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Online since: August 2014
Authors: Zan Dong Han, Yue Xian Zhong, Ke Yi Yuan, Hai Peng Zhou
Lee: Journal of Nuclear Materials Vol. 340 (2005), p. 307
[2] C.Hu, D.Z.
Jin: Applied Mechanics and Materials Vol. 330 (2013), p. 304 [3] G.
Hyun and I.Park: Journal of nuclear science and technology Vol. 49 (2012), p. 366 [5] L.
Nam: Korean journal of metals and materials Vol. 49 (2011), p. 924 [6] H.
Aballe: Journal of materials science Vol. 26 (1991), p. 4351 [9] T.H.
Jin: Applied Mechanics and Materials Vol. 330 (2013), p. 304 [3] G.
Hyun and I.Park: Journal of nuclear science and technology Vol. 49 (2012), p. 366 [5] L.
Nam: Korean journal of metals and materials Vol. 49 (2011), p. 924 [6] H.
Aballe: Journal of materials science Vol. 26 (1991), p. 4351 [9] T.H.
Online since: October 2011
Authors: Feng Wei Huo, Shang Gao, Zhu Ji Jin, Zhan Chun Tao, Heng Zhen Dai
Introduction
Al2O3 ceramic is regarded as a typical hard and brittle material.
Yoshikawa: Journal of Materials Processing Technology Vol. 132 (2003), p. 353 [2] M.Jiang,R.Komanduri,Chemical-mechanical polishing(CMP) in magnetic float polishing(MFP) of advanced ceramic (silicon nitride) and glass(silicon dioxide),Key Eng.Mater Vol1-14(2001),p.202-203 [3] F.
Eda: International Journal of Manufacturing Technology and Management Vol. 7 (2005), p. 441 [5] L.
Kamiya, etc: CIRP Annals- Manufacturing Technology Vol. 55 (2006), p. 313 [6] Nobuo Yasunaga: Journal of the Surface Science Society of Japan Vol. 22 (2001), p. 187 [7] N.
Yasunuga: Journal of Japan Society for Precision Engineering Vol. 44 (1978), p. 65 [8] Y.
Yoshikawa: Journal of Materials Processing Technology Vol. 132 (2003), p. 353 [2] M.Jiang,R.Komanduri,Chemical-mechanical polishing(CMP) in magnetic float polishing(MFP) of advanced ceramic (silicon nitride) and glass(silicon dioxide),Key Eng.Mater Vol1-14(2001),p.202-203 [3] F.
Eda: International Journal of Manufacturing Technology and Management Vol. 7 (2005), p. 441 [5] L.
Kamiya, etc: CIRP Annals- Manufacturing Technology Vol. 55 (2006), p. 313 [6] Nobuo Yasunaga: Journal of the Surface Science Society of Japan Vol. 22 (2001), p. 187 [7] N.
Yasunuga: Journal of Japan Society for Precision Engineering Vol. 44 (1978), p. 65 [8] Y.
Online since: September 2016
Authors: Evgeniy V. Ageev, A.Y. Altukhov, S.S. Gulidin
Materials and methods
For producing a powder from a solid alloy wastes by the electroerosion dispersing unit for EED of conductive materials, developed by the authors [10 – 11], and the ball-bearing steel wastes are used.
Bibik, Forecasting of hard-alloyed cutting tool resistance based on thermal diffusivity, Materials Science Forum. 762 (2013) 777-781
Murty, Nanocomposites and an extremely hard nanocrystalline intermetallic of al-fe alloys prepared by mechanical alloying, Materials Science and Engineering: A. 527 (2010) 2370-2378
Horyakova, Preparation of Copper Electroerosion Nanopowders from Waste of Aquatic Medium and its Validation by Physicochemical Methods, Applied Mechanics and Materials. 770 (2015) 23-27
Novikov, Electroerosive Powder Obtained from Alloy VK8 Waste into Butanol, Journal of nano- and electronic physics. 7 (2015) 04080(3).
Bibik, Forecasting of hard-alloyed cutting tool resistance based on thermal diffusivity, Materials Science Forum. 762 (2013) 777-781
Murty, Nanocomposites and an extremely hard nanocrystalline intermetallic of al-fe alloys prepared by mechanical alloying, Materials Science and Engineering: A. 527 (2010) 2370-2378
Horyakova, Preparation of Copper Electroerosion Nanopowders from Waste of Aquatic Medium and its Validation by Physicochemical Methods, Applied Mechanics and Materials. 770 (2015) 23-27
Novikov, Electroerosive Powder Obtained from Alloy VK8 Waste into Butanol, Journal of nano- and electronic physics. 7 (2015) 04080(3).
Online since: December 2014
Authors: Yi Sheng Zhang, Yu 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: March 2011
Authors: Wan Li Yang, Ren Jiang Lv, Rong Hua Ma
Introduction
Organic-inorganic hybrid materials are a new research field in composite materials, which with the advantages of organic materials and inorganic materials [1, 2].
SEM indicated that the materials were rod shape.
Chinese Journal of Inorganic Chemistry Vol.16 (2000), p. 815
Beijing Science Press (1998)
Chinese Journal of Inorganic Chemistry Vol. 1 (2007), p. 51
SEM indicated that the materials were rod shape.
Chinese Journal of Inorganic Chemistry Vol.16 (2000), p. 815
Beijing Science Press (1998)
Chinese Journal of Inorganic Chemistry Vol. 1 (2007), p. 51
Online since: January 2013
Authors: Hua Jiang Yu
Application of TiO2 photocatalytic oxidation technology in water treatment [J].Science and Technology of Overseas Building and Materials, 2006, 27(3), 92-94
Materials for Mechanical Engineering. 2008, 32(6)
Hazardous Materials[J], 2009, 162:1309-1316
Inhibition of Blue-green algae growth by Pt-doped nano- TiO2[J].Journal of functional materials, 2005, 12(36):1934-1937
Inhibition of Blue-green algae growth by Pt-doped nano- TiO2[J].Journal of functional materials, 2005, 12(36):1934-1937
Materials for Mechanical Engineering. 2008, 32(6)
Hazardous Materials[J], 2009, 162:1309-1316
Inhibition of Blue-green algae growth by Pt-doped nano- TiO2[J].Journal of functional materials, 2005, 12(36):1934-1937
Inhibition of Blue-green algae growth by Pt-doped nano- TiO2[J].Journal of functional materials, 2005, 12(36):1934-1937
Online since: September 2012
Authors: Jie Sun, Pei Qin Sun, Fu Zeng Wang, Jun Zhou
Finite Element Model and Analysis for Micro-cutting of
Aluminum alloy 7050-T7451
Fuzeng Wang1, a, Jie Sun2,b , Peiqin Sun 3,c , Jun Zhou 4,d
1, 2 School of Mechanical Engineering, Shandong University, China
3 Editorial board of journal of Shandong University (Science and Technology), China
4Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences
awangfuzeng@gmail.com, bsunjie505@gmail.com, c sunpq@sdu.edu.cn, d zhouj@ciomp.ac.cn
Keywords: Micro-cutting; FEA simulation; Al7050-T7451
Abstract.
Finite Element Model 1.1 Material constitutive model The J-C constitutive equation (Eq.1) [2] was employed to model the thermo- plastic behavior of Aluminum alloy7050-T7451, which accounts for strain hardening, strain rate hardening, thermal softening and elastic recovery effects of work material under high strain, strain-rate and temperate conditions.
Table.1 reports the material constants obtained by Qunlin Cheng [3]
Ehman, The mechanics of machining at the micro scale: assessment of the current state of the science, Journal of Manufacturing Science and Engineering 126(2004) 666–678
Catastrophic thermo plastics shear [J].Journal of Applied Mechanics, 86(5) (1964).
Finite Element Model 1.1 Material constitutive model The J-C constitutive equation (Eq.1) [2] was employed to model the thermo- plastic behavior of Aluminum alloy7050-T7451, which accounts for strain hardening, strain rate hardening, thermal softening and elastic recovery effects of work material under high strain, strain-rate and temperate conditions.
Table.1 reports the material constants obtained by Qunlin Cheng [3]
Ehman, The mechanics of machining at the micro scale: assessment of the current state of the science, Journal of Manufacturing Science and Engineering 126(2004) 666–678
Catastrophic thermo plastics shear [J].Journal of Applied Mechanics, 86(5) (1964).
Online since: June 2011
Authors: Xin Gui Tang, Yan Ping Jiang, Qiu Xiang Liu, F. L. Dong
Pan: Materials Science and Engineering B,Vol. 117 (2005), p. 339
Seraphin: Materials Chemistry and Physics, Vol.109 (2008), p. 262
Cann: Materials Letters, Vol.62 (2008), p. 633
Cao: Materials Letters, Vol.62 (2008), p. 1353
Cao, Materials Science and Engineering B.
Seraphin: Materials Chemistry and Physics, Vol.109 (2008), p. 262
Cann: Materials Letters, Vol.62 (2008), p. 633
Cao: Materials Letters, Vol.62 (2008), p. 1353
Cao, Materials Science and Engineering B.
Online since: May 2013
Authors: Jia Hai Ye
Synthesis and Characterization of a New Donor and Acceptor Substituted Conjugated Polytetraphenylethenes
Jia-Hai Ye
Schoolt of Chemical Engineering University of Nanjing University of Science and Technology
Nanjing, 210094, P.R.China
Keywords: Tetraphenylethene, Polymer, Synthesis.
Introduction Over the last few decades, conjugated polymer(CPs) based organic optoelectronic materials displaying strong absorption and emission properties have received great scientific attention.1 The advantages that CPs possess over inorganic optoelectronic materials include ease of fabrication via solution-based processing techniques and the ability to modify the electronic properties of the material through chemical synthesis.
Moreover, key advantage of these materials is the ability to tune the electronic and optical properties on the molecular level via synthetic modification.
Song, et al, “Synthesis and Characterization of Polyfluorenevinylene with Cyano Group and Carbazole Unit” Journal of Polymer Science: Part A: Polymer Chemistry, 2009, 6540–6551
Wang, et al, “A Solution-Processible Poly(p-phenylene vinylene) without Alkyl Substitution: Introducing the cis-Vinylene Segments in Polymers Chain for Improved Solubility, Blue Emission, and High Efficiency” Journal of Polymer Science: Part A: Polymer Chemistry, 2008, 5242-5250.
Introduction Over the last few decades, conjugated polymer(CPs) based organic optoelectronic materials displaying strong absorption and emission properties have received great scientific attention.1 The advantages that CPs possess over inorganic optoelectronic materials include ease of fabrication via solution-based processing techniques and the ability to modify the electronic properties of the material through chemical synthesis.
Moreover, key advantage of these materials is the ability to tune the electronic and optical properties on the molecular level via synthetic modification.
Song, et al, “Synthesis and Characterization of Polyfluorenevinylene with Cyano Group and Carbazole Unit” Journal of Polymer Science: Part A: Polymer Chemistry, 2009, 6540–6551
Wang, et al, “A Solution-Processible Poly(p-phenylene vinylene) without Alkyl Substitution: Introducing the cis-Vinylene Segments in Polymers Chain for Improved Solubility, Blue Emission, and High Efficiency” Journal of Polymer Science: Part A: Polymer Chemistry, 2008, 5242-5250.
Online since: April 2013
Authors: Xiao Bing Tian, Wang Chao Qin
But at present all existing photocatalytic materials only have limited air purification efficiency with few purge gas types.
Based on the insufficiency of the existing technology, this experiment adopts a new idea, i.e. use materials such as halloysite and aluminum oxide to make porous ceramics as the wall materials and use nano WO3[2] doped La2O3 as a photocatalytic composite [3] to make a kind of absorbent purification material with a higher purification efficiency.
Fig. 1 Test Method for the Purification Efficiency of Porous Materials 2.
While Lanthanum oxide plays the role of stimulating photocatalytic materials to improve the catalytic activity of photocatalytic materials and promote the purification efficiency. 3.
Science and Photochemistry, 2009, (1) [7] Hao Jiarui, Jia Xuhong, Yan Chunjie, Preparation of kieselguhr/kaolin Composite Porous Ceramics, Non-Metallic Mining, Nov. 2009 (Vol.32 No.6) [8] Wang Zhi, He Zhaojing, Li Honglin, Zu Quangao, Study on the Preparation Process of Al2O3 Porous Ceramics, Journal of Jinan University (Natural Science Edition), Dec. 2005 (Vol.19 No.4) [9] Liang Yongren, Zhang Lu, Cui Shumao, Yang Zhimao, Ding Bingjun, Characterization and Performance Test on Porous Materials, Materials Review E-book, Apr. 2006 (2) [10] Luo Zhaoming, Wang Hui, Liu Ping’an, Zeng Lingke, Preparation and Performance Study on Porous Ceramics, Ceramics, 2006, (3) [11] Zheng Shuilin, GAO Ruqin, Wang Jiandong, Zhang Juan, Xu Hui, Preparation of TiO2/kieselguhr Porous Ceramic Composites and Degraded Formaldehyde Property, Journal of Chinese Ceramics Society, Nov. 2008 (Vol.36 No.11)
Based on the insufficiency of the existing technology, this experiment adopts a new idea, i.e. use materials such as halloysite and aluminum oxide to make porous ceramics as the wall materials and use nano WO3[2] doped La2O3 as a photocatalytic composite [3] to make a kind of absorbent purification material with a higher purification efficiency.
Fig. 1 Test Method for the Purification Efficiency of Porous Materials 2.
While Lanthanum oxide plays the role of stimulating photocatalytic materials to improve the catalytic activity of photocatalytic materials and promote the purification efficiency. 3.
Science and Photochemistry, 2009, (1) [7] Hao Jiarui, Jia Xuhong, Yan Chunjie, Preparation of kieselguhr/kaolin Composite Porous Ceramics, Non-Metallic Mining, Nov. 2009 (Vol.32 No.6) [8] Wang Zhi, He Zhaojing, Li Honglin, Zu Quangao, Study on the Preparation Process of Al2O3 Porous Ceramics, Journal of Jinan University (Natural Science Edition), Dec. 2005 (Vol.19 No.4) [9] Liang Yongren, Zhang Lu, Cui Shumao, Yang Zhimao, Ding Bingjun, Characterization and Performance Test on Porous Materials, Materials Review E-book, Apr. 2006 (2) [10] Luo Zhaoming, Wang Hui, Liu Ping’an, Zeng Lingke, Preparation and Performance Study on Porous Ceramics, Ceramics, 2006, (3) [11] Zheng Shuilin, GAO Ruqin, Wang Jiandong, Zhang Juan, Xu Hui, Preparation of TiO2/kieselguhr Porous Ceramic Composites and Degraded Formaldehyde Property, Journal of Chinese Ceramics Society, Nov. 2008 (Vol.36 No.11)