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Online since: July 2011
Authors: Ya Qin Fu, Shan Li, Rui Wang, Cheng Xia Liu
For the further research of new acoustic insulation composites, EPVC and non-woven fabric were selected as the substrate materials to prepare non-woven fabric/EPVC laminated materials in this paper.
Experimental Materials.
Fig.2 shows the curves of sound reduction index-Frequency of the composite materials.
Tadeu: submitted to Journal of Sound and Vibration Vol. 273 (2003), p. 681 [3] Bangjun Zhang and Guoqing Zhai, in: Environmental Noise Science, edited by Zhejiang University Press (2001), p. 255 [4] Shanhong Xiao, Yaqin Fu, Yuefei Yao, etc. submitted to Journal of Zhejiang Institute of Science and Technology Vol. 21 (2004), p. 275, In Chinese
Ruzzene: submitted to Journal of Sound and Vibration Vol. 277 (2004), p. 741 [8] Chunyan Zhu, Yaqin Fu and Laiming Yu: submitted to Journal of Functional Materials Vol. 38 (2007), p. 1871, In Chinese.
Experimental Materials.
Fig.2 shows the curves of sound reduction index-Frequency of the composite materials.
Tadeu: submitted to Journal of Sound and Vibration Vol. 273 (2003), p. 681 [3] Bangjun Zhang and Guoqing Zhai, in: Environmental Noise Science, edited by Zhejiang University Press (2001), p. 255 [4] Shanhong Xiao, Yaqin Fu, Yuefei Yao, etc. submitted to Journal of Zhejiang Institute of Science and Technology Vol. 21 (2004), p. 275, In Chinese
Ruzzene: submitted to Journal of Sound and Vibration Vol. 277 (2004), p. 741 [8] Chunyan Zhu, Yaqin Fu and Laiming Yu: submitted to Journal of Functional Materials Vol. 38 (2007), p. 1871, In Chinese.
Online since: July 2012
Authors: Guo Zhi Xu, Hong Kai Ni, Biao Yang, Hui Sun
Kim: Journal of Applied Polymer Science, Vol. 97 (2005), p. 1513
[7] E K.
Han: Journal of Applied Polymer Science, Vol. 80 (2001), p. 1388 [8] J.J.
Ge: The biodegradable polymer materials and its application, Chemical Industry Press, China (2002), in press
Park: Journal of Applied Polymer Science, Vol. 106 (2007), p. 2485 [10] L.
Wang: Polymer Materials Science and Engineering, Vol. 15 (1999), p. 93 [14] B.
Han: Journal of Applied Polymer Science, Vol. 80 (2001), p. 1388 [8] J.J.
Ge: The biodegradable polymer materials and its application, Chemical Industry Press, China (2002), in press
Park: Journal of Applied Polymer Science, Vol. 106 (2007), p. 2485 [10] L.
Wang: Polymer Materials Science and Engineering, Vol. 15 (1999), p. 93 [14] B.
Online since: June 2014
Authors: Guy Littlefair, K. Praveen Kumar, Ashwin Polishetty
References
[1] Mitsuo Niinomi, “Recent research and development in titanium alloys for biomedical application and health care goods”, Science and technology of advanced materials, 2008
Gogia, “Ti based biomaterials, the ultimate choice for orthopaedic implants”, Progress in material science, 2009
Rack, “Titanium alloys in total joint replacement- a material science perspective”, Biomaterials, 1998
[5] H.J.Rack, J.I.Qazi, “Titanium alloys for biomedical application”, Material science and engineering, 2005
[7] Tengvall P, Lundstrom I (1992), “Physico chemical consideration of titanium as a biomaterial, Clin materials”, vol-9: 115-134
Gogia, “Ti based biomaterials, the ultimate choice for orthopaedic implants”, Progress in material science, 2009
Rack, “Titanium alloys in total joint replacement- a material science perspective”, Biomaterials, 1998
[5] H.J.Rack, J.I.Qazi, “Titanium alloys for biomedical application”, Material science and engineering, 2005
[7] Tengvall P, Lundstrom I (1992), “Physico chemical consideration of titanium as a biomaterial, Clin materials”, vol-9: 115-134
Online since: October 2010
Authors: Fu Zhen Xuan, Jin Quan Guo, Li Xin Wang
Creep Based Prediction Model of Stress Relaxation Behavior for High
Temperature Materials
Jinquan Guo
1, a
, Lixin Wang1, b and Fuzhen Xuan2, c
1
School of Mechanical Engineering, Anyang Institute of Technology, Anyang, China
2
School of Mechanical and Power Engineering, East China University of Science and Technology,
Shanghai, China
a
yefu111@163.com, b
wanglixindhg@163.com, c
fzxuan@ecust.edu.cn
Keywords: Creep-relaxation conversion, Stress relaxation performance, Prediction method, Creep
rate model, High temperature materials
Abstract.
The technique invokes high costs in terms of energy, manpower, and materials.
The major disadvantage of these creep equations used in these calculations is that they require creep rupture strain data of the materials.
Journal of Pressure Vessel Technology, Vol.122 (2000) No.2, pp.66-71
Jiang: Metals high temperature intensity and experiment (Shanghai Science and Technology Press, China 1986), pp.189-190.
The technique invokes high costs in terms of energy, manpower, and materials.
The major disadvantage of these creep equations used in these calculations is that they require creep rupture strain data of the materials.
Journal of Pressure Vessel Technology, Vol.122 (2000) No.2, pp.66-71
Jiang: Metals high temperature intensity and experiment (Shanghai Science and Technology Press, China 1986), pp.189-190.
Online since: September 2013
Authors: Endyas Pratitajati, Azwar Manaf
Materials were prepared by mechanical alloying technique.
K for partially dopping earth alkaline ions (Ba, Ca, Sr) to LMO materials [5].
Acknowledgement The authors gratefully acknowledge the support of the Postgraduate program of the Materials Science, Universitas Indonesia for the research facilities.
Wong: Effect of Divalent Ions (A= Ca, Ba, and Sr) Subtitution in La-A-Mn-O Manganite on Structural, Magnetic and Electrical Transport Properties, American Journal of Applied Science, Vol. 6, no. 6, (2009), p. 1153-1157
E Hafizah: Particle Size of Mechanically Alloyed La0.5Sr0.5Fe0.5Mn0.25Ti0.25O3 Powders Prepared with the Assistance of Ultrasonic Irradiation, Journal of materials Science research, Vol 1, No. 4, (2012), p. 98-104
K for partially dopping earth alkaline ions (Ba, Ca, Sr) to LMO materials [5].
Acknowledgement The authors gratefully acknowledge the support of the Postgraduate program of the Materials Science, Universitas Indonesia for the research facilities.
Wong: Effect of Divalent Ions (A= Ca, Ba, and Sr) Subtitution in La-A-Mn-O Manganite on Structural, Magnetic and Electrical Transport Properties, American Journal of Applied Science, Vol. 6, no. 6, (2009), p. 1153-1157
E Hafizah: Particle Size of Mechanically Alloyed La0.5Sr0.5Fe0.5Mn0.25Ti0.25O3 Powders Prepared with the Assistance of Ultrasonic Irradiation, Journal of materials Science research, Vol 1, No. 4, (2012), p. 98-104
Online since: June 2015
Authors: Sami H. Mahmood, Aynour N. Aloqaily, Yazan Maswadeh, Ahmad Awadallah, Ibrahim Bsoul, Mufeed Awawdeh, Hassan Juwhari
Morkoc, Microwave Ferrites, Part 1: Fundamental Properties, Journal of Materials Science: Materials in Electronics 20 (2009) 789 – 834
Vittoria, Journal of Magnetism and Magnetic Materials 321 (2009) 3035 – 3047
Speliotis, Advanced MP++ and BaFe++ tapes, Journal of Magnetism and Magnetic Materials 155 (1996) 83 – 85
Hu, Preparation of M-Ba-ferrite fine powders by sugar nitrates processes, Journal of Materials Science 41 (2006) 3867 – 3871
Blesa, Synthesis of ultrafine particles of barium ferrite by chemical coprecipitation, Journal of Materials Science 32 (1997) 1025 – 1028
Vittoria, Journal of Magnetism and Magnetic Materials 321 (2009) 3035 – 3047
Speliotis, Advanced MP++ and BaFe++ tapes, Journal of Magnetism and Magnetic Materials 155 (1996) 83 – 85
Hu, Preparation of M-Ba-ferrite fine powders by sugar nitrates processes, Journal of Materials Science 41 (2006) 3867 – 3871
Blesa, Synthesis of ultrafine particles of barium ferrite by chemical coprecipitation, Journal of Materials Science 32 (1997) 1025 – 1028
Online since: May 2012
Authors: Ding Li Zhang, Zhen Hai Wei, Meng Shu Wang
The full state function of material structure reflects the structural properties of material.
For rock-soil material, especially loose material, the density of material will change greatly under external force, resulting in structural changes of material.
A QUANTITATIVE STUDY OF THE MICROSTRUCTURECHARACTERISTICS OF SOIL ANDITS APPLICATION TO THE ENGINEERING[J] JOURNAL OF CHENGDU UNIVERSITY OF TECHNOLOGYVol. 28 No. 2 Apr. 2001:148-153 in Chinese
A new type of constitutive theory for granular soil[J] Rock and Soil Mechanics Vo1.28 No.9 Sep. 2007:1801-1806 [9] HU Ya-yuanFundamental and mechanical study of plastic complementary potential theory in strain space[J] Journal of Zhejiann University( Engineering Science) Vol. 39 No. 8 Aug.2005:1717-1722 in Chinese
Engineering Forming Theory of Elastic-Plactic Materials[J] JOURNAL OF NORTHWESTERN POLYTECHNICAL UNIVERSITY Vol. 17 No. 2 May 1999:205-209 in Chinese.
For rock-soil material, especially loose material, the density of material will change greatly under external force, resulting in structural changes of material.
A QUANTITATIVE STUDY OF THE MICROSTRUCTURECHARACTERISTICS OF SOIL ANDITS APPLICATION TO THE ENGINEERING[J] JOURNAL OF CHENGDU UNIVERSITY OF TECHNOLOGYVol. 28 No. 2 Apr. 2001:148-153 in Chinese
A new type of constitutive theory for granular soil[J] Rock and Soil Mechanics Vo1.28 No.9 Sep. 2007:1801-1806 [9] HU Ya-yuanFundamental and mechanical study of plastic complementary potential theory in strain space[J] Journal of Zhejiann University( Engineering Science) Vol. 39 No. 8 Aug.2005:1717-1722 in Chinese
Engineering Forming Theory of Elastic-Plactic Materials[J] JOURNAL OF NORTHWESTERN POLYTECHNICAL UNIVERSITY Vol. 17 No. 2 May 1999:205-209 in Chinese.
Online since: October 2011
Authors: Hao Luan, Xiao Fang Duan, Guo Qing Jiang
Test Research and Simulation Analysis about ECO-ECC Materials Repairing Concrete Beams
Jiang Guoqing1,a, Luan Hao2,b, Duan Xiaofang3,c
1,2,3College of Civil and Transportation Engineering, Hohai University, Nanjing, 210098.
The use of fiber-reinforced composite materials ECO-ECC can implement outside paste reinforcement in damaged components [3][4], supplemented by appropriate construction methods (such as jet ECC process).
ACI Structural Journal, 2004, 101(6):792-801
Experimental study of micro/ macro crack development and stress -strain relations ofcement based composite materials at elevated temperatures [J].
Journal of Engineering Mechanics, 1998, 124(8):892–900.
The use of fiber-reinforced composite materials ECO-ECC can implement outside paste reinforcement in damaged components [3][4], supplemented by appropriate construction methods (such as jet ECC process).
ACI Structural Journal, 2004, 101(6):792-801
Experimental study of micro/ macro crack development and stress -strain relations ofcement based composite materials at elevated temperatures [J].
Journal of Engineering Mechanics, 1998, 124(8):892–900.
Online since: November 2011
Authors: W. Hufenbach, M. Gude, R. Protz
For the efficient development of lightweight structures realistic models for anisotropic materials are necessary.
For quasi-statically loaded anisotropic materials failure models e. g. by PUCK and CUNTZE are available [2, 3].
Weerasooriya: Quasi-Static and Dynamic Compressive Behaviors of a S-2 Glass/SC15 Composite, Journal of Composite Materials 37 (2003) pp. 1723-1743
Decoopman: Effect of fatigue damage induced by cyclic plasticity on the dynamic tensile behaviour of materials, International Journal of Fatigue 30, 2008, pp. 1708-1719
Andersen: Fatigue Degradation and Failure of Rotating Composite Structures – Materials Characterisation and Underlying Mechanisms, Riso National Laboratory Denmark, 2001, pp. 1-55
For quasi-statically loaded anisotropic materials failure models e. g. by PUCK and CUNTZE are available [2, 3].
Weerasooriya: Quasi-Static and Dynamic Compressive Behaviors of a S-2 Glass/SC15 Composite, Journal of Composite Materials 37 (2003) pp. 1723-1743
Decoopman: Effect of fatigue damage induced by cyclic plasticity on the dynamic tensile behaviour of materials, International Journal of Fatigue 30, 2008, pp. 1708-1719
Andersen: Fatigue Degradation and Failure of Rotating Composite Structures – Materials Characterisation and Underlying Mechanisms, Riso National Laboratory Denmark, 2001, pp. 1-55
Online since: April 2022
Authors: Zhi Guo Gao
Journal of Materials Engineering and Performance,18(2009),569-574
Journal of Materials Engineering and Performance,11(2002), 19-25
Journal of Materials Engineering and Performance,27(2018),89-98
Materials Science Forum,1033 (2021),31-39
Materials Science Forum,1033(2021), 40-48.
Journal of Materials Engineering and Performance,11(2002), 19-25
Journal of Materials Engineering and Performance,27(2018),89-98
Materials Science Forum,1033 (2021),31-39
Materials Science Forum,1033(2021), 40-48.