of Quantitative Microstructural Analysis. ( Metallurigical Industry Press, China 1989) [8] Linna Duan, Jiman Wang, Qingyou Liu: submitted to Journal of Iron and Steel Research, Vol. 17 (2010), p. 62 [9] Qin Lin, Bangwen Chen, Li Tang: submitted to Journal of Rare Earths (In Chinese), Vol. 20 (2002), p. 256 [10] Irvine K J, Pickering F B,Gladman T: submitted to Journal of Iron and steel Institute Journal, Vol. 205 (1967), p. 161
Online since: September 2006
Authors: Jin Cheng Wang, Gen Cang Yang, Zhong Ming Zhang
Lavernia: Materials Science and Engineering R13 (1994) p.325
[2] P.A.
Alexandrov: Progress in Materials Science 2000, (45) p.103 [5] V.M.
Segal: Materials Science and Engineering A 386 (2004) p.269 [6] R.
Akhmadeev: Materials Science and Engineering A171 (1993) p.143 [7] R.
Langdon: Journal of Materials Processing Technology 117 (2001) P.288 [13] P.C.
Alexandrov: Progress in Materials Science 2000, (45) p.103 [5] V.M.
Segal: Materials Science and Engineering A 386 (2004) p.269 [6] R.
Akhmadeev: Materials Science and Engineering A171 (1993) p.143 [7] R.
Langdon: Journal of Materials Processing Technology 117 (2001) P.288 [13] P.C.
Online since: September 2013
Authors: Lian Zhou Jiang, Xi Bo Wang, Ying Hua Zhang
Among these functional properties, emulsifying properties is one of the most important functional properties of SPI for food materials.
Materials and methods Materials SPI was supplied from jinhai Co.
Journal of Colloid and Interface Science, Vol.303 (2006), p.564-572
Kiosseoglou: Competitive adsorption between dry-heated soy protein-dextran mixture and surface-active materials in oil-in-water emulsions.
Journal of Food Science, Vol. 5 (2006), p.285-291
Materials and methods Materials SPI was supplied from jinhai Co.
Journal of Colloid and Interface Science, Vol.303 (2006), p.564-572
Kiosseoglou: Competitive adsorption between dry-heated soy protein-dextran mixture and surface-active materials in oil-in-water emulsions.
Journal of Food Science, Vol. 5 (2006), p.285-291
Online since: May 2016
Authors: J.L. Wang, W.W. Song
,Computational Materials Science. 2009, 44: 858-866
Murakawa, Computational Materials Science.2008, (43):591-607
Lee, Journal of Materials ProcessingThchnology.2008, 23: 305-353
John, Materials Science and Engineering A, 2008, (490): 427-437
Goldak, Computational Materials Science. 2009, 44, : 841-849
Murakawa, Computational Materials Science.2008, (43):591-607
Lee, Journal of Materials ProcessingThchnology.2008, 23: 305-353
John, Materials Science and Engineering A, 2008, (490): 427-437
Goldak, Computational Materials Science. 2009, 44, : 841-849
Online since: October 2012
Authors: Wen Ge Chen
Study on Reproduction of Ink Color with Paper Performance based on Energy Saving and Special Material Properties
Wenge Chen
Zhejiang University of Science and Technology, Hangzhou, China,310023
e-mail:cwg_100@163.com
Keyword: Paper performance, Color efficiency, Smoothness, Color deviation,Energy Saving
Abstract.
Experiment Experimental equipment, material and experimental conditions Experimental Material.
Special Material Paper performance and ink density measurement Special Material Paper performance measurement.
Special Material Paper performance and ink color efficiency of relationship The magenta ink as an example, calculating and analyzing the paper smoothness, whiteness and color efficiency relationship.
References [1] Liang Liu, Zhijian Li, Yongchang Chen: Journal of Shanxi University of Science & Technology, Vol.2(2009),p.73-80, in Chinese
Experiment Experimental equipment, material and experimental conditions Experimental Material.
Special Material Paper performance and ink density measurement Special Material Paper performance measurement.
Special Material Paper performance and ink color efficiency of relationship The magenta ink as an example, calculating and analyzing the paper smoothness, whiteness and color efficiency relationship.
References [1] Liang Liu, Zhijian Li, Yongchang Chen: Journal of Shanxi University of Science & Technology, Vol.2(2009),p.73-80, in Chinese