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Online since: June 2010
Authors: Cheng Long Xu, Wei Zhang, Sheng Li Lv, Zhen Guo Wang
So
many studies on nucleation and propagation of corrosion pits in these aluminum alloy materials have
been addressed [1, 2].
Experiments The pre-corrosion sheet material for this study was satisfied the specifications for the LC4 designation.
Kotula: Journal of the Electrochemical Society Vol. 153 (2006), p. 296 [3] American Society for Testing and Materials, U.S.
ASTM G34-01(2007) [4] American Society for Testing and Materials, U.S.
Patel: Mater Lett Vol.62(2008),p.4499 [6] An Guofeng, Lv Shengli, Zhang Wei and Lv Guozhi: Chinese Journal of Scientific Instrument Vol.30NO.6 (2009), p.779
Experiments The pre-corrosion sheet material for this study was satisfied the specifications for the LC4 designation.
Kotula: Journal of the Electrochemical Society Vol. 153 (2006), p. 296 [3] American Society for Testing and Materials, U.S.
ASTM G34-01(2007) [4] American Society for Testing and Materials, U.S.
Patel: Mater Lett Vol.62(2008),p.4499 [6] An Guofeng, Lv Shengli, Zhang Wei and Lv Guozhi: Chinese Journal of Scientific Instrument Vol.30NO.6 (2009), p.779
Online since: February 2012
Authors: Xiao Wang, Hui Xia Liu, Yang Hu, Wei Li, Zong Bao Shen, Dao Zhong Du, Hui Liu
Introduction
The laser-driven flyer is a novel and valuable laser indirect drive technique, which has been applied in the fields of the high speed collision in outer space [1,2], characterizing the dynamic behavior of materials and so on [3,4].
Both the flyer and the workpiece are aluminum, because aluminum is also used for MEMS materials.
Acknowledgements The authors acknowledge the National Natural Science Foundation of China (Grant No. 51175235) and Support from Photonic Manufacturing and Science Technology Center of Jiangsu University, Industrial Center of Jiangsu University and the Priority Academic Program Development of Jiangsu Higher Education Institutions are also gratefully acknowledged.
Gouzman, et al: Journal of spacecraft and rockets 46 (2009) 230
Wang, et al: Journal of applied physics 106 (2009) 063107
Both the flyer and the workpiece are aluminum, because aluminum is also used for MEMS materials.
Acknowledgements The authors acknowledge the National Natural Science Foundation of China (Grant No. 51175235) and Support from Photonic Manufacturing and Science Technology Center of Jiangsu University, Industrial Center of Jiangsu University and the Priority Academic Program Development of Jiangsu Higher Education Institutions are also gratefully acknowledged.
Gouzman, et al: Journal of spacecraft and rockets 46 (2009) 230
Wang, et al: Journal of applied physics 106 (2009) 063107
Online since: March 2026
Authors: Paul Linhardt, Roland Haubner, Maria Victoria Biezma, Susanne Strobl
Biezma Moraleda, Materials Performance and Characterization, 5 (2016) 689-700
Rose, Journal of Material Science, 13 (1978) 1647-1657
Riad, Materials Characterization, 48 (2002) 37-41
Linhardt, Materials and Corrosion, 66 (2015) 1536-1541
Biezma, Materials and Corrosion, 69 (2018) 358-364.
Rose, Journal of Material Science, 13 (1978) 1647-1657
Riad, Materials Characterization, 48 (2002) 37-41
Linhardt, Materials and Corrosion, 66 (2015) 1536-1541
Biezma, Materials and Corrosion, 69 (2018) 358-364.
Online since: August 2010
Authors: Yun Gang Li, Guo Zhang Tang, Yu Zhu Zhang, Hai Li Yang, Ai Min Gao, Fu Jia Wang, Kuo Wang Jia
Experimental Material and Method
The substrate material used in the present work was non oriented electrical steel with 20×20×0.5 mm
3
and composition of 8.28at% Si.
For instance, structural characterization of materials is not provided measured directly.
Chen: Materials Protection of china.
Zhang: International Journal of Minerals, Metallurgy and Materials, Vol. 16(2009): p. 208 [9] Z.
Chen: Journal of University of Science and Technology Beijing.
For instance, structural characterization of materials is not provided measured directly.
Chen: Materials Protection of china.
Zhang: International Journal of Minerals, Metallurgy and Materials, Vol. 16(2009): p. 208 [9] Z.
Chen: Journal of University of Science and Technology Beijing.
Online since: July 2016
Authors: Kim Yeow Tshai, Pooria Khalili, Jun Hui Lee, Farzad Arefi Mostafa, Ing Kong
The materials’ flammability behaviors i.e. smoke, toxicity and heat release are crucial in such industries and flame retardant (FR) additives have been commonly used to promote intumescent mechanism for NF based polymeric composites.
Materials and Fabrication Material.
Morgan, Fire retardancy of polymeric materials. 2009: CRC press
Journal of Applied Polymer Science, 2010. 117(1): p. 443-449
Turkish Journal of Agriculture and Forestry, 2011. 35(2): p. 155-163.
Materials and Fabrication Material.
Morgan, Fire retardancy of polymeric materials. 2009: CRC press
Journal of Applied Polymer Science, 2010. 117(1): p. 443-449
Turkish Journal of Agriculture and Forestry, 2011. 35(2): p. 155-163.
Online since: November 2014
Authors: Januar Parlaungan Siregar, Yuli Panca Asmara, Tezara Cionita, Juliawati Alias
Effects of H2 gas on corrosion rate of notched materials.
Effect of CO2 gas, H2 gas and initial stress on corrosion rate on notched materials.
Zakaria, T.J Davies, Stack, Cracking by hydrogen embrittlement in a welded pipeline steel, Journal of Materials Science, 26 (1991) 2189-2194
Ronald, Materials and Processes in Manufacturing (9th ed.), Wiley (2003) ISBN 0-471-65653-4
[7] NACE MR0175/ISO 15156-1:2001, Petroleum and natural gas industries – Materials for use in H2S containing environments in oil and gas production – Part1: General principles for selection of cracking resistant materials, 2001
Effect of CO2 gas, H2 gas and initial stress on corrosion rate on notched materials.
Zakaria, T.J Davies, Stack, Cracking by hydrogen embrittlement in a welded pipeline steel, Journal of Materials Science, 26 (1991) 2189-2194
Ronald, Materials and Processes in Manufacturing (9th ed.), Wiley (2003) ISBN 0-471-65653-4
[7] NACE MR0175/ISO 15156-1:2001, Petroleum and natural gas industries – Materials for use in H2S containing environments in oil and gas production – Part1: General principles for selection of cracking resistant materials, 2001
Online since: October 2013
Authors: Bogdan Szturomski, Andrzej Grządziela, Marcin Kluczyk
In the case of the impact loads by pressure wave or waves it is not possible to disregard large displacement structures, nonlinearity of materials, failure criteria, etc.
There should be a description of the material behavior at higher deformation speeds.
The behavior of structural materials at high deformations speed is different than static loads.
[14] Rajendran R.: Numerical simulation of response of plane plates subjected to uniform primary shock loading of non-contact underwater explosion, Materials and Design vol. 30 (2009) pp. 1000-1007 [15] Rajendran R., Lee J.M.: Blast loaded plates, Marine Structures vol. 22 (2009) pp. 99–127 [16] Ridah S.: Shock Waves in Water, J.
C., The Finite Element Method in Engineering Science, McGRAW-HILL, London 1971 [26] Johnson G.
There should be a description of the material behavior at higher deformation speeds.
The behavior of structural materials at high deformations speed is different than static loads.
[14] Rajendran R.: Numerical simulation of response of plane plates subjected to uniform primary shock loading of non-contact underwater explosion, Materials and Design vol. 30 (2009) pp. 1000-1007 [15] Rajendran R., Lee J.M.: Blast loaded plates, Marine Structures vol. 22 (2009) pp. 99–127 [16] Ridah S.: Shock Waves in Water, J.
C., The Finite Element Method in Engineering Science, McGRAW-HILL, London 1971 [26] Johnson G.
Online since: January 2016
Authors: Alexandru Chira, Michal Ženíšek, Lenka Laiblová, Petr Hájek, Tomáš Vlach, Anuj Kumar
Development of extremely thin concrete structures and demand for extremely thin elements are the reason of using composite non-traditional materials as reinforcement.
Materials Used in Experiment Concrete.
Materials and Research (Vol. 1095), 569-572 (2015)
Concrete, Advanced Materials Research (Vol. 1054), 99-103 (2014)
Fiala, et al., Cohesion of Composite Reinforcement Produced from Rovings with High Performance Concrete, Applied Mechanics and Materials (Vol. 732), 397-402 (2014)
Materials Used in Experiment Concrete.
Materials and Research (Vol. 1095), 569-572 (2015)
Concrete, Advanced Materials Research (Vol. 1054), 99-103 (2014)
Fiala, et al., Cohesion of Composite Reinforcement Produced from Rovings with High Performance Concrete, Applied Mechanics and Materials (Vol. 732), 397-402 (2014)
Online since: January 2013
Authors: Hafizi Lukman, Amir Radzi Ab Ghani, Hafizan Hashim
Energy absorption of structures and materials, Woodhead Publishing, Cambridge, United Kingdom
Journal of Impact Engineering. 34: pp. 1739-1752
Materials and Design. 23: pp.611-617
Journal of Mechanical Sciences. 51: pp.64-76
Journal of Impact Engineering. 36: 402-417
Journal of Impact Engineering. 34: pp. 1739-1752
Materials and Design. 23: pp.611-617
Journal of Mechanical Sciences. 51: pp.64-76
Journal of Impact Engineering. 36: 402-417
Online since: May 2020
Authors: Lina Kieush, Maksym Boyko, Andrii Koveria, Maksym Yaholnyk, Natalia Poliakova
Series: Materials Science and Engineering, 285, 012033. https://doi.org/10.1088/1757-899X/285/1/012033
[7] Tangstad, M. (2013).
Journal of Wood Science, (62), 93-100. https://doi.org/10.1007/s10086-015-1515-6 [13] Matsumura T., Ichida, M., Nagasaka, T. & Kato, K. (2008).
Advances in Materials Science and Engineering, (2018), 14. https://doi.org/10.1155/2018/3807609 [17] Hesham, M.
New trends in the application of carbon-bearing materials in blast furnace iron-making.
Theory of sintering fine materials.
Journal of Wood Science, (62), 93-100. https://doi.org/10.1007/s10086-015-1515-6 [13] Matsumura T., Ichida, M., Nagasaka, T. & Kato, K. (2008).
Advances in Materials Science and Engineering, (2018), 14. https://doi.org/10.1155/2018/3807609 [17] Hesham, M.
New trends in the application of carbon-bearing materials in blast furnace iron-making.
Theory of sintering fine materials.