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Online since: December 2024
Authors: Mohamed Y. Mohamed, Ibrahim Al Daour, Maen Alkhader, Wael Abuzaid, Basil Darras, Mohammad Nazzal
In addition, materials can exhibit unexpected responses at high rates.
Hence, it is imperative to comprehensively understand the high-strain-rate behavior of materials.
Ma, “Friction stir welding and processing,” Materials science and engineering: R: reports, vol. 50, no. 1–2, pp. 1–78, 2005
Springer Science & Business Media, 2010
Calviani, “Effect of strain-rate and temperature on mechanical response of pure tungsten,” Journal of Dynamic Behavior of Materials, vol. 5, pp. 296–308, 2019
Hence, it is imperative to comprehensively understand the high-strain-rate behavior of materials.
Ma, “Friction stir welding and processing,” Materials science and engineering: R: reports, vol. 50, no. 1–2, pp. 1–78, 2005
Springer Science & Business Media, 2010
Calviani, “Effect of strain-rate and temperature on mechanical response of pure tungsten,” Journal of Dynamic Behavior of Materials, vol. 5, pp. 296–308, 2019
Online since: June 2008
Authors: Manuel Marya
New materials are
regularly developed without the insurance robust welding processes, including weld schedules, are available to
overcome unavoidable variations in microchemistry, thermomechanical processing, and therefore materials
properties.
A comparison of the two industries with respect to materials and welding processes.
Many of the materials listed in Table 1 are highly alloyed and include ferrous, nickel (aerospace-type) and cobalt alloys (superalloys); i.e. materials produced as bar or hollow products and certainly not seen in the automotive industry.
Bruckner, Welding Journal, Vol. 84, No.6 (2006), pp.38. 5.
Marya, Materials Science Forum, Vols. 539-543 (2007), p.4013.
A comparison of the two industries with respect to materials and welding processes.
Many of the materials listed in Table 1 are highly alloyed and include ferrous, nickel (aerospace-type) and cobalt alloys (superalloys); i.e. materials produced as bar or hollow products and certainly not seen in the automotive industry.
Bruckner, Welding Journal, Vol. 84, No.6 (2006), pp.38. 5.
Marya, Materials Science Forum, Vols. 539-543 (2007), p.4013.
Online since: February 2011
Authors: De Rong Duan, Song Wang, Fang Zhao, Dong Ning Su
., had been a hot in the sand market, was widely used in building materials, coal and other departments [1,2].
The Material is crushed by the collision between great kinetic energy materials and the general materials or cutting board in whirl chamber.
The material fall into the rotor could be equally divided to every discharge port by separating cone in the rotor, butt ends is installed on the edge of the discharge port and usually made of high wear resistant materials to reduce the wear [4].
Acknowledgements This work was financially supported by Shandong Natural Science Foundation of China (grant No.
References [1] J.M.Zhang and F.Zhao: JOURNAL OF CHINA COAL SOCIETY, Vol.34 (2009), p.853.
The Material is crushed by the collision between great kinetic energy materials and the general materials or cutting board in whirl chamber.
The material fall into the rotor could be equally divided to every discharge port by separating cone in the rotor, butt ends is installed on the edge of the discharge port and usually made of high wear resistant materials to reduce the wear [4].
Acknowledgements This work was financially supported by Shandong Natural Science Foundation of China (grant No.
References [1] J.M.Zhang and F.Zhao: JOURNAL OF CHINA COAL SOCIETY, Vol.34 (2009), p.853.
Online since: January 2014
Authors: Sigitas Tamulevičius, Iryna Yaremchuk, Asta Tamulevičienė, Tomas Tamulevičius
Properties of such type of materials depend on both the host and the nanoparticles properties, as well as on the morphological details of the dispersion.
Nanocomposites can be defined as multicomponent materials, in which at least one of the phases has dimension in the nanometer range.
One of the promising nanocomposite materials is metal-doped diamond-like carbon films.
Such materials are widely used in biomedical [5], optical [6,7] and solar energy applications[8].
Advanced Materials, Vol 9 (1997), p. 413
Nanocomposites can be defined as multicomponent materials, in which at least one of the phases has dimension in the nanometer range.
One of the promising nanocomposite materials is metal-doped diamond-like carbon films.
Such materials are widely used in biomedical [5], optical [6,7] and solar energy applications[8].
Advanced Materials, Vol 9 (1997), p. 413
Online since: October 2010
Authors: Xu Zhang, Jie Zhou
Optimization and Springback Control of Ultra-high Strength Steel Door Beam Forming Process
Xu Zhang a, Jie Zhou b
College of Material Science and Engineering, Chongqing University, Chongqing PR China 400044
a zxld220715@hotmail.com, bzhoujie@cme.cqu.edu.cn
Key words: ultra-high strength steel; door beam; FEM; hot stamping; springback control
Abstract: The door beam inside the car door is an key component to improve the security of passengers, most great automobile manufacturing companies use ultra-high strength steel plate to manufacture it,however, it is very difficult to form in room temperature,so commonly it is made by hot stamping but the cost is too high.
The analysis of door beam forming process The shape of the door beam part is shown in Figure 1, the material ultra-high strength steel Docol1200M from SSAB steel company of Sweden.
Reference [1] Maki, S., Harada, Y., Mori, K., 2003, Sinter-Joining of Different Metal Powder Compacts Using Resistance Heating, Journal of Materials Processing Technology, 143-144: 561-566
[6] IPPC: Climate Change 2007: The Physical Science Basis.
[14] Abedrabbo, N., Pourboghrat, F., Carsley, J.: Forming of aluminum alloys at elevated temperatures –Part 1: Material characterization.
The analysis of door beam forming process The shape of the door beam part is shown in Figure 1, the material ultra-high strength steel Docol1200M from SSAB steel company of Sweden.
Reference [1] Maki, S., Harada, Y., Mori, K., 2003, Sinter-Joining of Different Metal Powder Compacts Using Resistance Heating, Journal of Materials Processing Technology, 143-144: 561-566
[6] IPPC: Climate Change 2007: The Physical Science Basis.
[14] Abedrabbo, N., Pourboghrat, F., Carsley, J.: Forming of aluminum alloys at elevated temperatures –Part 1: Material characterization.
Online since: October 2014
Authors: Xin Sun, Xi Feng Ding, Wen Jing Wang, Hong Mei Zhang, Hua Na Gao
Introduction
In terms of thermal, mechanic, and optic features, diamond has the extraordinary characters even if compared to other materials[1].
Superhard Materials Engineering, 2010, 22(1): 22-30
Advanced Materials Industry, 2008(8): 49-54
New Carbon Materials, 2002, 17(1): 62-70
Influence of methane concentration on crystal growing process in CVD free standing diamond films[J]Journal of Inorganic Materials, 2007, (3):570-576
Superhard Materials Engineering, 2010, 22(1): 22-30
Advanced Materials Industry, 2008(8): 49-54
New Carbon Materials, 2002, 17(1): 62-70
Influence of methane concentration on crystal growing process in CVD free standing diamond films[J]Journal of Inorganic Materials, 2007, (3):570-576
Online since: March 2011
Authors: Roman Šturm, Janez Grum
Conf. on ”New Heat Treating Technology of Metallic Materials”, Ed.: B.
Grum: Journal of Achievements in Materials and Manufacturing Engineering, Vol. 24, No. 1, 2007, p. 17-25
Vannes: Applied Surface Science, Vol. 205, 2003, p. 289–296
Kaplan: Applied Surface Science, Vol. 245, 2005, p. 316–321
Okabayashi: The 8th Congress on Heat Treatment of Materials, Heat & Surface´92, Ed.: Tamura, Tokyo, Japan, 1992, p. 441-444.
Grum: Journal of Achievements in Materials and Manufacturing Engineering, Vol. 24, No. 1, 2007, p. 17-25
Vannes: Applied Surface Science, Vol. 205, 2003, p. 289–296
Kaplan: Applied Surface Science, Vol. 245, 2005, p. 316–321
Okabayashi: The 8th Congress on Heat Treatment of Materials, Heat & Surface´92, Ed.: Tamura, Tokyo, Japan, 1992, p. 441-444.
Online since: January 2012
Authors: M.S.J. Hashmi, Bekir Sami Yilbas, Y.A. Al-Shehri
[3] Jun Wang, Ke Li, Da Shu, Xin He, Baode Sun, Qixin Guo, Mitsuhiro Nishio and Hiroshi Ogawa: Materials Science and Engineering Vol.
Hashmi: Journal of Materials Processing Technology, Vol.92-93 (1999), p.203-208
[6] Wangyu Hu, Meiheng Li and Masahiro Fukumoto: Materials Science and Engineering, Vol. 478 (2008), p.1-8 [7] R.S.Lima, J.
Pharr: Improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments J of Materials Research, Vol. 7 (1992), p. 1564-1580
Indentation fracture toughness of brittle materials for palmqvist cracks Fracture Mechanics of Ceramics, Vol. 5 (1983), p. 97-105
Hashmi: Journal of Materials Processing Technology, Vol.92-93 (1999), p.203-208
[6] Wangyu Hu, Meiheng Li and Masahiro Fukumoto: Materials Science and Engineering, Vol. 478 (2008), p.1-8 [7] R.S.Lima, J.
Pharr: Improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments J of Materials Research, Vol. 7 (1992), p. 1564-1580
Indentation fracture toughness of brittle materials for palmqvist cracks Fracture Mechanics of Ceramics, Vol. 5 (1983), p. 97-105
Online since: July 2016
Authors: Jie Jun Wang, Yan Ge Liu, Di Yang Xia
Materials and fabrication methods
The glulam beams tested in this study are made of Northeast Dahurian Larch, with the average density of 0.55 g/cm3 and the average moisture content of 13%, referred to single-layer plank with specifications for 2100 mm x 150 mm x 30 mm.
Actually, glulam beams are composed of two materials, namely planks and structural adhesives.
In the following analyses, glulam is simplified as transversal isotropic materials in this paper.
Journal of Northeast Forestry University, 2011,39(6): pp. 49-51.
Wood Science and Technology, 2002,36(3): pp. 367-383.
Actually, glulam beams are composed of two materials, namely planks and structural adhesives.
In the following analyses, glulam is simplified as transversal isotropic materials in this paper.
Journal of Northeast Forestry University, 2011,39(6): pp. 49-51.
Wood Science and Technology, 2002,36(3): pp. 367-383.
Online since: April 2015
Authors: Mohd Mustafa Al Bakri Abdullah, Andrei Victor Sandhu, Raluca Cristache, Viorica Vasilache, Ion Sandu, Ana Maria Budu
Carol I, No. 22, 700506 Iasi, Romania
3 Gheorghe Asachi Technical University of Iasi, Faculty of Materials Science and Engineering, Blvd.
Mangeron 41, 700050, Iasi, Romania 4 Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia 5 Romanian Inventors Forum, Str.
The red lakes were made using madder (Rubia tinctorum), insects (Dactylopius coccus for cochineal, Kermes ilicis for carmine lake) or textiles coloured with these materials [1].
Materials and techniques The purpose of this paper was to analyze some of the lake used to cover the silver leaf in ecclesial art and the technique used to produce them in the first half of 19th century.
Picollo, The San Pietro Martire Triptych By Beato Angelico: Materials Characterization By Means Of Integrated Non-Invasive Spectroscopic Measurements, International Journal of Conservation Science, 4 (2013) 673-680.
Mangeron 41, 700050, Iasi, Romania 4 Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia 5 Romanian Inventors Forum, Str.
The red lakes were made using madder (Rubia tinctorum), insects (Dactylopius coccus for cochineal, Kermes ilicis for carmine lake) or textiles coloured with these materials [1].
Materials and techniques The purpose of this paper was to analyze some of the lake used to cover the silver leaf in ecclesial art and the technique used to produce them in the first half of 19th century.
Picollo, The San Pietro Martire Triptych By Beato Angelico: Materials Characterization By Means Of Integrated Non-Invasive Spectroscopic Measurements, International Journal of Conservation Science, 4 (2013) 673-680.