Search results

The existence of these micro-defects accelerate the material breaking process, eventually leading to the mechanical properties of materials decreased.
Polina, Weak increase of the dynamic tensile strength of aluminum melt at the insertion of refractory inclusions, Computational Materials Science, 2016, 114: 178-182
Cheng, Effects of hot deformation parameters on microstructures and hardness of 3003 aluminum alloys, Materials Science and Technology, 2012, 20 (5): 116-120
Zou, Experimental Research on dynamic recrystallization of 3003 aluminum alloy, Journal of Materials Engineering, 2011, 8: 77-81
Kaszuwara, Metal particles size influence on graded structure in composite Al2O3-Ni, Materials and technology, 2016, 50 (4): 537–541

References [1] S.B.Guo, F.X.Lv and Y.H.Wang: Journal of Functional Materials, Vol. 12 (2006) No.37, pp.1935-1937.
[2] Busch John V and Dismukes John P: Diamond and Related Materials,Vol. 3 (1994) , pp.295-297
[3] Telling R H: International Journal of Refractory Metal & Hard Materials,Vol. 16 (1998), pp.269-276
[6] T.B.Huang, J.M.Liu and W.Z.Tang: Journal of university of Science and technology Beijing ,Vol. 2 (2000) No. 22, pp.153-155.
[7] Slack G A and Bartram S F: Journal of Applied Physics, Vol. 46 (1975), pp.89 - 98

The trend towards lightweight construction in automotive engineering causes additional effort and higher expense in vehicle manufacturing, because new materials or, respectively, new material combinations require adapted production and processing methods.
By this innovative joining method, a firmly bonded and non-aging connection between textile and metallic materials is to be produced, without the need of any adhesive materials or associated preparative cleaning methods.
In this context, new lightweight materials and material combinations as well as appropriate processes or rather joining technologies are focused by current research and development activities [1; 2].
Wottschel, Recent Developments for Laser Beam Joining of CFRP-aluminum Structures, Procedia Materials Science, Vol. 2 (2013) 250–258 [2] W.
Dyzia, Development of textile-reinforced carbon fibre aluminium composites manufactured with gas pressure infiltration methods,, Journal of Achievements in Materials and Manufacturing Engineering, Vol. 35/2 (2009) 177–183 [3] S.

Martinelli, Journal of Sol-Gel Science and Technology, 22 (2001) 167-179
Sh.Makhmudov, Journal of Optoelectronics and Advanced Materials 5(2003) 899-902
Pijolat, Materials Science and Engineering C, 26, 2-3 (2006) 186-195
Martinelli, Advanced Materials, 11, 943 (1999)
Martinelli, Journal of Material Research, 13, N o 5 (1998) 1335-1344

The effect of different concentrations of raw materials was investigated in the SHS experiments.
[2] S.K.Mishra, S.Das and L.C.Pathak: Materials Science and Engineering A364 (2004), p. 249-255
[4] S.Zhu, W.G.Fahrenholtz, G.E.Hilmas and S.C.Zhang: Materials Science and Engineering A459 (2007), p. 167-171
[5] A.K.Khanra, L.C.Pathak and M.M.Godkhindi: Journal of Materials Processing Technology 202 (2008), p. 386-390
[10] O.Yücel, F.Ç.Şahin and A.Tekin: High temperature Materials and processes 15 (1996), p. 103-109

Cold roll bonding bond strengths: review, Materials Science and technology, 27 (2011) 1101-1108
A modified shear test for adhesion evaluation of thermal sprayed coating, Materials Science and Engineering A, 251 (1998) 166-172
Cold roll bonding of 5754-aluminum strips, Materials Science and Engineering A, 335 (2002) 186-190
Control of intermetallic compound layers at interface between steel and aluminum by diffusion-treatment, Materials Science and Engineering A, 338 (2002) 44-53
The role of surface preparation parameters on cold roll bonding of aluminum strips, Journal of Materials Engineering and Performance, 20 (2011) 190-197

Experimental Materials.
Sahu, Jow-Lay Huang, Deposition of Ag-based Al-doped ZnO multilayer coatings for the transparent conductive electrodes by electron beam evaporation, Solar Energy Materials & Solar Cells, 91 (2007) 851–855
Rusop, Photoluminescence and Structural Properties of Gold-Assisted Zinc Oxide Nanorods, Malaysian Journal of Science (Special Edition), 28 (2009) 197-201
Wang, H.Q.Zhang, Y.Qiu, Y.Lang, G.Q.Liu, J.Y.Ji, J.X.Ma, Z.W.Zhao, Studying the Raman spectra of Ag doped ZnO films grown by PLD, Materials Science in Semiconductor Processing, 14 (2011) 274–277
Kim, Facile and fast synthesis of flower-like ZnO nanostructures, Materials Letters, 93 (2013) 52-55

Matt Faculty of Science and Technology, Free University of Bolzano, Via Sernesi 1, I-39100 Bolzano, Italy dominik.matt@unibz.it Keywords: Material handling, make-to-order, lean, axiomatic design.
Manual materials handling is a component of many jobs and activities undertaken in life.
Eastman: Materials Handling, Marcel Dekker, Inc., New York, 1987
Journal of Manufacturing Technology Management, Birmingham (2008), Vol. 19/7, pp. 783-797
Randall: A Guide to Manual Materials Handling and Back Safety.

School of Materials Science and Engineering, Beihang University, Beijing 100083, PR China afeiwu2008@gmail.com, bcsc@buaa.edu.cn Keywords: Li ion battery; gel polymer electrolyte; PAMMGL; electrochemical Abstract.
These GPEs have ionic conductivity higher than 10-3 S cm-1, electrochemical stability domain extending from 0 to as high as 4.5V versus Li/Li+ to be compatible with cathode and lithium materials.
Through hydrogen atom number calculation, the mole ratio of AN, MMA, MPGA and LiAc in PAMMGL is 15.2:2.2:0.07: 0.58, which is in accord with the monomer ratio of starting materials (15.23:2.27:0.07:0.58).
[6] Anantha Iyenger Gopalan, Padmanabhan Santhosh, Kalayil Manian Manesh, et al.: Journal of Membrane Science Vol. 325 (2008), p. 683-690 [7] Chi S.
[18] Anantha Iyengar Gopalan, Kwang-Pill Lee, Kalayil Manian Manesh, et al.: Journal of Membrane Science Vol. 318 (2008), p. 422–428 [19] Lan Zhang, Shichao Zhang : Electrochimica Acta Vol. 54 (2008), p. 606–610 [20] Zhan-liang Wang, Zhi-yuan Tang: Electrochimica Acta Vol. 49 (2004), p. 1063–1068 [21] Zhen-Yu Cui, You-Yi Xua, Li-Ping Zhu, et al.: Journal of membrane science Vol. 325(2008), p. 957-963

A way to improve the thermal properties of the PLA is the addition of fibers or filler materials [4][2] K.
Experimental Materials.
Elaeis Guineensis fibres (EGF) were obtained from Sime Darby Plantation in Labu, Negeri Sembilan in the form of long strands. 4,4'-Methylenediphenyl Diisocyanate (DESMODUR® 44V20L) with a denisty of 1.23 g/cm3 was supplied by Bayer Material Science, 3-Aminopropyltriethoxysilane (APS) was purchased from Sigma-Aldrich and Reagent grade, sodium hydroxide (NaOH) was purchased from Bendosen Laboratory Chemicals.
Journal of Applied Polymer Science, 85 (2002) 169–176
Yusof, “Oil Palm Bio-Fiber Reinforced Thermoplastic Composites-Effects of Matrix Modification on Mechanical and Thermal Properties,” Journal of Applied Science, 10, (2010) 3271-3276 [17] Mohanty AK, Mubarak AK and Hinrichsen G, “Surface modification of jute and its influence on performance of biodegradable jute-fabric/biopol composites,” Composites Science Technology, 60 (2000) 1115-1124 [18] Tao Yu, Jie Ren, Shumao Li, Hua Yuan and Yan Li, “Effect of fiber surface-treatments on the properties of poly(lactic acid)/ramie composites” Composites Part A, 41 (2010) 499-505 [19] C.Chen, B.Fei, S.Peng, Y.