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Online since: November 2003
Authors: Bo Young Hur, Sang Youl Kim, Kwan-Ho Song
Hur: Korean Journal of
Materials Research Vol. 12, (2002), p. 729
Rammerstorfer: Computational Materials Science Vol. 16 (1999), p. 61
Ashby: Materials Science and Engineering Vol.
Ramamurty: Materials Science and Engineering Vol.
Dannemann and James Lankford Jr: Materials Science and Engineering Vol.
Rammerstorfer: Computational Materials Science Vol. 16 (1999), p. 61
Ashby: Materials Science and Engineering Vol.
Ramamurty: Materials Science and Engineering Vol.
Dannemann and James Lankford Jr: Materials Science and Engineering Vol.
Online since: May 2017
Authors: Adnan I.O. Zaid
Materials and Experimental Procedures
Materials.
Budinsk: Engineering Materials Selection, Fourth Edition, Prentice-Hall, Inc., New JERSY(1992)
Callister: Materials Science and Engineering and Engineering: an Introduction, Third Edition, John Wiley and Sons inc., New York(1994)
Kayali: The effect of manganese on the microstructure and mechanical properties of zinc–aluminum based ZA-8 alloy, Journal Material of Science, Vol.42 (2007), p.8298-8305
Zhao and J.J Li: Effect of equal channel angular pressing on tensile properties and fracture modes of casting Al–Cu alloys, Materials Science and Engineering, Vol. 426(2006), p.305-313
Budinsk: Engineering Materials Selection, Fourth Edition, Prentice-Hall, Inc., New JERSY(1992)
Callister: Materials Science and Engineering and Engineering: an Introduction, Third Edition, John Wiley and Sons inc., New York(1994)
Kayali: The effect of manganese on the microstructure and mechanical properties of zinc–aluminum based ZA-8 alloy, Journal Material of Science, Vol.42 (2007), p.8298-8305
Zhao and J.J Li: Effect of equal channel angular pressing on tensile properties and fracture modes of casting Al–Cu alloys, Materials Science and Engineering, Vol. 426(2006), p.305-313
Online since: August 2013
Authors: Jun Hua Wu, Song Yang
Swelling and shrinkage due to moisture-change is one of the expansive soil’s characteristics, which is similar to the behavior of most materials under thermal effect.
It is reasonable to assume that the swelling-shrinkage behavior due to moisture-change is similar to the temperature effect on most solid materials which can be analyzed widely and maturely by thermo-mechanics theory.
Nanjing: Jiangsu Science and Technology Publishing House, 1992
Canadian Geotechnical Journal, 1992, 29:263-277
Canadian Geotechnical Journal, 1997, 34(6):943-951
It is reasonable to assume that the swelling-shrinkage behavior due to moisture-change is similar to the temperature effect on most solid materials which can be analyzed widely and maturely by thermo-mechanics theory.
Nanjing: Jiangsu Science and Technology Publishing House, 1992
Canadian Geotechnical Journal, 1992, 29:263-277
Canadian Geotechnical Journal, 1997, 34(6):943-951
Online since: February 2011
Authors: Chang Pin Chou, Chin Chun Chang, Ji Gang Yang, Ling Qi
Experimental procedure
Materials The material selections were rolled aluminum alloy 2024-T351 and 7050-T7451 plate having a length, width and thickness of 150 x 75 x 3mm.
Fridlyander: Metal Science and Heat Treatment, Vol. 43 (2001), p. 1 [2] H.
Gibson: Journal of Materials Engineering and Performance, Vol. 16(5) (2007), p.584 [3] C.C.
Srivatsan: Journal of Materials Engineering and Performance, Vol. 10(2) (2001), p.173 [4] A.
Vol. 40 (2009), p.286 [5] Martin FUJDA, Rudolf MIŠIČKO: Journal of Metals, Materials and Minerals.
Fridlyander: Metal Science and Heat Treatment, Vol. 43 (2001), p. 1 [2] H.
Gibson: Journal of Materials Engineering and Performance, Vol. 16(5) (2007), p.584 [3] C.C.
Srivatsan: Journal of Materials Engineering and Performance, Vol. 10(2) (2001), p.173 [4] A.
Vol. 40 (2009), p.286 [5] Martin FUJDA, Rudolf MIŠIČKO: Journal of Metals, Materials and Minerals.
Online since: June 2013
Authors: Jia Chen Chen, Qiu Ju Ma, Qi Zhang
Journal of Hazardous Materials 97(1–3), 1–9
Springer Science + Business Media
Journal of Loss Prevention in the Process Industries 14, 495–502
Journal of Loss Prevention in the Process Industries 18 (1), 13–19
Journal of Sichuan University (Engineering Science Edition), 41(6), 79–83.
Springer Science + Business Media
Journal of Loss Prevention in the Process Industries 14, 495–502
Journal of Loss Prevention in the Process Industries 18 (1), 13–19
Journal of Sichuan University (Engineering Science Edition), 41(6), 79–83.
Online since: January 2017
Authors: Qing Song Ma, Kuan Hong Zeng, Xiao Lv, Zhong Quan Li, Song Lin Liang
James: Journal of Materials Science Vol. 32 (1997), p. 3361-3368
[5] J.
James: Journal of Materials Science Vol. 32 (1997), p. 3629-3635 [6] Z.F.
Cheng: Journal of Inorganic Materials Vol. 18 (2003) No.3, p. 638-644 (In Chinese) [7] Q.S.
Liu: Materials Science Forum Vol. 816 (2015), p. 27-32 [12] Q.S.
Xi: Thermal Properties of Inorganic Materials (Shanghai Science and Technology Press, China 1981).
James: Journal of Materials Science Vol. 32 (1997), p. 3629-3635 [6] Z.F.
Cheng: Journal of Inorganic Materials Vol. 18 (2003) No.3, p. 638-644 (In Chinese) [7] Q.S.
Liu: Materials Science Forum Vol. 816 (2015), p. 27-32 [12] Q.S.
Xi: Thermal Properties of Inorganic Materials (Shanghai Science and Technology Press, China 1981).
Online since: July 2014
Authors: Lie Xian Tang, Zhen Tong An, Jun Yan Zhang, Dong Zhang
Soundless Crack is widely used in stone exploitation, partly crack of brittleness materials such as rock and concrete, and backout of building in city.
In these engineering, we must drill many holes for loading Soundless Cracking Agents, but the drilling cost is expensive including human cost and materials cost, at the same time need much time to drill these holes.
If we can know the mechanics parameters of the materials, we can numerical calculation the failure process before drilling, rectify the planning distance between holes to gain the best cracking results.
Journal of Heilongjiang Hydraulic Engineering College.
Chinese Journal of Rock Mechanics and Engineering, 2003, 22(1): 24-29.
In these engineering, we must drill many holes for loading Soundless Cracking Agents, but the drilling cost is expensive including human cost and materials cost, at the same time need much time to drill these holes.
If we can know the mechanics parameters of the materials, we can numerical calculation the failure process before drilling, rectify the planning distance between holes to gain the best cracking results.
Journal of Heilongjiang Hydraulic Engineering College.
Chinese Journal of Rock Mechanics and Engineering, 2003, 22(1): 24-29.
Online since: December 2011
Authors: Li Yan Wang, Guang Qing Gai, Huan Yang Yu, Wen Long Liu
Experimental
Raw materials and instruments.
Richard Hull.Assessment of the fire toxicity of building insulation materials[J].
Auad,Lihua Zhao,Hongbin Shen,Steven R.Nutt,Usman Sorathia.Flammability Properties and Mechanical Performance of Epoxy Modified Phenolic Foams[J].Journal of Applied Polymer Science,2007,104:1399–1407
Phenolic foams from wood tar resols[J].Journal of Applied Polymer Science,2010,115:923–927
Development of microwave foaming method for phenolic insulation foams[J].Journal of materials processing technology,2008,201:716-719
Richard Hull.Assessment of the fire toxicity of building insulation materials[J].
Auad,Lihua Zhao,Hongbin Shen,Steven R.Nutt,Usman Sorathia.Flammability Properties and Mechanical Performance of Epoxy Modified Phenolic Foams[J].Journal of Applied Polymer Science,2007,104:1399–1407
Phenolic foams from wood tar resols[J].Journal of Applied Polymer Science,2010,115:923–927
Development of microwave foaming method for phenolic insulation foams[J].Journal of materials processing technology,2008,201:716-719
Online since: December 2014
Authors: Daniel Rodrigues, Flavia P. Vitoretti, Leonardo V. Tavares, Marcos F. de Campos, Kaio S.T. de Souza, José A. de Castro
F. de Campos: Materials Science Forum Vols. 530-531 (2006) p. 146
A. de Castro: Materials Science Forum Vol. 660-661 (2010), p. 279
A. de Castro: Materials Science Forum Vol. 727-728 (2012), p. 151
Kimura: Materials Science Forum Vol. 654-656 (2010), p. 2919
Ferrante: Journal of Materials Science Letters Vol. 16 (1997), p. 1902
A. de Castro: Materials Science Forum Vol. 660-661 (2010), p. 279
A. de Castro: Materials Science Forum Vol. 727-728 (2012), p. 151
Kimura: Materials Science Forum Vol. 654-656 (2010), p. 2919
Ferrante: Journal of Materials Science Letters Vol. 16 (1997), p. 1902
Online since: October 2015
Authors: Marion Merklein, Réjane Hörhold, Martin Müller, Gerson Meschut
By using suitable combinations of materials it is possible to improve the functional performance as well as the safety of car bodies and to reduce the consumption of raw materials at the same time.
The clinching technology can be used to join dissimilar good formable materials but the quality and strength of the joint generally decreases for materials with higher tensile strength.
Nishinoa: Mechanical clinching of ultra-high strength steel sheets and strength of joints, Journal of Materials Processing Technology 214-10 (2014), 2112-2118
Brun, Latest Developments in Sheet Metal Forming Technology and Materials for Automotive Application: the Use of Ultra High Strength Steels at Fiat to Reach Weight Reduction at Sustainable Costs, Key Engineering Materials 344 (2007) 1-8
Roll: Development of a Mechanical Joining Process for Automotive Body-In-White Production, International Journal of Material Forming 3 (2010), 1059-1062
The clinching technology can be used to join dissimilar good formable materials but the quality and strength of the joint generally decreases for materials with higher tensile strength.
Nishinoa: Mechanical clinching of ultra-high strength steel sheets and strength of joints, Journal of Materials Processing Technology 214-10 (2014), 2112-2118
Brun, Latest Developments in Sheet Metal Forming Technology and Materials for Automotive Application: the Use of Ultra High Strength Steels at Fiat to Reach Weight Reduction at Sustainable Costs, Key Engineering Materials 344 (2007) 1-8
Roll: Development of a Mechanical Joining Process for Automotive Body-In-White Production, International Journal of Material Forming 3 (2010), 1059-1062