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Online since: February 2008
Authors: Y.M. Zhu, Zhi Hong Li, P.F. Wang
Zhu
Key Laboratory of Advanced Ceramics and Machining Technology, Ministry of Education, School of
Material Science and Engineering, Tianjin University, TianJin 300072,P.
Mills: Journal of Materials Science Letter, Vol.13 (1994), p.1287
Drofenik: Journal of Materials Science, Vol.27 (1992), p4145
Mills: Journal of Materials Science Letter, Vol.19 (2000), p.915
Mills: Journal of Materials Science Letter, Vol.13 (1994), p.1287
Drofenik: Journal of Materials Science, Vol.27 (1992), p4145
Mills: Journal of Materials Science Letter, Vol.19 (2000), p.915
Online since: October 2011
Authors: Gang Zhao, Hua Zhang, Zhi Gang Jiang, Wei Yan, Ming Xiao
The materials flow and the cutting fluid management are focused in the research work.
In detail, the measurements comprise the enhancing utilization of materials, micro-non cutting fluid use and liquid wastes recycle for the green transformation.
Then the utilization ratio of materials is induced by Eq.1 for the th product in the th processing step in the workshop productions.
The physical distribution and convey route of materials become more reasoning as well as the logistics intensity decreases.
Table 1 Metal materials and cutting fluid consumption per disconnecting valve J61Y-20 DN40 R&E attributes Item Materials consumption (kg) Utilization ratio of materials (%) Cutting fluid consumption (kg) Product mass (kg) Before 33.19 74.42 0.91 24.70 After 26.66 92.65 0.29 Green indicator 19.67% 24.50% 68.13% Using the technology of net-shaping blank reduces the material consumption obviously.
In detail, the measurements comprise the enhancing utilization of materials, micro-non cutting fluid use and liquid wastes recycle for the green transformation.
Then the utilization ratio of materials is induced by Eq.1 for the th product in the th processing step in the workshop productions.
The physical distribution and convey route of materials become more reasoning as well as the logistics intensity decreases.
Table 1 Metal materials and cutting fluid consumption per disconnecting valve J61Y-20 DN40 R&E attributes Item Materials consumption (kg) Utilization ratio of materials (%) Cutting fluid consumption (kg) Product mass (kg) Before 33.19 74.42 0.91 24.70 After 26.66 92.65 0.29 Green indicator 19.67% 24.50% 68.13% Using the technology of net-shaping blank reduces the material consumption obviously.
Online since: August 2012
Authors: Kun Sun, Yuan Xu, Jin Hao Liu
Experimental procedure
1.1 Materials investigated
The materials investigated, which had different types, are TA7, TC6 and TB8, respectively.
References [1] Anon: submitted to Journal of Advanced Materials & Processes (1999)
[12] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[13] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[15] GAO Lingqing, ZHU Jinhua, LI Hui, and SUN Jianke: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2008)
References [1] Anon: submitted to Journal of Advanced Materials & Processes (1999)
[12] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[13] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[15] GAO Lingqing, ZHU Jinhua, LI Hui, and SUN Jianke: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2008)
Online since: September 2013
Authors: Husseinsyah Salmah, M. Sabri, K. Shahril, A. Siti Rohana, A. Mukhtar
Compatibilizing agent has been added to improve the dispersion, adhesion and compatibility between the two dissimilar materials.
Experimental Design Materials.
Journal of Applied Polymer Science, Vol. 118, pp. 2841-2848, ISSN 1359-835X
School of Materials Engineering, Universiti Malaysia Perlis, UniMAP, 01000 Kangar, Perlis, Malaysia.
Journal of Physical Science, Vol. 20(2), 85-96
Experimental Design Materials.
Journal of Applied Polymer Science, Vol. 118, pp. 2841-2848, ISSN 1359-835X
School of Materials Engineering, Universiti Malaysia Perlis, UniMAP, 01000 Kangar, Perlis, Malaysia.
Journal of Physical Science, Vol. 20(2), 85-96
Online since: March 2015
Authors: Xiao Ning Zheng, Bo Diao, Zi Jian Liu
Scholars who study the microscopic corrosion mechanism of concrete materials under chloride and sulfate corrosion have achieved a lot.
Deterioration mechanism of concrete is studied through observation of microscopic cracks and SEM analysis of concrete materials.
Specimen preparation and test methods Specimen preparation Specific ratio of concrete materials in reinforced concrete beam specimens is shown in Table 1.
And the pieces are analyzed by SEM tests after drying. 2.3.1 Analysis of micro-morphology and micro-crack of concrete materials Micro-cracks (1000 times) of concrete pieces are shown in Figure 5.
Journal of Beijing University of Aeronautics and Astronautics.2013.10:1-5(in Chinese)
Deterioration mechanism of concrete is studied through observation of microscopic cracks and SEM analysis of concrete materials.
Specimen preparation and test methods Specimen preparation Specific ratio of concrete materials in reinforced concrete beam specimens is shown in Table 1.
And the pieces are analyzed by SEM tests after drying. 2.3.1 Analysis of micro-morphology and micro-crack of concrete materials Micro-cracks (1000 times) of concrete pieces are shown in Figure 5.
Journal of Beijing University of Aeronautics and Astronautics.2013.10:1-5(in Chinese)
Online since: March 2010
Authors: Hong Jia, Guo Zhong Chai, Cong Da Lu, Xiao Jun Gong
The high material removal rate could be obtained by strong magnetic field at the
beginning of the processing, and low surface roughness gained in the weaker magnetic field [9]. (3)
simple technique and low cost due to the preparation process of FMA tool is simple and does not
require complicated equipment and expensive materials.
KORDONSKI, et al: Journal of intelligent material systems and structures, Vol. 9 (1999), p. 683-689 [2] N.
Yuan, et al: Chinese journal of mechanical engineering, (2007), p. 35-48 [7] B.
Li: Chinese journal of mechanical engineering, (2004), p. 67-70 [11] Y.
Zhao: Journal of Tsinghua University (Science and Technology), (2004), p. 190-193
KORDONSKI, et al: Journal of intelligent material systems and structures, Vol. 9 (1999), p. 683-689 [2] N.
Yuan, et al: Chinese journal of mechanical engineering, (2007), p. 35-48 [7] B.
Li: Chinese journal of mechanical engineering, (2004), p. 67-70 [11] Y.
Zhao: Journal of Tsinghua University (Science and Technology), (2004), p. 190-193
Online since: December 2014
Authors: Yu Zhang, Yi Sheng Zhang, Xiao Yu Luo, Yi Lin Wang
MBN is sensitive to the mechanical properties of ferromagnetic materials such as hardness and stress.
Materials & Design, Volume 60, August 2014, pp. 26-33
Journal of Magnetism and Magnetic Materials, 2006. 299(2): p. 362-375
Journal of Vibration and Shock, 2013, 32(11): 182–185
[10] Zijian Wang, Ya Xu, Wenting He, Yisheng Zhang,Hot Stamping of Two Different High Strength Steel with Tailored Properties, Applied Mechanics and Materials Vols. 395-396 (2013) pp. 909-913
Materials & Design, Volume 60, August 2014, pp. 26-33
Journal of Magnetism and Magnetic Materials, 2006. 299(2): p. 362-375
Journal of Vibration and Shock, 2013, 32(11): 182–185
[10] Zijian Wang, Ya Xu, Wenting He, Yisheng Zhang,Hot Stamping of Two Different High Strength Steel with Tailored Properties, Applied Mechanics and Materials Vols. 395-396 (2013) pp. 909-913
Online since: February 2011
Authors: Zheng Yi Jiang
Sassani: International Journal of Mechanical Sciences, 44 (2002), 1999-2023
Tzou: International Journal of Mechanical Science Vol. 39 (1997), p. 289
Hsu: International Journal of Mechanical Sciences Vol. 38(1996), p. 443
Herman: Materials Characterization Vol. 60(2009), p. 90
Tieu: International Journal of Mechanical Science Vol. 48 (2006), p. 697.
Tzou: International Journal of Mechanical Science Vol. 39 (1997), p. 289
Hsu: International Journal of Mechanical Sciences Vol. 38(1996), p. 443
Herman: Materials Characterization Vol. 60(2009), p. 90
Tieu: International Journal of Mechanical Science Vol. 48 (2006), p. 697.
Online since: December 2010
Authors: Xiu Lin Sui, Jia Tai Zhang, Ya Ze Li, Ji Wu Jiang
CTriObject mainly contains the following variable members:
Float* x; // Coordinates of the collection location of the object
Int numvertices; // normal vector of Object
Int* faces; // The number of the surface
Int numfaces;;
tMaterial materials; // material of Objec
The definition of C3dsReader of the 3ds file will read the content of 3ds file to the above two classes of objects.
In this paper, the information is classified into different modules, Such as the surface of the module, the color of the module, the module materials, etc by using object-oriented method.
GC08A106), Natural Science Foundation of Heilongjiang Province (No.E2007-19) and Science and Technology Program of Heilongjiang Educational Committee (No.11531036).
[5] Yiqun, Wang and Cheng Huang: Academic Journal of Yancheng Institute of Technology (Natural Science) Vol. 9 (2005), p. 41-43
Zeng: Academic journal of Suzhou university Vol. 29 (2009), p.54-56
In this paper, the information is classified into different modules, Such as the surface of the module, the color of the module, the module materials, etc by using object-oriented method.
GC08A106), Natural Science Foundation of Heilongjiang Province (No.E2007-19) and Science and Technology Program of Heilongjiang Educational Committee (No.11531036).
[5] Yiqun, Wang and Cheng Huang: Academic Journal of Yancheng Institute of Technology (Natural Science) Vol. 9 (2005), p. 41-43
Zeng: Academic journal of Suzhou university Vol. 29 (2009), p.54-56
Online since: October 2019
Authors: Jia Liu Lei, Dong Nan Zhao, Hang Yu Zhu
Genesis Analysis of Large TiN Inclusion for
High Strength Tire Cord Steel
Lei Jialiu1,a, Zhao Dongnan1,b, Zhu Hangyu2,c
1School of materials science and engineering, Hubei Polytechnic University Metallurgy Engineering Department, Huangshi Hubei, China
2Key Laboratory for Ferrous Metallurgy and Resources Utilization of Ministry of Education, Wuhan University of Science and Technology, Wuhan Hubei, China
aemail: leijialiu@hbpu.edu.cn, bemail:zhaodongnan@hbpu.edu.cn,
cemail: zhuhangyu@wust.edu.cn
Keywords: tire cord steel; TiN inclusion; vacuum induction furnace; dissolution model
Abstract: In order to analyze the possible source of large TiN inclusion for the high strength tire cord steel.
Li, Investigation of Ti Inclusions in tire cord steel, Journal of University of Science and Technology Beijing. 32 (2010) 866-871
Corrosion Science. 49 (2007) 303-318
International Journal of Minerals Metallurgy & Materials. 21 (2014) 234-239
International Journal of Minerals Metallurgy & Materials. 19 (2012) 805-811
Li, Investigation of Ti Inclusions in tire cord steel, Journal of University of Science and Technology Beijing. 32 (2010) 866-871
Corrosion Science. 49 (2007) 303-318
International Journal of Minerals Metallurgy & Materials. 21 (2014) 234-239
International Journal of Minerals Metallurgy & Materials. 19 (2012) 805-811