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Online since: November 2020
Authors: Ivan Petryshynets, Ivana Kirkovska, Viera Homolová, Lucia Čiripová
Beside high hardness, boron alloyed steels are identified as high wear, strength, corrosion and temperature resistant materials [1].
Bright, New generation ultrahigh strength boron steel for automotive hot stamping technologies, Materials Science and Techno. 30 (2013) 818-826
Gao, Effects of chromium on the morphology and mechanical properties of Fe2B intermetallic in Fe-3.0B alloy, Journal of Materials Science 53 (2018) 5329-5338
[11] International Organization for Standardization, BS EN ISO 14577-1:2002 Metallic materials-Instrumented indentation test for hardness and materials parameters Part 1: Test Method, ISO, Switzerland, 2002
Nemecek (EDs), Nanoindentation in Materials Science, InTech., Rijeka, 2012, 25-52
Bright, New generation ultrahigh strength boron steel for automotive hot stamping technologies, Materials Science and Techno. 30 (2013) 818-826
Gao, Effects of chromium on the morphology and mechanical properties of Fe2B intermetallic in Fe-3.0B alloy, Journal of Materials Science 53 (2018) 5329-5338
[11] International Organization for Standardization, BS EN ISO 14577-1:2002 Metallic materials-Instrumented indentation test for hardness and materials parameters Part 1: Test Method, ISO, Switzerland, 2002
Nemecek (EDs), Nanoindentation in Materials Science, InTech., Rijeka, 2012, 25-52
Online since: December 2012
Authors: Ming Hwa R. Jen, Che Kai Chang, Jing Guan Chen, Bo Cyuan Lin
., v≥25m/s, the use of tough matrix materials may result in more laminate tensile and flexural strength reduction than that of brittle matrix materials.
The nanoparticles SiO2 (Nanostructured & Amorphous Materials, Inc.
T.Custis: Composites Science and Technology Vol.23 (1985), p.221
Sun: Journal of Composite Materials Vol.19 (1985), p.56
Friedrich: Composites Science and Technology Vol. 65 (2005), p. 635
The nanoparticles SiO2 (Nanostructured & Amorphous Materials, Inc.
T.Custis: Composites Science and Technology Vol.23 (1985), p.221
Sun: Journal of Composite Materials Vol.19 (1985), p.56
Friedrich: Composites Science and Technology Vol. 65 (2005), p. 635
Online since: July 2015
Authors: Alfredo Hernández, J. Federico Chávez, Raquel E. Hernández
The semi-solid material was solidified in the mold and preliminary microstructural characterization was performed.
ACKNOWLEDGMENTS The authors acknowledge the financial support from National Council for Science and Technology (CONACyT) and SIP-IPN.
REFERENCES [1] Kotadia, H.R., Hari, B.N., Zhang, H., Arumuganathar, S., Fan, Z., Solidification Behavior of Intensively Sheared Hypoeutectic Al-Si Alloy Liquid, The Minerals, Metals & Materials Society and ASM International (2010); Metallurgical and Materials Transactions A, DOI:10.1007/s11661-010-516-8
[3] Rosso, M., Thixocasting and rheocasting technologies, improvements going on, Journal on Achievements in Materials and Manufacturing Engineering, Vol. 54, 1, (2012), pp 113-114
[6] Figueredo, K., Flemings, M.C., Viscosity of semi-solid A357 alloy in the transient high shear rate regime, Metallurgical Science and Technology (2000); Vol. 18 (2), pp 32-36
ACKNOWLEDGMENTS The authors acknowledge the financial support from National Council for Science and Technology (CONACyT) and SIP-IPN.
REFERENCES [1] Kotadia, H.R., Hari, B.N., Zhang, H., Arumuganathar, S., Fan, Z., Solidification Behavior of Intensively Sheared Hypoeutectic Al-Si Alloy Liquid, The Minerals, Metals & Materials Society and ASM International (2010); Metallurgical and Materials Transactions A, DOI:10.1007/s11661-010-516-8
[3] Rosso, M., Thixocasting and rheocasting technologies, improvements going on, Journal on Achievements in Materials and Manufacturing Engineering, Vol. 54, 1, (2012), pp 113-114
[6] Figueredo, K., Flemings, M.C., Viscosity of semi-solid A357 alloy in the transient high shear rate regime, Metallurgical Science and Technology (2000); Vol. 18 (2), pp 32-36
Online since: July 2015
Authors: P.J.J. Kok, Henk Vegter, W. Spanjer
In the automotive industry this higher strength enables lightweight, fuel-efficient designs which are nevertheless safer than those using conventional materials.
Science 84 (2014) 339-349 [2] S.M.T.
Journal for Numerical Methods in Engineering 79, issue 11 (2009) 1309-1331 [5] P.
Science 46 (20??)
Kouznetsova, Computational homogenization for the multi-scale analysis of multi-phase materials, PhD.
Science 84 (2014) 339-349 [2] S.M.T.
Journal for Numerical Methods in Engineering 79, issue 11 (2009) 1309-1331 [5] P.
Science 46 (20??)
Kouznetsova, Computational homogenization for the multi-scale analysis of multi-phase materials, PhD.
Online since: December 2012
Authors: Abdul Syukor Mohamad Jaya, Md Nizam Abd Rahman, Siti Zaiton Mohd Hashim, A. Samad Hasan Basari, Habibollah Haron, Muhd Razali Muhamad
It effects the friction level and material pick-up behaviour of cutting tool upon sliding with workpiece material [5].
Experiment Material and Method.
Dowling, Journal of Materials Processing Technology 155-156 (2004) 1861-1866
Clemens, Progress in Materials Science 51 (2006) 1032-1114
Vleck, Material Chemistry and Physics 54 (1998) 116-122
Experiment Material and Method.
Dowling, Journal of Materials Processing Technology 155-156 (2004) 1861-1866
Clemens, Progress in Materials Science 51 (2006) 1032-1114
Vleck, Material Chemistry and Physics 54 (1998) 116-122
Online since: January 2013
Authors: Tadeusz Mikolajczyk
Rapid prototyping using robot is made with metallic [11] and non metallic [10,12] materials.
Advanced Materials Research, vol. 463-464, (2012), pp. 1643-1646 [4] H.
Mikolajczyk, Robot-turner, Advanced Materials Research, vol. 463-464, (2012), pp. 1682-1685 [7] T.
Mikolajczyk, Robot application to surface finishing, Journal of Polish CIMAC, vol. 5, nr 3, (2010), pp. 107-112 [10] J.
Advanced Materials Research, vol. 463-464 (2012), pp. 708-711 [16] T.
Advanced Materials Research, vol. 463-464, (2012), pp. 1643-1646 [4] H.
Mikolajczyk, Robot-turner, Advanced Materials Research, vol. 463-464, (2012), pp. 1682-1685 [7] T.
Mikolajczyk, Robot application to surface finishing, Journal of Polish CIMAC, vol. 5, nr 3, (2010), pp. 107-112 [10] J.
Advanced Materials Research, vol. 463-464 (2012), pp. 708-711 [16] T.
Online since: June 2020
Authors: Hisaki Watari, Shinichi Nishida, Toshio Haga, Kirito Itou
Kim, "Continuous Casting and Rolling for Aluminum Alloy Wire and Rod", Materials Science Forum, 638-642(2010)255-260
Jabłoński, Effect of Iron Addition to Aluminium on the Structure and Properties of Wires Used for Electrical Purposes, Materials Science Forum, 690(2011)459-462
Gold, Solidification Conditions and Microstructure in Continuously Cast Aluminum JOURNAL OF METALS April 1982, Volume 34(1982)28–34
Miyake, Investigation of Side-Dam Plate in Single-Wheel Caster for Casting Rods: Key Engineering Materials, Vol. 805(2019), p. 31-36 [10] T.
Miyake, Fabrication of Aluminum Alloy Rods Using a Single Wheel Caster with Rotating Side Dam Plates and Pool-Less Pouring: Key Engineering Materials, Vol. 792(2018), p. 35-40.
Jabłoński, Effect of Iron Addition to Aluminium on the Structure and Properties of Wires Used for Electrical Purposes, Materials Science Forum, 690(2011)459-462
Gold, Solidification Conditions and Microstructure in Continuously Cast Aluminum JOURNAL OF METALS April 1982, Volume 34(1982)28–34
Miyake, Investigation of Side-Dam Plate in Single-Wheel Caster for Casting Rods: Key Engineering Materials, Vol. 805(2019), p. 31-36 [10] T.
Miyake, Fabrication of Aluminum Alloy Rods Using a Single Wheel Caster with Rotating Side Dam Plates and Pool-Less Pouring: Key Engineering Materials, Vol. 792(2018), p. 35-40.
Online since: May 2004
Authors: E. Başaran, Tolga Tavşanoğlu, S. Alkoy, O. Addemir
Adnan Tekin High Technological Ceramics & Composites
Research Center, Istanbul, Turkey
2
Gebze Institute of Technology, Department of Physics, Gebze, Kocaeli, Turkey
3
Gebze Institute of Technology, Department of Materials Science & Engineering, Electronic
Materials Laboratory, Gebze, Kocaeli, Turkey
Keywords: thin films, functionally graded coatings, diamond-like carbon, SIMS
Abstract.
Experimental Studies A high-speed steel (HSS - Thyssen DIN 13343) was used as a substrate material in our experiments.
From Fig. 2 (b), the main constituent of the HSS substrate material, Fe, is located at the center (right hand side of the figure).
Grill: IBM Journal of Research and Development, Vol. 43 (1999), p. 147 [2] O.H.
Felix: Materials Science and Engineering A, Vol.
Experimental Studies A high-speed steel (HSS - Thyssen DIN 13343) was used as a substrate material in our experiments.
From Fig. 2 (b), the main constituent of the HSS substrate material, Fe, is located at the center (right hand side of the figure).
Grill: IBM Journal of Research and Development, Vol. 43 (1999), p. 147 [2] O.H.
Felix: Materials Science and Engineering A, Vol.
Online since: January 2022
Authors: Sidra Siraj, Waleed Ahmed, Ali H. Al-Marzouqi
Furthermore, because PLA is significantly denser than other service polymeric materials (ex.
Therefore applications prefer polymer-composite materials over pure polymer.
Reinforced composite materials utilize silica-based fibers to enhance mechanical performance [8].
Mechanical Characterization American Society for Testing and Materials was used to test the material, the ASTM code is identified by D 638.
Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications.
Therefore applications prefer polymer-composite materials over pure polymer.
Reinforced composite materials utilize silica-based fibers to enhance mechanical performance [8].
Mechanical Characterization American Society for Testing and Materials was used to test the material, the ASTM code is identified by D 638.
Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications.
Enhanced Amorphization by Sn Substitution for Si and B in the Ball-Milled Ti50Ni22Cu18Al4Si4B2 Alloy
Online since: July 2004
Authors: Jian Xu, L.C. Zhang, Z.Q. Shen
Journal Citation (to be inserted by the publisher)
Copyright by Trans Tech Publications
Enhanced Amorphization by Sn Substitution for Si and B in the
Ball-milled Ti50Ni22Cu18Al4Si4B2 Alloy
L.C.
Xu * Shenyang National Laboratory for Materials Science, Institute of Metal Research, CAS, 72 Wenhua Road, Shenyang, 110016, China Keywords: Mechanical Alloying, Amorphous Alloys, Supercooled Liquid Region, Titanium Abstract Element Sn is substituted for metalloid elements Si and B in the Ti50Ni22Cu18Al4Si4B2 alloy to form the Ti50Ni22Cu18Al4Snx(Si0.67B0.33)6-x (x=0, 3, 6) series alloys for high-energy ball milling.
They are promising as a new family of light-weight materials with high specific strength.
Consequently, the powder processing and subsequent warm consolidation in the vicinity of glass transition temperature of the glassy alloys is still an attractive approach to prepare the truly bulky materials [7-13].
The alloyed buttons were then crushed into fragments that were used as starting materials for ball milling.
Xu * Shenyang National Laboratory for Materials Science, Institute of Metal Research, CAS, 72 Wenhua Road, Shenyang, 110016, China Keywords: Mechanical Alloying, Amorphous Alloys, Supercooled Liquid Region, Titanium Abstract Element Sn is substituted for metalloid elements Si and B in the Ti50Ni22Cu18Al4Si4B2 alloy to form the Ti50Ni22Cu18Al4Snx(Si0.67B0.33)6-x (x=0, 3, 6) series alloys for high-energy ball milling.
They are promising as a new family of light-weight materials with high specific strength.
Consequently, the powder processing and subsequent warm consolidation in the vicinity of glass transition temperature of the glassy alloys is still an attractive approach to prepare the truly bulky materials [7-13].
The alloyed buttons were then crushed into fragments that were used as starting materials for ball milling.