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Online since: July 2014
Authors: Pei Gang Dai, Liu Zhi Peng, Dan Lin Li, Li Jie Wu, Ying Jie Chen
Introduction
Due to accelerated indurstrialization and urbanization, building materials have obtained dramatic growth in china.
Flame retardants of FPUF include reactive flame retardant and additive flame retardant according to the effect between flame retardants. and the base materials.
The peak heat release rate(pHRR) is one of the most important fire characteristic parameters of materials.The irradiance 30kW/m2 is closest to the actual fire conditions.
Journal of Applied Polymer Science, 2012, 124(4):3372-3382
[J].Journal of Applied Polymer Science, 1997, 63: 47-74
Flame retardants of FPUF include reactive flame retardant and additive flame retardant according to the effect between flame retardants. and the base materials.
The peak heat release rate(pHRR) is one of the most important fire characteristic parameters of materials.The irradiance 30kW/m2 is closest to the actual fire conditions.
Journal of Applied Polymer Science, 2012, 124(4):3372-3382
[J].Journal of Applied Polymer Science, 1997, 63: 47-74
Online since: August 2011
Authors: Shu Ping Peng, Pei Feng, Ying Zhou, Chengde Gao, Cijun Shuai
Nowadays, many scholars all over the world have made lots of researches on the laser sintering temperature field, but most of them concentrate on polymer coating materials or metal materials [5].
There is relatively little research on ceramic materials.
Syvaenen: Materials Research Society.
Saha, et a1: Journal of Materials Processing Technology.
Poh1: Materials Science and Engineering.
There is relatively little research on ceramic materials.
Syvaenen: Materials Research Society.
Saha, et a1: Journal of Materials Processing Technology.
Poh1: Materials Science and Engineering.
Online since: November 2013
Authors: A.Z. Zainurul, C.H. Rosmani, Mohd Nor Asiah, Mohamad Rusop, Saifollah Abdullah, Mohd Husairi Fadzilah Suhaimi
At nanometer size, these materials have high surface-to-volume ratio properties.
Besides, oxide materials also are known to be good hosts for lanthanide ions as they provide good quantum yield.
For example Lanthanum phosphate is an excellent host in fabrication of photoluminescent materials [4, 5] .
These properties make them interesting materials as to be applied in various types of lamp and display.
Journal of Physical Chemistry c 112 (2008) 11679-11684
Besides, oxide materials also are known to be good hosts for lanthanide ions as they provide good quantum yield.
For example Lanthanum phosphate is an excellent host in fabrication of photoluminescent materials [4, 5] .
These properties make them interesting materials as to be applied in various types of lamp and display.
Journal of Physical Chemistry c 112 (2008) 11679-11684
Online since: June 2007
Authors: Won Kyu Han, Sung Goon Kang, Jun Hye Song, Yang Kook Sun
Ag deposition on Si-C Composite Anodes
for Lithium ion Batteries
Jun Hye Song1, Won Kyu Han
1, Yang Kook Sun
2 and Sung Goon Kang1,a
1
Division of Materials Science and Engineering, Hanyang University, Haengdang-dong,
Seongdong-ku, Seoul 133-791, Korea
2
Division of Chemical Science and Engineering, Hanyang University, Haengdang-dong,
Seongdong-ku, Seoul 133-791, Korea
a
Corresponding author: sgkang@hanyang.ac.kr
Keywords: Si-C composite, Ag electroless deposition, Anodes, Lithium ion batteries
Abstract.
Silicon reversibly accommodates lithium by forming Li4.4Si alloys, and its theoretical capacity is up to 4000 mAh/g[3], which is very suitable for anode materials.
Scanning electron microscope (SEM-EDX) and X-ray diffraction measurement (XRD) is adapted to investigate the structure and components of synthesized materials.
SEM is executed to observe the structure and the dispersion of components in particles of Ag-Si/C materials.
Kumta, Materials Science and Engineering B 116 (2005) 347-352 [5] G.X.
Silicon reversibly accommodates lithium by forming Li4.4Si alloys, and its theoretical capacity is up to 4000 mAh/g[3], which is very suitable for anode materials.
Scanning electron microscope (SEM-EDX) and X-ray diffraction measurement (XRD) is adapted to investigate the structure and components of synthesized materials.
SEM is executed to observe the structure and the dispersion of components in particles of Ag-Si/C materials.
Kumta, Materials Science and Engineering B 116 (2005) 347-352 [5] G.X.
Online since: December 2010
Authors: Wan Zhen Wang, Xu Chang Hao, Dan Li Zhang, You Qian Huang
On the other hand, idealized brittle fracture defined in the framework of linear-elastic fracture mechanics does not strictly represent a precise, physical fracture mode in engineering materials, since most materials sustain a certain amount of plastic deformation before fracture takes place.
In addition, linear-elastic materials recover to their original, un-deformed, and hence un-damaged configurations upon unloading.
Wang, in: Journal of Xi’an Jiaotong University.
Wang, in: Fatigue & Fracture of Engineering Materials & Structures.
Qian, in: Journal of China University of Mining & Technology.
In addition, linear-elastic materials recover to their original, un-deformed, and hence un-damaged configurations upon unloading.
Wang, in: Journal of Xi’an Jiaotong University.
Wang, in: Fatigue & Fracture of Engineering Materials & Structures.
Qian, in: Journal of China University of Mining & Technology.
Online since: January 2012
Authors: Mauro Martin, Werner Theisen, Sebastian Weber
The resulting grain size of all materials was 50 ± 5 µm.
This result is promising as the amount of nickel in the new material is at least 0.5 wt% lower compared to the materials used for screening.
Donovan, Hydrogen embrittlement of metals, Materials Science and Engineering 10 (6) (1972) 357 [5] K.
Altstetter, Hydrogen effects in austenitic stainless-steels, Materials Science and Engineering A 129 (1) (1990) 99-107 [16] S.
Theisen Lean-alloyed austenitic stainless steel with high resistance against hydrogen environment embrittlement, submitted to Materials Science and Engineering A [17] V.
This result is promising as the amount of nickel in the new material is at least 0.5 wt% lower compared to the materials used for screening.
Donovan, Hydrogen embrittlement of metals, Materials Science and Engineering 10 (6) (1972) 357 [5] K.
Altstetter, Hydrogen effects in austenitic stainless-steels, Materials Science and Engineering A 129 (1) (1990) 99-107 [16] S.
Theisen Lean-alloyed austenitic stainless steel with high resistance against hydrogen environment embrittlement, submitted to Materials Science and Engineering A [17] V.
Online since: October 2009
Authors: Ferri M.H.Aliabadi, P.M. Baiz, Z. Sharif-Khodaei
The fatigue crack initiation behaviour of the Al layers in composite
metallic laminates can, therefore, be compared to the behaviour of monolithic Al if the actual stress
conditions at the notched edge are equivalent for both materials.
[3] Boller, C., Seeger, T., Materials Data for Cyclic Loading, Part D: Aluminium and Titanium Alloys, Elsevier, Amsterdam (1987)
[4] Chang, P.Y., Yang, J.M., Seo, H., Hahn, H.T., Off-axis Fatigue Cracking Behaviour in Notched Fibre Metal Laminates, Fatigue & Fracture of Engineering Materials & Structures, v30, pp. 1158-1171 (2007)
ASME, Journal of Applied Mechanics, v67, A159-A164 (1945)
[10] Vasek, A., Polak, J., Kozak, V., Fatigue Crack Initiation in Fibre-Metal Laminate GLARE2, Materials Science and Engineering A, 234-236, pp 621-624 (1997).
[3] Boller, C., Seeger, T., Materials Data for Cyclic Loading, Part D: Aluminium and Titanium Alloys, Elsevier, Amsterdam (1987)
[4] Chang, P.Y., Yang, J.M., Seo, H., Hahn, H.T., Off-axis Fatigue Cracking Behaviour in Notched Fibre Metal Laminates, Fatigue & Fracture of Engineering Materials & Structures, v30, pp. 1158-1171 (2007)
ASME, Journal of Applied Mechanics, v67, A159-A164 (1945)
[10] Vasek, A., Polak, J., Kozak, V., Fatigue Crack Initiation in Fibre-Metal Laminate GLARE2, Materials Science and Engineering A, 234-236, pp 621-624 (1997).
Online since: June 2014
Authors: Stanislav Seitl, Václav Veselý, Jakub Sobek, Carlos Bermejo
Introduction
The analysis of a fatigue behavior of heterogeneous materials, such as cement based composites, is a relatively new problem in theory of fracture mechanics.
Schell, Fatigue Facture of High-Strength Concrete and Size Effect, ACI Materials Journal 90-M50 (1993) 472–478
Xu, Size Effect in Fatigue Fracture of Concrete, ACI Materials Journal 88-M46 (1991) 390–399
Seitl, Wedge-Splitting Test – Determination of Minimal Starting Notch Length for Various Cement Based Composites Part I: Cohesive Crack Modelling, Key Engineering Materials 452–453 (2011) 77–80
Veselý, Selecting a suitable specimen shape with low constraint value for determination of fracture parameters of cementitious composites, Key Engineering Materials 577–578 (2014) 481–484.
Schell, Fatigue Facture of High-Strength Concrete and Size Effect, ACI Materials Journal 90-M50 (1993) 472–478
Xu, Size Effect in Fatigue Fracture of Concrete, ACI Materials Journal 88-M46 (1991) 390–399
Seitl, Wedge-Splitting Test – Determination of Minimal Starting Notch Length for Various Cement Based Composites Part I: Cohesive Crack Modelling, Key Engineering Materials 452–453 (2011) 77–80
Veselý, Selecting a suitable specimen shape with low constraint value for determination of fracture parameters of cementitious composites, Key Engineering Materials 577–578 (2014) 481–484.
Online since: June 2014
Authors: Xiao Hou Shao, Chao Yin, Long Wang, Jian Qiang Mao, Xin Yu Mao, Zhong Lin Tang, Teng Wang
While, nano-silica, used as biological carrier materials, has advantages of large surface area, better biocompatibility, and low cost compared with porous stainless steel, ceramics and other porous materials [12].
Materials and Methods Materials.
The proportion of different materials in fermentation of EM active calcium was presented in Table 1.
Journal of Anhui Agricultural Science, 2010, 38(5): 2496-2497.
Advanced Materials Research, 610, pp. 138-143, 2013.
Materials and Methods Materials.
The proportion of different materials in fermentation of EM active calcium was presented in Table 1.
Journal of Anhui Agricultural Science, 2010, 38(5): 2496-2497.
Advanced Materials Research, 610, pp. 138-143, 2013.
Online since: September 2013
Authors: Takahisa Shobu, Ayumi Shiro, Kenji Suzuki
Suezono, Underwater laser shock processing to
introduce residual compressive stress on metals, Material Science Research International, STP,
No. 2, (2001) 453-458
Shobu, Residual microstress of austenitic stainless steel due to tensile deformation, Material Science Forum, Vol. 652, (2010) 7-12
Shobu, Residual stresses in austenitic stainless steel due to high strain rate, Material Science Forum, Vol. 681, (2011) 287-283
Okado, Evaluation of residual stress distribution in shot-peened steel by synchrotron radiation, Journal of Materials Science, Japan, Vol. 52, No. 7, (2003) 764-769
[11] http://kikai.ed.niigata-u.ac.jp/xdatabase/Kroner_model/kroner_c.html [12] ISO/TTA 3, Polycrystalline materials determinations of residual stresses by neutron diffraction, ISO, Geneva, Switzerland, (2001).
Shobu, Residual microstress of austenitic stainless steel due to tensile deformation, Material Science Forum, Vol. 652, (2010) 7-12
Shobu, Residual stresses in austenitic stainless steel due to high strain rate, Material Science Forum, Vol. 681, (2011) 287-283
Okado, Evaluation of residual stress distribution in shot-peened steel by synchrotron radiation, Journal of Materials Science, Japan, Vol. 52, No. 7, (2003) 764-769
[11] http://kikai.ed.niigata-u.ac.jp/xdatabase/Kroner_model/kroner_c.html [12] ISO/TTA 3, Polycrystalline materials determinations of residual stresses by neutron diffraction, ISO, Geneva, Switzerland, (2001).