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Online since: February 2014
Authors: Jochen Friedrich, Birgit Kallinger, Mathias Rommel, Patrick Berwian, Christian Ehlers
Hansen; Carrier lifetime analysis by microwave photoconductivity decay (µ-PCD) for 4H-SiC epitaxial wafers; Materials Science Forum 556-557 (2007) 323-326
Friedrichs; Influence of epilayer thickness and structural defects on the minority carrier lifetime in 4H-SiC; Materials Science Forum 740-742 (2013) 633-636
Choyke; Absorption coefficient of 4H silicon carbide from 3900 to 3250 A; Journal of Applied Physics 84 (1998) 2963-2964
Rupp; Modeling analysis of gas phase nucleation in silicon carbide chemical vapor deposition; Materials Science and Engineering B61-62 (1999), p. 176-178
Hardy; The surface tension of liquid silicon; Journal of Crystal Growth 69 (1984) p. 456-460
Friedrichs; Influence of epilayer thickness and structural defects on the minority carrier lifetime in 4H-SiC; Materials Science Forum 740-742 (2013) 633-636
Choyke; Absorption coefficient of 4H silicon carbide from 3900 to 3250 A; Journal of Applied Physics 84 (1998) 2963-2964
Rupp; Modeling analysis of gas phase nucleation in silicon carbide chemical vapor deposition; Materials Science and Engineering B61-62 (1999), p. 176-178
Hardy; The surface tension of liquid silicon; Journal of Crystal Growth 69 (1984) p. 456-460
Online since: September 2013
Authors: Zhong Qiang Zhang
Midtdal and B.P.Jelle: Solar Energy Materials & Solar Cells, Vol. 109 (2013), p. 126
[4] Y.Wang, X.Y.Xiao,and C.X.Wan: New Chemical Materials, Vol. 36 (2008) , p. 12
[5]C.
Zhang: Journal of Colloid and Interface Science, Vol. 365 (2012), p. 308 [7]V.
Zhang :Materials Science and Engineering : B, Vol. 138(2007) , p. 151 [11] P.
Arpac: Solar Energy Materials & Solar Cells, Vol. 93 (2009), p. 1833 [18] Z.Y.
Munafò: Construction and Building Materials, Vol. 37 (2012) , p.51 [21]M.M.
Zhang: Journal of Colloid and Interface Science, Vol. 365 (2012), p. 308 [7]V.
Zhang :Materials Science and Engineering : B, Vol. 138(2007) , p. 151 [11] P.
Arpac: Solar Energy Materials & Solar Cells, Vol. 93 (2009), p. 1833 [18] Z.Y.
Munafò: Construction and Building Materials, Vol. 37 (2012) , p.51 [21]M.M.
Online since: August 2013
Authors: Lu Li, Rong Feng Zhou
Materials Science and Engineering A, 502 (2009), 118-125
Journal of Materials Science, 34 (1999), 2163-2168
Journal of Materials Processing Technology, 135 (2003), 271–277
Journal of Materials Processing Technology, 207 (2008), 200–203
Materials Science and Engineering A. 407 (2005) 196-200
Journal of Materials Science, 34 (1999), 2163-2168
Journal of Materials Processing Technology, 135 (2003), 271–277
Journal of Materials Processing Technology, 207 (2008), 200–203
Materials Science and Engineering A. 407 (2005) 196-200
Online since: October 2014
Authors: Mihai Axinte, Ioan Carcea, Nicanor Cimpoeşu, Oana Bălţătescu, Cristian Adoroaei, Catalina Nuțescu Duduman
Metal foams are an innovative and challenging class of materials.
Experimental details Materials In this work the tested material is based on copper nickel alloy.
Castrodeza, Carlo Mapelli Processing of brass open-cell foam by silica-gel beads replication Journal of Materials Processing Technology 209, (2009), pp. 4958–4962
Castrodeza, Performance of stainless steel foams produced by infiltration casting techniques Journal of Materials Processing Technology 213 (2013), pp. 1846– 1854
Bassani, and A TuissiProcessing of Shape Memory CuZnAl Open-cell Foam by Molten Metal Infiltration Journal of Materials Engineering and Performance Volume 18(5–6), (2009), pp. 484-489
Experimental details Materials In this work the tested material is based on copper nickel alloy.
Castrodeza, Carlo Mapelli Processing of brass open-cell foam by silica-gel beads replication Journal of Materials Processing Technology 209, (2009), pp. 4958–4962
Castrodeza, Performance of stainless steel foams produced by infiltration casting techniques Journal of Materials Processing Technology 213 (2013), pp. 1846– 1854
Bassani, and A TuissiProcessing of Shape Memory CuZnAl Open-cell Foam by Molten Metal Infiltration Journal of Materials Engineering and Performance Volume 18(5–6), (2009), pp. 484-489
Online since: July 2022
Authors: Peter Groche, Yu Tian Wu, Rui Zhe Li
Groche, Strain Induced Surface Change in Sheet Metal Forming: Numerical Prediction, Influence on Friction and Tool Wear, Journal of Manufacturing and Materials Processing 5 (2021) 29
Kim, S-N Curve Models for Composite Materials Characterisation: An Evaluative Review, Journal of Composites Science (2018)
Han, Fatigue of Composites—Fatigue Modulus Concept and Life Prediction, Journal of Composite Materials 20 (1986) 154–165. https://doi.org/10.1177/002199838602000203
Nicolais, Effect of Stress Ratio on the Flexural Fatigue Behaviour of Continuous Strand Mat Reinforced Plastics, Science and Engineering of Composite Materials 5 (1996) 1–8. https://doi.org/10.1515/SECM.1996.5.1.1
Bathias, There is no infinite fatigue life in metallic materials, Fatigue & fracture of engineering materials & structures (Print) 22 (1999) 559–565
Kim, S-N Curve Models for Composite Materials Characterisation: An Evaluative Review, Journal of Composites Science (2018)
Han, Fatigue of Composites—Fatigue Modulus Concept and Life Prediction, Journal of Composite Materials 20 (1986) 154–165. https://doi.org/10.1177/002199838602000203
Nicolais, Effect of Stress Ratio on the Flexural Fatigue Behaviour of Continuous Strand Mat Reinforced Plastics, Science and Engineering of Composite Materials 5 (1996) 1–8. https://doi.org/10.1515/SECM.1996.5.1.1
Bathias, There is no infinite fatigue life in metallic materials, Fatigue & fracture of engineering materials & structures (Print) 22 (1999) 559–565
Online since: October 2014
Authors: Hong Liang Zhang, Rui Chao Liu, Run Yuan Li
Chen: Applied Physics a-Materials Science & Processing, vol. 115 (2014), p.937
[9] L.
Berggren: Advanced Materials, vol. 19 (2007), p.97 [10] L.
Iwasa: Advanced Functional Materials, vol. 19 (2009), p.1046 [13] H.
Wan: Journal of Materials Chemistry C, vol. 1 (2013), p.2781 [18] G.
Lu: Advanced Functional Materials, vol. 17 (2007), p.3304 [21] M.
Berggren: Advanced Materials, vol. 19 (2007), p.97 [10] L.
Iwasa: Advanced Functional Materials, vol. 19 (2009), p.1046 [13] H.
Wan: Journal of Materials Chemistry C, vol. 1 (2013), p.2781 [18] G.
Lu: Advanced Functional Materials, vol. 17 (2007), p.3304 [21] M.
Online since: December 2014
Authors: Xian Qing Yang, Yan Yan Wu, Hai Xia Ma, Jian Wei Cen, Hui Huang, Yu Shen
Materials and methods
Samples.
Journal of Anhui Agricultural Sciences, Vol.34 (2011), p. 158
Journal of Zhejiang Ocean University (Natural Science), Vol 26(1) (2007). p. 6
Food Science, Vol (5)(2010). p. 005
Journal of Chinese Institute of Food Science and Technology, Vol 1 (2006). p. 056
Journal of Anhui Agricultural Sciences, Vol.34 (2011), p. 158
Journal of Zhejiang Ocean University (Natural Science), Vol 26(1) (2007). p. 6
Food Science, Vol (5)(2010). p. 005
Journal of Chinese Institute of Food Science and Technology, Vol 1 (2006). p. 056
Online since: September 2013
Authors: Gang Tong, Tong Fei Liu
Table 1 Parameters of HTA 40 3K
132.86
13.2
0.3
3.8
The materials used in experiment woven cloth for TENAX "W-3161" carbon fiber (Fig. 2).
Mechanics of composite materials [M].
Beijing: Science Press, 2011 [4] KaiLong, ChangzhiJia, BaofengLi etc.Patran2010 and Nastran2010 finite element analysis from entry to the master [M].2 edition.
Journal of composite materials.1998,15 (4): 134-138
Journal of Shanghai Jiao Tong University.2003,37 (7): 999-1001
Mechanics of composite materials [M].
Beijing: Science Press, 2011 [4] KaiLong, ChangzhiJia, BaofengLi etc.Patran2010 and Nastran2010 finite element analysis from entry to the master [M].2 edition.
Journal of composite materials.1998,15 (4): 134-138
Journal of Shanghai Jiao Tong University.2003,37 (7): 999-1001
Online since: February 2011
Authors: Cong Ming Yan, You Xi Lin
Journal of Materials Processing Technology. 2005. 166(2). 188-192
[2] Katz Zvi, Sonnekus Reino.
Key Engineering Materials. 2004. 259-260. 804-808 [5] Geng G.
Journal of Materials Processing Technology. 2005. 164-165. 1204-1211 [8] Hortig Christian, Svendsen Bob.
Journal of Materials Processing Technology. 2007. 186(1-3). 66-76 [9] Council China Aeronautical Material Handbook.
Journal of Materials Processing Technology. 2005. 168(1). 42-48
Key Engineering Materials. 2004. 259-260. 804-808 [5] Geng G.
Journal of Materials Processing Technology. 2005. 164-165. 1204-1211 [8] Hortig Christian, Svendsen Bob.
Journal of Materials Processing Technology. 2007. 186(1-3). 66-76 [9] Council China Aeronautical Material Handbook.
Journal of Materials Processing Technology. 2005. 168(1). 42-48
Online since: May 2012
Authors: Hong Wei Ying, De Qing Guan, Xiao Lin Zhong
According to the related theory of material mechanics, the displacement denotes the first derivative of the strain.
The material of beam is made up of steel Q345, Young’s modulus E=1.92×1011N/m2, density ρ=7800kg/m3, Poisson’s ratio μ= 0.3.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (No.50578018).
Sinou: European Journal of Mechanics A-Solid Vol.28 (2009), p. 75-85 [3] E.
Cremona: Journal of Sound and Vibration Vol.292 (2006), p. 179-202 [5] Youliang Ding, Aiqun Li and Changqing Miao: Engineering Mechanics Vol. 24 (2007), p. 99-103 [6] Yan Deng, Puchiang Yan: Journal of Tsinghua University Vol.40 (2000), p. 123-127 [7] Deqing Guan, Wei Pan: Journal of Transport Science and Engineering Vol. 25 (2009), p. 35-39 [8] Deqing Guan, Hongwei Ying and Xiaolin Zhong: Applied Mechanics and Materials Vol. 71-78 (2011), p. 4078-4081
The material of beam is made up of steel Q345, Young’s modulus E=1.92×1011N/m2, density ρ=7800kg/m3, Poisson’s ratio μ= 0.3.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (No.50578018).
Sinou: European Journal of Mechanics A-Solid Vol.28 (2009), p. 75-85 [3] E.
Cremona: Journal of Sound and Vibration Vol.292 (2006), p. 179-202 [5] Youliang Ding, Aiqun Li and Changqing Miao: Engineering Mechanics Vol. 24 (2007), p. 99-103 [6] Yan Deng, Puchiang Yan: Journal of Tsinghua University Vol.40 (2000), p. 123-127 [7] Deqing Guan, Wei Pan: Journal of Transport Science and Engineering Vol. 25 (2009), p. 35-39 [8] Deqing Guan, Hongwei Ying and Xiaolin Zhong: Applied Mechanics and Materials Vol. 71-78 (2011), p. 4078-4081