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Online since: August 2013
Authors: Chun Mei Wang, Jing Wang, Guang Dong Cao, Dan Yang Dong, Li Rong Yang
Many studies have been carried out to investigate the use of coal gangue in building materials [7,8].
Experimental Raw materials.
The chemical compositions of the raw materials are listed in Table 1.
The proportions of raw materials were presented in Table 2.
Journal of Wuhan University of Technology- Mater.
Experimental Raw materials.
The chemical compositions of the raw materials are listed in Table 1.
The proportions of raw materials were presented in Table 2.
Journal of Wuhan University of Technology- Mater.
Online since: March 2015
Authors: Yan Li, Jian Can Yang, Zhen Liu
Welding Performance of Tungsten Electrodes with Different
Contents of Rare Earth Oxides
Li Yan1, a, Yang Jiancan1, b and Liu zhen1, c
1School of materials science and engineering of Beijing University of Technology,
Beijing 100022, China
ayanli@emails.bjut.edu.cn, bjcan@bjut.edu.cn, cLiuzhensmile2008@126.com
Keywords: Rare earth, Tungsten electrode, Consumption of electrode, Arc characteristics.
Introduction Tungsten electrode materials are widely used in aerospace, nuclear, chemical, electrical, metallurgical and other industries, they are suitable for almost all the welding of metal materials, especially the non-ferrous metal and its alloy, stainless steel, high temperature alloy, etc [1-5].
Replacing traditional radioactive thorium tungsten electrode materials with rare earth tungsten electrode materials has became a hot research since a significant impact on the electrode performance using rare earth oxides.
The raw materials adopted for this experiment mainly include ammonium paratungstate (APT) and rare earth nitrates, both of them were from Beijing Tungsten and Molybdenum Material Factory.
A study on the properties of rare earth doped tungsten materials[J].
Introduction Tungsten electrode materials are widely used in aerospace, nuclear, chemical, electrical, metallurgical and other industries, they are suitable for almost all the welding of metal materials, especially the non-ferrous metal and its alloy, stainless steel, high temperature alloy, etc [1-5].
Replacing traditional radioactive thorium tungsten electrode materials with rare earth tungsten electrode materials has became a hot research since a significant impact on the electrode performance using rare earth oxides.
The raw materials adopted for this experiment mainly include ammonium paratungstate (APT) and rare earth nitrates, both of them were from Beijing Tungsten and Molybdenum Material Factory.
A study on the properties of rare earth doped tungsten materials[J].
Online since: April 2020
Authors: Rui Li, Zhi Fan Zhou, Xuan Wang, Cheng Gong, Jin Yang, Jun Du, Wen Qian Qi
Experimental
2.1 Materials
Titanium tetrachloride (TiCl4) was produced from Sinopharm Group Chemical Reagent Co.
Chemical Science, 2010, 1, 575-580
TiO2 nanobelt@Co9S8 composites as promising anode materials for lithium and sodium ion batteries.
Zhao, Vertically aligned nanorod-like rutile TiO2 single crystal nanowire bundles with superior electron transport and photoelectrocatalytic properties, Journal of Materials Chemistry .22 (2012) 2465-2472
Chemistry of Materials, 2014, 26(1): 415-422
Chemical Science, 2010, 1, 575-580
TiO2 nanobelt@Co9S8 composites as promising anode materials for lithium and sodium ion batteries.
Zhao, Vertically aligned nanorod-like rutile TiO2 single crystal nanowire bundles with superior electron transport and photoelectrocatalytic properties, Journal of Materials Chemistry .22 (2012) 2465-2472
Chemistry of Materials, 2014, 26(1): 415-422
Online since: May 2011
Authors: Abdul Amir Hassan Kadhum, Abu Bakar Mohamad, Wan Ramli Wan Daud, Rachid Chebbi
Journal of Power Sources 108,( 2002), 185-191
Journal of Power Sources 184 (2008) 245–25
Applied Surface Science 255(2009) 6367–6371
Journal of Power Sources 139 (2005) 73–78
Journal of Power Sources. 141 (2005) 250–257.
Journal of Power Sources 184 (2008) 245–25
Applied Surface Science 255(2009) 6367–6371
Journal of Power Sources 139 (2005) 73–78
Journal of Power Sources. 141 (2005) 250–257.
Online since: June 2012
Authors: Vengadesh Periasamy
Low Dimensional Materials Research Center, Department of Physics, Faculty of Science,
University of Malaya, 50603 Kuala Lumpur, Malaysia
Email, vengadeshp@um.edu.my
Keywords: chlorophyll-a; langmuir film; isotherm; mechanical properties; thermodynamic properties
Abstract.
The results measured illustrates that the method could be employed to scrutinize deposition conditions and film characteristics for Chl-a molecules and other amphiphilic materials in the fabrication of bio-devices.
Materials and methods Materials.
Value of deposition pressure obtained in this work (26.0 mN/m), represent the general values reported in other journals [12-14].
This and the measurement of Poisson’s ratio could be used to further re-engineer the surface of the film by means of modifying the molecular structure using possible absorbent materials.
The results measured illustrates that the method could be employed to scrutinize deposition conditions and film characteristics for Chl-a molecules and other amphiphilic materials in the fabrication of bio-devices.
Materials and methods Materials.
Value of deposition pressure obtained in this work (26.0 mN/m), represent the general values reported in other journals [12-14].
This and the measurement of Poisson’s ratio could be used to further re-engineer the surface of the film by means of modifying the molecular structure using possible absorbent materials.
Online since: January 2015
Authors: Valeria Kretova, Tatiana Polivanova, Nikolay Kobelev, Vladimir Kobelev, Alexander Akul’shin
Application of natural zeolites for aquatic and air medium purification (2014) Applied Mechanics and Materials, pp. 565-572
Sciences E.V.
Problems and solutions: materials Intern. acad. readings.
Materials Intern. scientific-tehn. conf.
-phys. journal. №2. 1972, pp. 242-247
Sciences E.V.
Problems and solutions: materials Intern. acad. readings.
Materials Intern. scientific-tehn. conf.
-phys. journal. №2. 1972, pp. 242-247
Online since: November 2020
Authors: Pavel Bekeč, Ľudovít Parilák, Pavol Beraxa, Martin Fujda, Miloš Matvija
Material and Experiment
The 9CrNB steel was used as an experimental material, from which hot-rolled tubes were produced with dimensions of 88.9 × 12.5 mm.
Kim, Comparison of Various 9-12%Cr Steels Under Fatigue and Creep-Fatigue Loadings at High Temperature, Materials Science Engineering A 528 (2011) 6934-6945
Leen, Fatigue Damage Characterisation of MarBN Steel for High Temperature Flexible Operating Conditions, Proceedings of the Institution of Mechanical Engineers, Part I, Journal Materials: Design and Applications 231, 1-2 (2017) 23-37
Brziak, Optimalization of tempering temperature of 9CrNB steel in Železiarne Podbrezová Steelworks, Materials Science Forum 891 (2017) 137-142.
Abe, Precipitate Design for Creep Strengthening of 9% Cr Tempered Martensitic Steel for Ultra-Supercritical Power Plants, Science and Technology of Advanced Materials 9 (2008) 013002, (15 pp).
Kim, Comparison of Various 9-12%Cr Steels Under Fatigue and Creep-Fatigue Loadings at High Temperature, Materials Science Engineering A 528 (2011) 6934-6945
Leen, Fatigue Damage Characterisation of MarBN Steel for High Temperature Flexible Operating Conditions, Proceedings of the Institution of Mechanical Engineers, Part I, Journal Materials: Design and Applications 231, 1-2 (2017) 23-37
Brziak, Optimalization of tempering temperature of 9CrNB steel in Železiarne Podbrezová Steelworks, Materials Science Forum 891 (2017) 137-142.
Abe, Precipitate Design for Creep Strengthening of 9% Cr Tempered Martensitic Steel for Ultra-Supercritical Power Plants, Science and Technology of Advanced Materials 9 (2008) 013002, (15 pp).
Online since: September 2011
Authors: Feng Li Bei, Guang Yu He, Hai Qun Chen, Jian Shi, Xiao Qiang Sun, Xin Wang
Theoretical Study on σ-Complexes in Ring-Chlorination of Toluene
Guang-yu He1, 2, Hai-qun Chen2, Jian Shi2, Feng-li Bei1, Xiao-qiang Sun2,
Xin Wang1, a
1 Lab of Materials, Institute of chemistry and Chemical Engineering, Nanjing University of Science & Technology, Nanjing, 210094, Jiangsu Province, China
2 Key Lab of Fine Chemical Engineering, Changzhou University, Changzhou, 213164, Jiangsu Province, China.
Acknowledgments The financial supports from National Natural Science Foundation of China, No. 20872051, Natural Science Foundation of Jiangsu Province, No.
Lund, Journal of Catalysis 202, 59-67 (2001)
Li, The Bond and Electronic Structure for Metal Azides, Beijing: Science Press, (1996)
Acknowledgments The financial supports from National Natural Science Foundation of China, No. 20872051, Natural Science Foundation of Jiangsu Province, No.
Lund, Journal of Catalysis 202, 59-67 (2001)
Li, The Bond and Electronic Structure for Metal Azides, Beijing: Science Press, (1996)
Online since: May 2012
Authors: Li Qing Zhang, Gang Zhang
Materials and Methods
The Raw Sludge.
Programs Foundation of University of Jinan (XBS1105),and Science & Technology Plan Project for Universities and Colleges of Shandong (W0960).
Water Science and Technology, Vol.62(2011), p.2021 [4] X.C.
Water Science and Technology, Vol.62(2011), p.1346
International Journal of Mineral Processing, Vol.76(2005) , p.173
Programs Foundation of University of Jinan (XBS1105),and Science & Technology Plan Project for Universities and Colleges of Shandong (W0960).
Water Science and Technology, Vol.62(2011), p.2021 [4] X.C.
Water Science and Technology, Vol.62(2011), p.1346
International Journal of Mineral Processing, Vol.76(2005) , p.173
Online since: November 2012
Authors: Ji Xian Dong, Zhi Guo Chang, Jiang Miao Yi
Research Advance on the Drying Section of Paper Machine
Zhi Guo Chang, Ji Xian Dong, Jiang Miao Yi
College of Mechanical and Electrical Engineering, Shaanxi University of Science & Technology, Xi’an, 710021, China
chzg119@163.com, dongjixian@sina.com, Yijm0911@163.com
Keywords: Paper Machine, Dryer, Heat Transfer, Research Advance
Abstract.
With the rapid development of the science technology, the paper equipment towards maximization, high speed, automation directions, siphon drainage capacity is limited and dryer surface temperature is not even distribution have become increasingly prominent.
In addition, there is a fine blind channel (filled with insulation materials) between two adjacent channels for the insulation to avoid condensate water heated vaporization again in fork flow.
Boostdryer structure With the development of science and technology, Some new type of paper drying technology have been developed, such as Boostdryer drying technology, Condebelt drying technology, Optidry drying technology, impulse drying technology.
Journal Of Shaanxi University Of Science & Technology, Vol. 3 (2005) 105-110
With the rapid development of the science technology, the paper equipment towards maximization, high speed, automation directions, siphon drainage capacity is limited and dryer surface temperature is not even distribution have become increasingly prominent.
In addition, there is a fine blind channel (filled with insulation materials) between two adjacent channels for the insulation to avoid condensate water heated vaporization again in fork flow.
Boostdryer structure With the development of science and technology, Some new type of paper drying technology have been developed, such as Boostdryer drying technology, Condebelt drying technology, Optidry drying technology, impulse drying technology.
Journal Of Shaanxi University Of Science & Technology, Vol. 3 (2005) 105-110