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Online since: December 2011
Authors: Hu Cai, Peng Zhang, Yuan Xun Wang
Surface coefficient of heat transfer of materials
temperature (°C)
20
100
200
300
400
500
600
700
800
900
1000
copper electrode (W/m2·°C)
0
11.16
15.31
19.96
25.62
32.57
41.02
51.20
63.29
77.50
94
DP600
(W/m2·°C)
25
Thermoelectric Properties of Materials.
Chicago, USA, 2004, 539~545 [3] Shi G, Westgate S.A, Resistance spot welding of high strength steels, International Journal for the Joining of Materials, 2004, 16 (1)9~14 [4] Agashe S, Zhang H, Selection of schedules based on heat balance in resistance spot welding, Welding Journal, 2003 (7)179~183 [5] Aslanlar S, The effect of nucleus size on mechanical properties in electrical resistance spot welding of sheets used in automotive industry.
Materials and Design, 2006, 27, 125~131 [6] Xu J.H, Jiang X.P, Zeng Q,et al, Optimization of resistance spot welding on the assembly of refractory alloy 50Mo-50Re thin sheet, Journal of Nuclear Materials, 2007, 366, 417~425 [7] Aslanlar S, Ogur A, Ozsarac U, et al, Effect of welding current on mechanical properties of galvanized chromided steel sheets in electrical resistance spot welding, Materials and Design, 2007, 28, 2~7 [8] Kahraman N, The influence of welding parameters on the joint strength of resistance spot-welded titanium sheets, Materials and Design, 2007, 28, 420~427 [9] Bouyousfi B, Sahraoui T, Guessasma S, et al, Effect of process parameters on the physical characteristics of spot weld joints.
Materials and Design, 2007, 28, 414~419 [10] Long X, Khanna S.K, Fatigue properties and failure characterization of spot welded high strength steel sheet, International Journal of Fatigue, 2007 29, 879~886 [11] Sun D.Q, Lang B, Sun D.X, et al, Microstructures and mechanical properties of resistance spot welded magnesium alloy joints, Materials Science and Engineering A, 2007, 460-461: 494 ~498 [12] Kearns W.H, Welding Processes, AWS Welding Handbook, 3. 7th ed.
Journal of Materials Processing Technology, 2008, 327~335 [14] Marashi P, Pouranvari M., Amirabdollahian S, et al, Microstructure and failure behavior of dissimilar resistance spot welds between low carbon galvanized and austenitic stainless steels, Materials Science and Engineering A, 2008, 480 (1-2)175~180 [15] Wang L, Wang M., Lu F.G, Dynamic simulation of resistance spot welding of zinc-coated steels, China Welding, 2006, 15(4)39~42 [16] Gould, Modeling primary dendrite arm spacings in resistance spot welds: PartⅠ-modeling studies, Welding Journal, 1994, 73(4)67~74 [17] Gould, Modeling primary dendrite arm spacings in resistance spot welds: PartⅡ-experimental studies, Welding Journal, 1994, 73(5)91~100
Chicago, USA, 2004, 539~545 [3] Shi G, Westgate S.A, Resistance spot welding of high strength steels, International Journal for the Joining of Materials, 2004, 16 (1)9~14 [4] Agashe S, Zhang H, Selection of schedules based on heat balance in resistance spot welding, Welding Journal, 2003 (7)179~183 [5] Aslanlar S, The effect of nucleus size on mechanical properties in electrical resistance spot welding of sheets used in automotive industry.
Materials and Design, 2006, 27, 125~131 [6] Xu J.H, Jiang X.P, Zeng Q,et al, Optimization of resistance spot welding on the assembly of refractory alloy 50Mo-50Re thin sheet, Journal of Nuclear Materials, 2007, 366, 417~425 [7] Aslanlar S, Ogur A, Ozsarac U, et al, Effect of welding current on mechanical properties of galvanized chromided steel sheets in electrical resistance spot welding, Materials and Design, 2007, 28, 2~7 [8] Kahraman N, The influence of welding parameters on the joint strength of resistance spot-welded titanium sheets, Materials and Design, 2007, 28, 420~427 [9] Bouyousfi B, Sahraoui T, Guessasma S, et al, Effect of process parameters on the physical characteristics of spot weld joints.
Materials and Design, 2007, 28, 414~419 [10] Long X, Khanna S.K, Fatigue properties and failure characterization of spot welded high strength steel sheet, International Journal of Fatigue, 2007 29, 879~886 [11] Sun D.Q, Lang B, Sun D.X, et al, Microstructures and mechanical properties of resistance spot welded magnesium alloy joints, Materials Science and Engineering A, 2007, 460-461: 494 ~498 [12] Kearns W.H, Welding Processes, AWS Welding Handbook, 3. 7th ed.
Journal of Materials Processing Technology, 2008, 327~335 [14] Marashi P, Pouranvari M., Amirabdollahian S, et al, Microstructure and failure behavior of dissimilar resistance spot welds between low carbon galvanized and austenitic stainless steels, Materials Science and Engineering A, 2008, 480 (1-2)175~180 [15] Wang L, Wang M., Lu F.G, Dynamic simulation of resistance spot welding of zinc-coated steels, China Welding, 2006, 15(4)39~42 [16] Gould, Modeling primary dendrite arm spacings in resistance spot welds: PartⅠ-modeling studies, Welding Journal, 1994, 73(4)67~74 [17] Gould, Modeling primary dendrite arm spacings in resistance spot welds: PartⅡ-experimental studies, Welding Journal, 1994, 73(5)91~100
Online since: December 2011
Authors: Yong Jun Wang, Jian Jun Wu, Tong Zhu, Shang Liang Li, Li Jin
Materials Review, 2003, 17(12) (in Chinese)
[2] Claus Bagger, Flemming O Olsen.
Materials Science Forum, 2003 [4] Muammer Koc, John Culp, Taylan Altan.
Journal of Materials Processing Technology, 2006 [5] Ashok Kumar, Nallathambia, Yalcin Kaymak, Eckehard Spechta, Albrecht Bertrama.
Journal of Materials Processing Technology , 2010 [6] Caner Simsir, C.Hakan Gur. journal of materials processing technology, 2008 [7] Lili Zhao, Yidu Zhang.
Natural Science Journal of Xiangtan University, 2004(in Chinese) [11] Yinglin Ke, Huiyue Dong.
Materials Science Forum, 2003 [4] Muammer Koc, John Culp, Taylan Altan.
Journal of Materials Processing Technology, 2006 [5] Ashok Kumar, Nallathambia, Yalcin Kaymak, Eckehard Spechta, Albrecht Bertrama.
Journal of Materials Processing Technology , 2010 [6] Caner Simsir, C.Hakan Gur. journal of materials processing technology, 2008 [7] Lili Zhao, Yidu Zhang.
Natural Science Journal of Xiangtan University, 2004(in Chinese) [11] Yinglin Ke, Huiyue Dong.
Online since: June 2014
Authors: Izni Mariah Ibrahim, Junaidah Jai, Md Amin Hashim
Experimental method
Materials and Test Solution.
Bagheri, "Studying and investigation corrosion in tube line and gas wells in oil and gas refinery," International Journal of Chemistry, vol. 03, pp. 27-38, 2013
Ebenso, "Corrosion Behavior of Ceftibuten in Hydrochloric Acid Solution," International Journal of Electrochemical Science, vol. 7, pp. 11617-11633, 2012
Zour, "Corrosion Inhibition of Mild Steel using Potato Peel Extract in 2M HCl Solution," International Journal of Electrochemcial Science, vol. 6, pp. 6542-6556, 2011
Strandheim, "AC induced corrosion of carbon steel in 3.5wt% NaCl electrolyte," Department of Materials Science and Engineering, Norwegian University of Science and Technology, 2012
Bagheri, "Studying and investigation corrosion in tube line and gas wells in oil and gas refinery," International Journal of Chemistry, vol. 03, pp. 27-38, 2013
Ebenso, "Corrosion Behavior of Ceftibuten in Hydrochloric Acid Solution," International Journal of Electrochemical Science, vol. 7, pp. 11617-11633, 2012
Zour, "Corrosion Inhibition of Mild Steel using Potato Peel Extract in 2M HCl Solution," International Journal of Electrochemcial Science, vol. 6, pp. 6542-6556, 2011
Strandheim, "AC induced corrosion of carbon steel in 3.5wt% NaCl electrolyte," Department of Materials Science and Engineering, Norwegian University of Science and Technology, 2012
Online since: September 2010
Authors: Bin Liu, Qing Hui Liu, Jin Ping Qu, Sheng Jin Wu
Experimental
Materials.
Journal of Applied Polymer Science, Vol. 68 (1998), p. 483-495
Journal of Macromolecular Science-Chemistry, Vol. 19 (1983), p. 1069-1099
Journal of Applied Polymer Science, Vol. 75 (2000), p. 553-565
Journal of Polymer Science, Part A: Polymer Chemistry, Vol.35 (1997), p. 1461-1467
Journal of Applied Polymer Science, Vol. 68 (1998), p. 483-495
Journal of Macromolecular Science-Chemistry, Vol. 19 (1983), p. 1069-1099
Journal of Applied Polymer Science, Vol. 75 (2000), p. 553-565
Journal of Polymer Science, Part A: Polymer Chemistry, Vol.35 (1997), p. 1461-1467
Online since: July 2016
Authors: Carlo Pellegrino, Lesley H. Sneed, Tommaso D'Antino, Jaime Gonzalez, Christian Carloni
In recent decades the growing need for strengthening and retrofitting existing structures has led to the development of innovative strengthening materials.
Materials employed.
The FRMC materials employed in this study were commercially available from a single manufacturer.
G&P Intech of Altavilla Vicentina, Italy, is gratefully acknowledged for providing the FRCM composite materials.
ACI Material Journal, Vol. 111, No. 1-6, 2014, pp.1-12
Materials employed.
The FRMC materials employed in this study were commercially available from a single manufacturer.
G&P Intech of Altavilla Vicentina, Italy, is gratefully acknowledged for providing the FRCM composite materials.
ACI Material Journal, Vol. 111, No. 1-6, 2014, pp.1-12
Online since: October 2015
Authors: A.S. Yanyushkin, V.Yu. Popov, Y.I. Zamashchikov
Grabchenko, Diamond Grinding of Super-hard Materials, Journal of Materials Processing Technology, 97(1-3), (2000), 120-125
Yoshikawa, Grinding Induced Damage in Ceramics, Journal of Materials Processing Technology, 132(1-3), (2003), 353-364
Bergheau, Residual Stresses Computation in a Grinding Process, Journal of Materials Processing Technology, 147(3), (2004), 277-285
Dahotre, Microgrinding Hypereutectoid Steels Using Laser-modified Corundum Abrasive Materials, International Journal of Machining and Machinability of Materials, 1(1), (2006), 12-26
[20] Medvedeva O.I., Yanyushkin A.S., Popov V.Y., Calculation of the energy of adhesion contact surfaces for instrumental materials by various methods, Science Intensive Technologies in Mechanical Engineering, 35(5), (2014), 14-19 (in Russian)
Yoshikawa, Grinding Induced Damage in Ceramics, Journal of Materials Processing Technology, 132(1-3), (2003), 353-364
Bergheau, Residual Stresses Computation in a Grinding Process, Journal of Materials Processing Technology, 147(3), (2004), 277-285
Dahotre, Microgrinding Hypereutectoid Steels Using Laser-modified Corundum Abrasive Materials, International Journal of Machining and Machinability of Materials, 1(1), (2006), 12-26
[20] Medvedeva O.I., Yanyushkin A.S., Popov V.Y., Calculation of the energy of adhesion contact surfaces for instrumental materials by various methods, Science Intensive Technologies in Mechanical Engineering, 35(5), (2014), 14-19 (in Russian)
Online since: October 2015
Authors: Yue Feng Li, Guang Lin Wang, Hao Yan Wang
And this model provides a new perspective to study the mechanical properties of metallic materials.
Acknowledgement This material is based upon work supported by the China Postdoctoral Science Foundation [grant no.2014M561340], the Heilongjiang Postdoctoral Fund [grant no.
Wang: International Journal of Fatigue, Vol. 0 (2013) No.55, pp.74-80
Gao: Mechanics of Materials, Vol. 12 (2002) No.34, pp.809-820
Lee: International Journal of Plasticity, Vol. 5 (2002) No.18, pp.571-595.
Acknowledgement This material is based upon work supported by the China Postdoctoral Science Foundation [grant no.2014M561340], the Heilongjiang Postdoctoral Fund [grant no.
Wang: International Journal of Fatigue, Vol. 0 (2013) No.55, pp.74-80
Gao: Mechanics of Materials, Vol. 12 (2002) No.34, pp.809-820
Lee: International Journal of Plasticity, Vol. 5 (2002) No.18, pp.571-595.
Online since: February 2011
Authors: Rui Jun Zhang, Jian Hua Liu, Yu Wen Liu, Wei Zhang, Lin Liu, Gui Rong Peng
Science and Technology of Advanced Materials Vol.2 (2001), p.41
[2] Zhang XY, Zhang JW, Wang WK.
Journal of Materials and Engineering Vol.1(2007), p. 44 [7] Wang W K, Kiminami, C S, Sun L L.
Materials Science Forum Vol.312(1999), p.259 [8] Bereta L A, Kiminami C S, Botta F W J.
Journal of Materials Science and Engineering Vol.2(2008), p.43 [12] Pena J, Gil F.J, Guilemany J.M.
Materials Science Forum, Vol.273-275(1998), p.547 [14] Porter D, Easterling K.
Journal of Materials and Engineering Vol.1(2007), p. 44 [7] Wang W K, Kiminami, C S, Sun L L.
Materials Science Forum Vol.312(1999), p.259 [8] Bereta L A, Kiminami C S, Botta F W J.
Journal of Materials Science and Engineering Vol.2(2008), p.43 [12] Pena J, Gil F.J, Guilemany J.M.
Materials Science Forum, Vol.273-275(1998), p.547 [14] Porter D, Easterling K.
Online since: October 2011
Authors: Qiong Wang, Zhen Jun Wang, Guang Ying Yang
Mechanism Analyses of Structure Formation of Cement Asphalt Emulsion Mixtures
Zhenjun WANGa, Qiong WANGb and Guangying YANGc
School of Materials Science & Engineering, Chang’an University, Xi’an 710061, P.
The influences of dosages of two binding materials on the mixtures are different from those on hot-mix asphalt concrete.
Ling: Journal of Tongji University Vol. 26(1998), p. 674
Al-Qadi and H.Gouru: Journal of Transportation Engineering Vol. 120(1994), p. 94
De Gennes: Soft Matter and Rigid Science (Hunan Science and Technology Press, China 2000) (in Chinese) [6]Z.C.Ouyang: Science Vol. 51(1999), p. 36
The influences of dosages of two binding materials on the mixtures are different from those on hot-mix asphalt concrete.
Ling: Journal of Tongji University Vol. 26(1998), p. 674
Al-Qadi and H.Gouru: Journal of Transportation Engineering Vol. 120(1994), p. 94
De Gennes: Soft Matter and Rigid Science (Hunan Science and Technology Press, China 2000) (in Chinese) [6]Z.C.Ouyang: Science Vol. 51(1999), p. 36
Online since: December 2013
Authors: Mohd Nasir Tamin, Sudin Izman, Roozbeh Alipour
K and ζ are constants depended on explosive material.
Materials used in the experiments are aluminum and steel with the yield strength 115Mpa and 250Mpa respectively.
Hosseini, The empirical survey on the effect of using media in explosive forming of tubular shells, World Academy of Science, Engineering and Technology, 60 (2009) 574-579
Makinouchi, Simulation of wrinkling in sheet metal forming, Journal of Materials Processing Technology, 109 (2001) 283-289
Arai, Control of wall thickness distribution by oblique shear spinning methods, Journal of Materials Processing Technology, 212 (2012) 786-793
Materials used in the experiments are aluminum and steel with the yield strength 115Mpa and 250Mpa respectively.
Hosseini, The empirical survey on the effect of using media in explosive forming of tubular shells, World Academy of Science, Engineering and Technology, 60 (2009) 574-579
Makinouchi, Simulation of wrinkling in sheet metal forming, Journal of Materials Processing Technology, 109 (2001) 283-289
Arai, Control of wall thickness distribution by oblique shear spinning methods, Journal of Materials Processing Technology, 212 (2012) 786-793