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Online since: October 2011
Authors: Qing Zhou Sun, Pu Qing Zhang, Zhong Kui Zhao, Jian Wang, Jian Jing
Principle & Applications of Grinding Wheel Regenerator
Qingzhou Sun1,a, Jian Jing1,b, Puqing Zhang1,c, Zhongkui Zhao1,d,
Jian Wang1,e
1School of Materials Science and Engineering, Shandong Jianzhu University, Jinan 250101, China
aqingzhou@sdjzu.edu.cn, byanzifeijian@163.com, czhangpuqing777@sina.com , d jorezhk@163.com, ewjyuhua@163.com
Keywords: Grinding wheel regenerator, Operation principle, Applications
Abstract: Grinding wheel regenerator is composed of grinding wheel, fluidized bed, airblower, motor and dust-removal system.
Several metal materials allowable ignition loss[5] is shown in table 5.
Acknowledgement This work is financially supported by Programs for Science and Technology Development of Shandong Province under Grant No.2010GSF10611.
Zhao: Journal of Shandong Jianzhu University, Vol 23 ( 2008) No.3, p.250-252, In Chinese [4] Y.
Li: Handbook of Foundry Molding Materials (Mechanical Industry Press, Beijing 2009), In Chinese [5] M.
Several metal materials allowable ignition loss[5] is shown in table 5.
Acknowledgement This work is financially supported by Programs for Science and Technology Development of Shandong Province under Grant No.2010GSF10611.
Zhao: Journal of Shandong Jianzhu University, Vol 23 ( 2008) No.3, p.250-252, In Chinese [4] Y.
Li: Handbook of Foundry Molding Materials (Mechanical Industry Press, Beijing 2009), In Chinese [5] M.
Online since: November 2012
Authors: Jian Jun Hao, Lu Ping Ma, Jian Guo Zhao, Yue Jin Ma, Yin Yong Zhang
Test Methods and Steps
Material.
References [1] Pan Yingjun, Chen Shuhua, Wu Xinjie: The Chinese Journal of Nonferrous Metals.
Vol. 14(2004), p.272-275 (In Chinese) [2] Zhu Lin, He Jininng, Yan Dianran: Chinese Science Bulletin.
Vol. 52(2007), p. 972-977 (In Chinese) [3] Hao Jianjun, Huang Jihua, Zhou Zhijun: Transactions of Materials and Heat Treatment.
Vol. 30(2009), p. 69-72 (In Chinese) [5] Hao Jianjun, Huang Jihua, Li Jianchang: Rare Metal Materials and Engineering.
References [1] Pan Yingjun, Chen Shuhua, Wu Xinjie: The Chinese Journal of Nonferrous Metals.
Vol. 14(2004), p.272-275 (In Chinese) [2] Zhu Lin, He Jininng, Yan Dianran: Chinese Science Bulletin.
Vol. 52(2007), p. 972-977 (In Chinese) [3] Hao Jianjun, Huang Jihua, Zhou Zhijun: Transactions of Materials and Heat Treatment.
Vol. 30(2009), p. 69-72 (In Chinese) [5] Hao Jianjun, Huang Jihua, Li Jianchang: Rare Metal Materials and Engineering.
Online since: December 2012
Authors: Zhong Qing Tian, Ying Zhang, Fan Cheng Meng, Xiao Lei Zhang, Cheng Liu, Ya Bo Dong, Wei Jiu Huang
Fast Fabrication and Wear Behavior of Alumina–nickel Composites
Fancheng Meng1, a, Xiaolei Zhang1, Ying Zhang2, b, Cheng Liu1, Yabo Dong1, Zhongqing Tian1, Weijiu Huang1, c
1 Department of Materials, Chongqing University of Technology, Chongqing, 400050, china;
2 Zhoushan Institutes of Calibration and Testing for Qualitative and Technical Supervision, Zhoushan 316021, China
amengfancheng@cqut.edu.cn, bzhangyingwhut@hotmail.com, chwj_surfacegroup@cqut.edu.cn
Keywords: Alumina, wear, ceramics
Abstract.
Intorduction Alumina ceramics have already found wide applications in wear resistant components such as journal bearings, valve seats, piston rings in automotive engines and mechanical seals [1-2].
The development of metal-reinforced ceramics has produced a group of materials which utilize the novel concept of ductile particle crack bridging of a brittle matrix phase to produce a number of attractive properties for structural application.
Experimental procedure Alumina powder with an average particle size of 200 nm and nickel particle with a particle size of 2 µm were used as starting materials.
Acknowledgements This work was financially supported by National Natural Science Foundation of China (50975302, 51102289), the Natural Science Foundation Project of CQ (CSTC2009BB4385) and the public technology research industrial projects of Zhejiang province (2011C31001).
Intorduction Alumina ceramics have already found wide applications in wear resistant components such as journal bearings, valve seats, piston rings in automotive engines and mechanical seals [1-2].
The development of metal-reinforced ceramics has produced a group of materials which utilize the novel concept of ductile particle crack bridging of a brittle matrix phase to produce a number of attractive properties for structural application.
Experimental procedure Alumina powder with an average particle size of 200 nm and nickel particle with a particle size of 2 µm were used as starting materials.
Acknowledgements This work was financially supported by National Natural Science Foundation of China (50975302, 51102289), the Natural Science Foundation Project of CQ (CSTC2009BB4385) and the public technology research industrial projects of Zhejiang province (2011C31001).
Online since: January 2005
Authors: Chong Seung Yoon, Young Ho Kim, Mun Seop Song
Yoon, and Young-Ho Kim
Hanyang University, Dept. of Materials Engineering, Seoul, 133-791, Korea
Tel: +82-2-2290-0405, Fax: +82-2-2293-7445
kimyh@hanyang.ac.kr
Keywords: metal oxide nanoparticle, Cu2O, curing temperature, polyimide
Abstract.
Introduction Recently, metal and/or semiconductor nanoparticles dispersed in solid dielectric matrices have been intensively studied both from fundamental viewpoint and potential applications such as laser, transistors, and storage processes because materials exhibit unique properties arising from quantization confinement effects of the nanoparticles [1, 2].
Acknowledgement This research was supported by a grant (code #: 04K1501-01210) from 'Center for Nanostructured Materials Technology' under '21st Century Frontier R&D Programs' of the Ministry of Science and Technology, Korea.
Pryde, Journal of Polymer Science: Part A: Polymer Chemistry, Vol. 27 (1989), p. 711-724 [8] Y.
Introduction Recently, metal and/or semiconductor nanoparticles dispersed in solid dielectric matrices have been intensively studied both from fundamental viewpoint and potential applications such as laser, transistors, and storage processes because materials exhibit unique properties arising from quantization confinement effects of the nanoparticles [1, 2].
Acknowledgement This research was supported by a grant (code #: 04K1501-01210) from 'Center for Nanostructured Materials Technology' under '21st Century Frontier R&D Programs' of the Ministry of Science and Technology, Korea.
Pryde, Journal of Polymer Science: Part A: Polymer Chemistry, Vol. 27 (1989), p. 711-724 [8] Y.
Online since: December 2013
Authors: Yuan Liqun, Men Yuming, Liu Hongjia
a model side elevation
b model front elevation
Fig. 1 The finite element calculation model of 90°condition
Model material
Considering the dynamic response of tunnel arch top and arch bottom, parameters of stratum which has tunnel selected as calculation parameters.
Materials detailed parameters used for the numerical calculation model are shown in Table 1.
Tab. 1 Material parameters of the finite element model Materials Gravity density γ/kN/m3 Elastic modulus E/MPa Poisson ratio ν cohesion C/kPa internal friction angle φ/° Buried depth /m Moess 19.2 4.0 0.30 30 21° 2.7 Reinforced concrete structure 25.0 23.2×103 0.18 2.2×103 55° 3.5 The infliction of model dynamic loads Xi'an subway line 2 has 6 cars marshalling, its wheel load of the train, and basal load of model is simplified as half sine load with a single frequency.
Acknowledgments The project is supported by National Natural Science Foundation of China (Grant No. 41172257).
Journal of earth sciences and environment, 2008, 30(2): 172-176
Materials detailed parameters used for the numerical calculation model are shown in Table 1.
Tab. 1 Material parameters of the finite element model Materials Gravity density γ/kN/m3 Elastic modulus E/MPa Poisson ratio ν cohesion C/kPa internal friction angle φ/° Buried depth /m Moess 19.2 4.0 0.30 30 21° 2.7 Reinforced concrete structure 25.0 23.2×103 0.18 2.2×103 55° 3.5 The infliction of model dynamic loads Xi'an subway line 2 has 6 cars marshalling, its wheel load of the train, and basal load of model is simplified as half sine load with a single frequency.
Acknowledgments The project is supported by National Natural Science Foundation of China (Grant No. 41172257).
Journal of earth sciences and environment, 2008, 30(2): 172-176
Online since: October 2014
Authors: Xiao Qing Zhang, Xin Wu Zhang
Different from materials used in former research [12], these foam sheets have higher density and both sides are smooth.
Bauer, Piezo-, pyro- and ferroelectrets: soft transducer materials for electromechanical energy conversion, IEEE Trans.
Huang, Materials and mechanics for stretchable electronics, Science, 327 (2010), 1603-1607
Materials Sci., 44 (2009) 2459-2465 [12] Xiaoqing Zhang, Xinwu Zhang, Qiong You, Gerhard M.
Havriliak, Dielectric and Mechanical Relaxation in Materials.Hanser, Munich, 1997
Bauer, Piezo-, pyro- and ferroelectrets: soft transducer materials for electromechanical energy conversion, IEEE Trans.
Huang, Materials and mechanics for stretchable electronics, Science, 327 (2010), 1603-1607
Materials Sci., 44 (2009) 2459-2465 [12] Xiaoqing Zhang, Xinwu Zhang, Qiong You, Gerhard M.
Havriliak, Dielectric and Mechanical Relaxation in Materials.Hanser, Munich, 1997
Online since: August 2015
Authors: Wantanee Buggakupta, Kuntinee Suvarnakich, Somporn Chaiarrekij, Auchuta Niravittanon, Thawanrat Apisampinvong
Introduction
Both fillers and fibers are two most important materials used in paper products.
Talc is the primitive filler materials used in paper product.
This indicated that precipitated filler materials are likely to be welcomed.
Kim, Journal of Materials Processing Technology, 186 (2007) 367-369
Wasanapairnpong, Key Engineering Materials 608 (2014) 97-102
Talc is the primitive filler materials used in paper product.
This indicated that precipitated filler materials are likely to be welcomed.
Kim, Journal of Materials Processing Technology, 186 (2007) 367-369
Wasanapairnpong, Key Engineering Materials 608 (2014) 97-102
Online since: September 2005
Authors: V. Kojić, D. Jakimov, G. Bogdanović, A. Djordjević
Materials and methods
Cell lines.
Chaing, World Journal of Surgery, Vol. 24 (2000), p. 450
Chaing, Fullerene Science and Technology, Vol. 7 (1999), p.681
Nikiforov, Russian Journal of Genetics, Vol.33/3 (1997), p. 327
Ribar, Fullerene Sciences and Technology, Vol. 6 (1998), p. 689
Chaing, World Journal of Surgery, Vol. 24 (2000), p. 450
Chaing, Fullerene Science and Technology, Vol. 7 (1999), p.681
Nikiforov, Russian Journal of Genetics, Vol.33/3 (1997), p. 327
Ribar, Fullerene Sciences and Technology, Vol. 6 (1998), p. 689
Online since: May 2023
Authors: Tippabust Eksangsri, Duangdaw Pranangrong, Ratima Kraikruan, Chaweewan Sapcharoenkun
All coating suspensions were sonicated by ultrasonic probe sonicator (Sonics & materials, inc.) with the conditions and speed suggested by Srisuda et al. [3] before coating.
It is confirmed that PS behaves as both surfactant, i.e. enhance the dispersion of coating suspension and the uniformity of coating materials on filter surface, and good binder, i.e. promote better adhesion of coating materials on filter surface.
[5] Ana Flavia R., et al., Titanium dioxide (TiO2) and silver/titanium dioxide (Ag/TiO2) thin films with self-cleaning properties: Advanced Materials Letters (2017) 8(4):444-448
[6] Kamrosni ABDUL RAZAK., et al., Self-cleaning property of Ag-TiO2 Thin Film: Materials Science Forum (2020) 1010:397-404
[8] Mills A, Hill Claire H, Robertson P., Overview of the current ISO tests for photocatalytic materials.
It is confirmed that PS behaves as both surfactant, i.e. enhance the dispersion of coating suspension and the uniformity of coating materials on filter surface, and good binder, i.e. promote better adhesion of coating materials on filter surface.
[5] Ana Flavia R., et al., Titanium dioxide (TiO2) and silver/titanium dioxide (Ag/TiO2) thin films with self-cleaning properties: Advanced Materials Letters (2017) 8(4):444-448
[6] Kamrosni ABDUL RAZAK., et al., Self-cleaning property of Ag-TiO2 Thin Film: Materials Science Forum (2020) 1010:397-404
[8] Mills A, Hill Claire H, Robertson P., Overview of the current ISO tests for photocatalytic materials.
Online since: October 2014
Authors: Jun Dong, Zhi Gang Qi, Bo Qiang Yao
Zhang Xing [3] and Yu Shouwen [4] et al. introduce a variable of material damage degree, in the study on isotropic material, to reflect the elastic modulus changes at different time.
According to material mechanics, when members reach their design capacity, there is: =M/W=.
Material.
Journal of Vibration and Shock, 2009, 01: 68 -71 +196
Transportation Science & Technology, 2008, 06:10-12.
According to material mechanics, when members reach their design capacity, there is: =M/W=.
Material.
Journal of Vibration and Shock, 2009, 01: 68 -71 +196
Transportation Science & Technology, 2008, 06:10-12.