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Online since: March 2008
PREFACE
This special issue of the journal contains a collection of technical papers that embrace the topic
entitled: "Advances in Understanding the Fatigue Behavior of Materials".
The focus on "Fatigue Behavior of Materials" stems from the changes in properties that occur upon the application of cyclic loads.
Through the time period spanning the last three decades the subject of fatigue behavior of materials has grown to become a major area of scientific and applied research encompassing the disciplines of (a) materials science, spanning the families of metals, ceramics, intermetallics, polymers and their composite counterparts, (b) aerospace engineering, (c) civil engineering, (d) mechanical engineering, (e) biomedical engineering, (f) applied mathematics, and (g) applied physics.
Also assembled are papers that provide an insight of the alternative yet viable approaches to studying and understanding the concept of fatigue of materials.
Srivatsan, FASM, FASME Professor Division of Materials Science and Engineering Department of Mechanical Engineering The University of Akron Akron, Ohio 44325-3903, USA
The focus on "Fatigue Behavior of Materials" stems from the changes in properties that occur upon the application of cyclic loads.
Through the time period spanning the last three decades the subject of fatigue behavior of materials has grown to become a major area of scientific and applied research encompassing the disciplines of (a) materials science, spanning the families of metals, ceramics, intermetallics, polymers and their composite counterparts, (b) aerospace engineering, (c) civil engineering, (d) mechanical engineering, (e) biomedical engineering, (f) applied mathematics, and (g) applied physics.
Also assembled are papers that provide an insight of the alternative yet viable approaches to studying and understanding the concept of fatigue of materials.
Srivatsan, FASM, FASME Professor Division of Materials Science and Engineering Department of Mechanical Engineering The University of Akron Akron, Ohio 44325-3903, USA
Online since: March 2016
Authors: Ming Long Ma, Lin Lai, Guo Liang Shi, Kui Zhang
Materials Science and Engineering: A. 302(2001) 37-45
Materials Science and Engineering A. 429(2006) 320-323
Materials Science and Engineering: A. 496(2008) 247-255
Materials Science and Engineering: A, 462(2007) 197-201
Materials Science Forum, 488 (2005) 139-142
Materials Science and Engineering A. 429(2006) 320-323
Materials Science and Engineering: A. 496(2008) 247-255
Materials Science and Engineering: A, 462(2007) 197-201
Materials Science Forum, 488 (2005) 139-142
Online since: July 2023
Authors: Azman Seeni, Srimala Sreekantan, Rabiatul Basria S.M.N. Mydin, Nor Hazliana Harun, Khairul Arifah Saharuddin
Materials and Methods
Materials and synthesis of LLDPE/TiO2/ZnO nanocomposite films.
Materials. 2020: 14(1): 53
In IOP Conference Series: Materials Science and Engineering (Vol. 932, No. 1, p. 012032).
International Journal of Molecular Sciences. 2020; 21(13): 4777
International Journal of Molecular Sciences. 2022; 23(12): 6724
Materials. 2020: 14(1): 53
In IOP Conference Series: Materials Science and Engineering (Vol. 932, No. 1, p. 012032).
International Journal of Molecular Sciences. 2020; 21(13): 4777
International Journal of Molecular Sciences. 2022; 23(12): 6724
Online since: July 2016
Authors: Xi Yan Luo, Rong Guo Zhao, Yong Zhou Jiang, Ya Feng Liu, Qi Bang Li, Yi Yan, Yue Chen, Peng Cai
Experimental
Materials and specimens.
In the last few decades, some damage models are proposed to describe the damage evolution processes of different materials enduring cyclic loading.
International Journal of Mechanical Sciences, 93 (2015): 32-47
International Journal of Fatigue, 81 (2015): 257-264
Materials Science and Engineering A, 600 (2014): 153-158
In the last few decades, some damage models are proposed to describe the damage evolution processes of different materials enduring cyclic loading.
International Journal of Mechanical Sciences, 93 (2015): 32-47
International Journal of Fatigue, 81 (2015): 257-264
Materials Science and Engineering A, 600 (2014): 153-158
Online since: June 2013
Authors: Cheng Wang, Zhi Lin Lai, Zhi Bin An, Liu Cheng Zhou, Wei Feng He
Fig.4 Coordinate robot with multiple degrees of freedom
The materials used in this work was a 1Cr11Ni2W2MoV martensite stainless steel plate, its chemical compositions contain (mass, %) C 0.10~0.16, Cr 10.5~12.00, Ni 1.40~1.8, W 1.50~2.00, Mo 0.35~0.50, V 0.18~0.30, Mn ≤0.6, Si ≤0.6, P ≤0.03, S ≤0.02.
The fatigue behavior of mechanical parts depends on their mechanical surface qualities and the fatigue cracks mostly originate at the surface of materials.
References [1] J Dutta Majumdar and I Manna, Laser processing of materials, Sādhanā, 2003, 28(6/8), Parts3&4: 495~562 [2] Steen W M.
Laser material processing, NewYork: Springer Verlag, 1991 [3] Mordike B L, RW Cahn, P Haasen, E J Kramer, Materials science and technology,Weinheim, 1993, 15: 111 [4] Peyre P, Fabbro R, Merrier P, et al, Materials Science and Engineering, A210(1996): 102~113 [5] Min Ya, Yongming Xing, Fulong Dai, et al, Surf.
Technol, 168 (2003): 148~155 [6] Thibaut Chaisea, et al, Journal of Materials Processing Technology, 212(2012): 2080~2090 [7] Tabor D: Philo Mag A, 1996, 74(5): 1207~1212 [8] Inés Fermández Pariente, Mario Guagliano: Surf.
The fatigue behavior of mechanical parts depends on their mechanical surface qualities and the fatigue cracks mostly originate at the surface of materials.
References [1] J Dutta Majumdar and I Manna, Laser processing of materials, Sādhanā, 2003, 28(6/8), Parts3&4: 495~562 [2] Steen W M.
Laser material processing, NewYork: Springer Verlag, 1991 [3] Mordike B L, RW Cahn, P Haasen, E J Kramer, Materials science and technology,Weinheim, 1993, 15: 111 [4] Peyre P, Fabbro R, Merrier P, et al, Materials Science and Engineering, A210(1996): 102~113 [5] Min Ya, Yongming Xing, Fulong Dai, et al, Surf.
Technol, 168 (2003): 148~155 [6] Thibaut Chaisea, et al, Journal of Materials Processing Technology, 212(2012): 2080~2090 [7] Tabor D: Philo Mag A, 1996, 74(5): 1207~1212 [8] Inés Fermández Pariente, Mario Guagliano: Surf.
Online since: August 2011
Authors: Zheng Fan Li, Guo Liang Liu, Chong Wen Yu
Materials and methods
Materials.
Shanghai textile science & technology Forum Vol. 34(2006), p. 12-14 [3] Yu C,W, Zhang Y.M.
Journal of China textile university Forum Vol. 23 (1997), p. 17-20 [4]P.
Journal of materials science Forum Vol. 21 (1986), p. 51-56 [5] Li M.F, Lian W.W, Deng Y.G, Huang T..
Shanghai textile science & technology Forum Vol. 37 (2009), p. 22-24 [6] X.
Shanghai textile science & technology Forum Vol. 34(2006), p. 12-14 [3] Yu C,W, Zhang Y.M.
Journal of China textile university Forum Vol. 23 (1997), p. 17-20 [4]P.
Journal of materials science Forum Vol. 21 (1986), p. 51-56 [5] Li M.F, Lian W.W, Deng Y.G, Huang T..
Shanghai textile science & technology Forum Vol. 37 (2009), p. 22-24 [6] X.
Online since: August 2009
Authors: Su Xia, Zheng Wang, Jing Quan Yang, Li Mei Hao, Jin Hui Wu
In this study, PU solution containing different amounts of TiO2-Ag nanoparticles were
successfully electrospun into non-woved nanofibers mats, and it may be used in antimicrobial filter
application, bioprotective textile and wound dressing materials, etc.
Experimental 2.1 Materials.PU(1995EC,Mn=1160),obtained from Jiangyin Xilong plastic Co.Ltd, China.
-M.Huang,and C.L.He et al:Material Science and Engineer A.Vol. 435-436 (2006),p.309-317 3.
E.H.Jeong, J.Yang, and J.H.Youk: Materials Letters.
Chen Yao, Xinsong Li, and K.G.Neoh, et al:Journal of Membrane Science.
Experimental 2.1 Materials.PU(1995EC,Mn=1160),obtained from Jiangyin Xilong plastic Co.Ltd, China.
-M.Huang,and C.L.He et al:Material Science and Engineer A.Vol. 435-436 (2006),p.309-317 3.
E.H.Jeong, J.Yang, and J.H.Youk: Materials Letters.
Chen Yao, Xinsong Li, and K.G.Neoh, et al:Journal of Membrane Science.
Online since: March 2015
Authors: Guo Jiang Zhou, Xiao Tong Feng, Guang Chao Lv
Chinese Journal of Energetic Material, 2007, 15(1):70-72
Inorganic Materials, Vol. 41, No. 2, 2005, pp. 120–126
Advanced Materials Research Vols. 2013 (734-737):2181-2186
Advanced Materials Research Vol. 852 (2014) pp 101-105
Advanced Materials Research. 2014 (852):101-105
Inorganic Materials, Vol. 41, No. 2, 2005, pp. 120–126
Advanced Materials Research Vols. 2013 (734-737):2181-2186
Advanced Materials Research Vol. 852 (2014) pp 101-105
Advanced Materials Research. 2014 (852):101-105
Online since: March 2020
Authors: Ju An Zhai, An Wei Wang, Yu Shan Wan
On the basis of optimized experimental conditions, intermittent current flow method of electro-enhanced technique was adopted in a view to further enhancing Cd removal rate and reducing energy consumption, thus providing technical support for the optimization of cadmium-contaminated soil remediation conditions.
1 Materials and Methods
1.1 Experimental soil
The experimental soil was taken from the rice farmland near Science and Education City of Changzhou University.
The reaction apparatus was a cylinder having a depth of 14 cm, an inner diameter of 15 cm and a height of 13 cm, which was made of plexiglass material.
[10] Cao Y, Zhang S, Wang G, Li T, Xu X, Deng O, Enhancing the soil heavy metals removal efficiency by adding HPMA and PBTCA along with plant washing agents, Journal of Hazardous Materials. 339(2017)33-42
[12] Giannis A, Gidarakos E,Washing enhanced electrokinetic remediation for removal cadmium from real contaminated soil,Journal of Hazardous Materials. 123(2005)165-175
[16] Lixun Z, Guangyu Z, Xin G, Gang X, Yuntao G,Novel insights into heavy metal pollution of farmland based on reactive heavy metals (RHMs): pollution characteristics, predictive models, and quantitative source apportionment, Journal of Hazardous Materials.360(2018)32-42
The reaction apparatus was a cylinder having a depth of 14 cm, an inner diameter of 15 cm and a height of 13 cm, which was made of plexiglass material.
[10] Cao Y, Zhang S, Wang G, Li T, Xu X, Deng O, Enhancing the soil heavy metals removal efficiency by adding HPMA and PBTCA along with plant washing agents, Journal of Hazardous Materials. 339(2017)33-42
[12] Giannis A, Gidarakos E,Washing enhanced electrokinetic remediation for removal cadmium from real contaminated soil,Journal of Hazardous Materials. 123(2005)165-175
[16] Lixun Z, Guangyu Z, Xin G, Gang X, Yuntao G,Novel insights into heavy metal pollution of farmland based on reactive heavy metals (RHMs): pollution characteristics, predictive models, and quantitative source apportionment, Journal of Hazardous Materials.360(2018)32-42
Online since: August 2011
Authors: Yi Lin Wang, Hui Cai Long
A feature-based process planning approach for fineblanking-forming-stamping parts
Yilin Wang,a, Huicai Long 1,b
1 State Key Laboratory of Material Processing and Die & Mould Technology,
Huazhong University of Science and Technology, Wuhan, Hubei 430074, PR China
a wangyilin@mail.hust.edu.cn, b longhuicai@gmail.com
Key words: fineblanking; process planning; process feature recognition; features representation
Abstract.
Acknowledgement Project is supported by National Natural Science Foundation of China (grant no. 50875094).
Yamazaki: Journal of Materials Processing Technology, Vol.174 (2006), pp.74-81
Choi: Journal of Materials Processing Technology, Vol.111(2001), pp.188-192
Acknowledgement Project is supported by National Natural Science Foundation of China (grant no. 50875094).
Yamazaki: Journal of Materials Processing Technology, Vol.174 (2006), pp.74-81
Choi: Journal of Materials Processing Technology, Vol.111(2001), pp.188-192