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Online since: September 2016
Authors: Artem Krivtcov, Marina Gravit, Ivanna Popovych, Iurii Mingalimov
Used to date low flammability materials - self-extinguishing - gradually fell out of use due to significant toxicity of emissions during combustion and thermal degradation of materials.
The special attention to the new materials is paid in works [3, 4].
In these works there are studies of properties of intumescing fireproof materials.
Reconstruction of administrative buildings of the 70s: the possibility of energy modernization, Journal of Applied Engineering Science. 12 (2014) 37-44
Melamine/monoammonium phosphate complex as the polyphosphate substitute in flame retardant coatings, Journal of Fire Sciences. 34 (2016) 89-103
The special attention to the new materials is paid in works [3, 4].
In these works there are studies of properties of intumescing fireproof materials.
Reconstruction of administrative buildings of the 70s: the possibility of energy modernization, Journal of Applied Engineering Science. 12 (2014) 37-44
Melamine/monoammonium phosphate complex as the polyphosphate substitute in flame retardant coatings, Journal of Fire Sciences. 34 (2016) 89-103
Online since: December 2009
Authors: Aminollah Mohammadi, Hamid Zarepour
[11] O'Sullivan, D., Cotterell, M., "Temperature Measurement in Single Point Turning", Journal of
Materials Processing Technology, 118, pp. 301-308, (2001)
N., "Effect of Cutting Edge Geometry and Workpiece Hardness on Surface Generation in the Finish Hard Turning of AISI 52100 Steel", Journal of Materials Processing Technology, 94,pp. 216-226, (1999)
M., "The Effect of Cutting Fluid on the Machining of Hardened AISI 4340 Steel", Journal of Materials Processing Technology, 119, pp. 21-26, (2001)
M., Faustino, M., and Paulo Davim, J., "Hard Turning: AISI 4340 High Strength Low Alloy Steel and AISI D2 Cold Work Tool Steel", Journal of Materials Processing Technology, 169(3), pp. 388-395, (2005)
R., "3D FEA Modeling of Hard Turning", ASME Journal of Manufacturing Science and Engineering, 124, pp. 189-199, (2002)
N., "Effect of Cutting Edge Geometry and Workpiece Hardness on Surface Generation in the Finish Hard Turning of AISI 52100 Steel", Journal of Materials Processing Technology, 94,pp. 216-226, (1999)
M., "The Effect of Cutting Fluid on the Machining of Hardened AISI 4340 Steel", Journal of Materials Processing Technology, 119, pp. 21-26, (2001)
M., Faustino, M., and Paulo Davim, J., "Hard Turning: AISI 4340 High Strength Low Alloy Steel and AISI D2 Cold Work Tool Steel", Journal of Materials Processing Technology, 169(3), pp. 388-395, (2005)
R., "3D FEA Modeling of Hard Turning", ASME Journal of Manufacturing Science and Engineering, 124, pp. 189-199, (2002)
Online since: October 2015
Authors: Petr Kurka, Bohuslav Mašek, Hana Jirková, Ivan Vorel
Consequently, new types of materials and processes have to be combined to design new production chains capable to meet this demand.
Further the research was supported from the project SGS-2013-028 „Support of students research activities in materials engineering field”.
Materials Research, 2005, vol. 8 (4), s. 417-423
Materials Science and Engineering A, January 2012, vol. 532, s. 585-592
Materials Science Forum, January 2012, vols. 706-709, s. 2734-2739
Further the research was supported from the project SGS-2013-028 „Support of students research activities in materials engineering field”.
Materials Research, 2005, vol. 8 (4), s. 417-423
Materials Science and Engineering A, January 2012, vol. 532, s. 585-592
Materials Science Forum, January 2012, vols. 706-709, s. 2734-2739
Online since: October 2014
Authors: Agnieszka Sękala, Aleksander Gwiazda, Wacław Banaś
Journal of Materials Processing Technology, vol. 175 no 1/3 (2006), pp. 123-132
International Journal of Materials & Product Technology 33/3 (2008), pp. 213-225
Archives of Materials Science and Engineering 42/2 (2010), pp. 85-92
Journal of Materials Processing Technology 164-165 (2005), pp. 1336 - 1342
Journal of Materials Processing Technology.
International Journal of Materials & Product Technology 33/3 (2008), pp. 213-225
Archives of Materials Science and Engineering 42/2 (2010), pp. 85-92
Journal of Materials Processing Technology 164-165 (2005), pp. 1336 - 1342
Journal of Materials Processing Technology.
Online since: December 2010
Authors: Zhi Wen Zhu, Jia Xu, Jin Wang
Introduction
Shape Memory Alloy (SMA) is a kind of smart materials and applied in engineering field widely.
Acknowledgements The authors gratefully acknowledge the support of the Key Item of the Natural Science Foundation of China (NSFC-Key) through grant no. 10732020 and the Ph.D.
[2] C.Liang and C.A.Rogers: Journal of Intelligent Material System Structure Vol. 1 (1990), p. 207-234
[3] J.G.Boyd and D.C.Lagoudas: International Journal of P1asticity Vol. 12 (1996), p. 805-873
[4] L.C.Brinson: Journal of Intelligent Material Systems and Structures Vol. 4 (1993), p. 229-242 [5] E.J.Graesser and F.A.Cozzarelli: Journal of Intelligent Material Systems and Structures Vol. 5 (1994), p. 78-89 [6] Y.Ivshin and T.J.Pence: Journal of Intelligent Material Systems and Structures Vol. 5 (1994), p. 455-473 [7] F.Auricchio, J.Lubliner: International Journal of Solids and Structures Vol. 34 (1997), p. 3601-3618
Acknowledgements The authors gratefully acknowledge the support of the Key Item of the Natural Science Foundation of China (NSFC-Key) through grant no. 10732020 and the Ph.D.
[2] C.Liang and C.A.Rogers: Journal of Intelligent Material System Structure Vol. 1 (1990), p. 207-234
[3] J.G.Boyd and D.C.Lagoudas: International Journal of P1asticity Vol. 12 (1996), p. 805-873
[4] L.C.Brinson: Journal of Intelligent Material Systems and Structures Vol. 4 (1993), p. 229-242 [5] E.J.Graesser and F.A.Cozzarelli: Journal of Intelligent Material Systems and Structures Vol. 5 (1994), p. 78-89 [6] Y.Ivshin and T.J.Pence: Journal of Intelligent Material Systems and Structures Vol. 5 (1994), p. 455-473 [7] F.Auricchio, J.Lubliner: International Journal of Solids and Structures Vol. 34 (1997), p. 3601-3618
Online since: May 2012
Authors: Hai Qing Ren, Hai Bin Zhou
Materials and Methods
Materials
Preparation of Specimens.
Wood science and technology, 40(8): 631-636 (2006)
[11] American Society for Testing and Materials.
[12] American Society for Testing and Materials.
(In Chinese) [14] American Society for Testing and Materials.
Wood science and technology, 40(8): 631-636 (2006)
[11] American Society for Testing and Materials.
[12] American Society for Testing and Materials.
(In Chinese) [14] American Society for Testing and Materials.
Online since: July 2022
Authors: Michael F. Zaeh, Thomas Merk, Avelino Zapata, Christian Bernauer
Materials and Methods
Materials.
Zhang, Additive manufacturing of metallic components – Process, structure and properties, Progress in Materials Science 92 (2018), pp. 112–224
Jerič, Drop on demand generation from a metal wire by means of an annular laser beam, Journal of Materials Processing Technology 227 (2016), pp. 59–70
Horváth, Enhanced beads overlapping model for wire and arc additive manufacturing of multi-layer multi-bead metallic parts, Journal of Materials Processing Technology 252 (2018), pp. 838–848
Weidong, Research on molten pool temperature in the process of laser rapid forming, Journal of Materials Processing Technology 198 (2008) 1-3, pp. 454–462
Zhang, Additive manufacturing of metallic components – Process, structure and properties, Progress in Materials Science 92 (2018), pp. 112–224
Jerič, Drop on demand generation from a metal wire by means of an annular laser beam, Journal of Materials Processing Technology 227 (2016), pp. 59–70
Horváth, Enhanced beads overlapping model for wire and arc additive manufacturing of multi-layer multi-bead metallic parts, Journal of Materials Processing Technology 252 (2018), pp. 838–848
Weidong, Research on molten pool temperature in the process of laser rapid forming, Journal of Materials Processing Technology 198 (2008) 1-3, pp. 454–462
Online since: November 2012
Authors: Guo Hui Wang, Xiao Ying Zhang, Dan Liu, Xin Hua Deng
Experimental Material
There are seven kinds of main experimental materials as follow.
The MHSH does not contain the defects which the normal materials have, such as grain boundaries, dislocations, holes, etc).
Fire Safety Journal, 1991, 17(1): 1-12
Fire and materials, 1997, 21(6): 265-270
Journal of materials processing technology, 2004, 153: 401-407
The MHSH does not contain the defects which the normal materials have, such as grain boundaries, dislocations, holes, etc).
Fire Safety Journal, 1991, 17(1): 1-12
Fire and materials, 1997, 21(6): 265-270
Journal of materials processing technology, 2004, 153: 401-407
Online since: July 2011
Authors: Yan Yan Huang, Kai Fu Liu, Yi Jun Zhu, Xin Yu Xie, Xiang Ru Yang
The phenomenological models, such as critical state models like Cam-Clay plasticity model, Cap plasticity model, were originally developed for geotechnical materials in soil mechanics [3-5].
International Journal of Solids and Structures, 45 (2008), p.3088-3106
Journal of the Mechanics and Physics of Solids, 43 (1995), p.1409-1431
Science Press (Beijing), 2010, (in Chinese)
Journal of Pharmaceutical Sciences, 93 (2004), p.2040-2053
International Journal of Solids and Structures, 45 (2008), p.3088-3106
Journal of the Mechanics and Physics of Solids, 43 (1995), p.1409-1431
Science Press (Beijing), 2010, (in Chinese)
Journal of Pharmaceutical Sciences, 93 (2004), p.2040-2053
Online since: March 2012
Authors: Zhong Zhou Yi, Ya Shun Chen, Jin Gang Yu, Yan Jiang, Du Shu Huang
Experimental
Materials
Cobalt chloride (AR), nickel sulfate (AR), anhydrous ethanol (AR), potassium sodium tartrate (AR), ammonium acetate (AR), 2-ethylhexyl phosphate (P204), sodium hydroxide (AR), dimethylglyoxime ( AR), nitroso-red salt (AR), sulfuric acid (AR), ammonium persulfate (AR), hydrochloric acid (AR).
Acknowledgements This work was supported by the Scientific Research Foundation of Education Department of Yunnan Provience (No.2011Z133C) and Yunnan Provience Science and Technology Projects (No.2011FZ194).
References [1] ZHU A.S., XU L., SHEN F.F., CHEN Z.: Journal of Zhejiang University of Science and Technology, 2007, 19(3) 169 [2] DU Z.L., ZHANG J.Z., YANG B.M., et al.: Journal of Kunming University of Science and Technology (Science and Technology), 2005, 30(2) 119 [3] ZHANG P.W., ZHU T.: Engineering Chem ist ry &M etallu rgy, 1997, 18(3), 282 [4] Yang Z.K.,: Enviromental protection of chemical industry. 1996,16(4) 195 [5] Cláudio P., Andrea O.
B., et al.: Journal of Membrane Science. 2004, 241(1) 45 [6] D.
Ion Exch., 2001, 19(6), 1059 [7] Zhong T., Le Z.G.: Chemical Industry Times. 2008, 22(10) 56-58 [8] Liang R.W., Wang X.D.: Journal of Water Resources & Water Engineering, 16(4), 2005, 46-48
Acknowledgements This work was supported by the Scientific Research Foundation of Education Department of Yunnan Provience (No.2011Z133C) and Yunnan Provience Science and Technology Projects (No.2011FZ194).
References [1] ZHU A.S., XU L., SHEN F.F., CHEN Z.: Journal of Zhejiang University of Science and Technology, 2007, 19(3) 169 [2] DU Z.L., ZHANG J.Z., YANG B.M., et al.: Journal of Kunming University of Science and Technology (Science and Technology), 2005, 30(2) 119 [3] ZHANG P.W., ZHU T.: Engineering Chem ist ry &M etallu rgy, 1997, 18(3), 282 [4] Yang Z.K.,: Enviromental protection of chemical industry. 1996,16(4) 195 [5] Cláudio P., Andrea O.
B., et al.: Journal of Membrane Science. 2004, 241(1) 45 [6] D.
Ion Exch., 2001, 19(6), 1059 [7] Zhong T., Le Z.G.: Chemical Industry Times. 2008, 22(10) 56-58 [8] Liang R.W., Wang X.D.: Journal of Water Resources & Water Engineering, 16(4), 2005, 46-48