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Maier, et al: Materials Science and Engineering A, Vol.1-2(2005),p.318
Altenbere: Materials Science and Engineering A, Vol.379(2004),p.286
Cammett: International Journal of Fatigue, Vol.26(2004), p.975
Ocana: Applied Surface Science, Vol.252(2005), p.883
Guangyi: Material Engineering, Vol.11(2008),p.68

An in-line test of the NaI- and YAP radiation-detectors for monitoring the weld-pool was carried out on the non-vacuum electron beam equipment at the Institute of Materials Science ("Institut für Werkstoffkunde - (IW)") of the Leibniz University Hanover (LUH).
On electron beam welding alloys or dissimilar parent materials, the materials and alloying elements involved are particularly important.
Dobmann: Nondestructive testing and evaluation of materials using magnetic sensors: defect detection.
Zeitschriftenaufsatz, Metallurgical and material transactions A, physical metallurgy and materials science, Band 27A (1996) Heft 10, pp. 3162-3169, ISSN 1073-5623 [24] T.
Zeitschriftenaufsatz, Journal of materials science letters, Band 15 (1996) Heft 10, pp. 827-830, ISSN 0261-8028 [25] X.

The process, outlined in Fig. 1, involves the use of a pulsed laser in order to generate high magnitude pressure pulses on the surface of target materials.
Sano et al., Improvement in fatigue performance of friction stir welded AA6061-T6 aluminium alloy by laser peening without coating, Materials and Design 36 (2012) 809-814
Ocaña et al., Laser shock processing as a method for surface properties modification of metallic materials, In: Proceedings of the 9th International Conference on Shot Peening: Paris, France, (2005) 446-471
Dorman et al., Effect of laser shock peening on residual stress and fatigue life of clad 2024 aluminium sheet containing scribe defects, Materials Science and Engineering 548 (2012) 142-151
Application to high cycle fatigue behaviour, Material Science and Engineering 210 (1996) 102-113

Recycling Automotive Parts and Components Model Recycling is a car spare parts and materials available according to the nature of the classification of parts and components to achieve reuse or recycling of materials; Regeneration is a new product in the use of used or obsolete parts and components and materials [2] Reference foreign auto recycling experience, Combined with the actual situation in China, through the dismantling of waste motor vehicle recycling process research, the authors put forward the resources the used car model of the process of recovery, as shown in Fig.1.
Recycling vehicles including parts and materials re-use the re-use; it should be mainly at the design stage to consider two aspects of this design strategy.
Fig.3 the disassembly of the design criteria for the design (2) Guidelines to reduce the types of materials.
Reference [1] Z.H.Tian: Journal of Hunan University Vol.10 (1997)No.5, p.43 -49
Kaires: International Glass Journal Vol.22(2002)No.121, p.37-40 [3] X.Z.Jia: Modern mechanical design theory and method (Science Press, Beijing 1990)

While, Traditional slicing methods in the rapid forming process always produce ‘staircase’ or additional support structure which reduce deposition accuracy and efficiency, bring about the dissipation of materials.
Introduction Rapid forming (RF) is an additive manufacturing technology that produces material parts layer by layer directly from 3D CAD models under the control of computer systems.
Acknowledgement This research was supported by the China Natural Science Foundation ( No. 50975286, No.50765030), Ministerial Level Foundation (No.9140A27040310OC8501), and Key Laboratory Foundation of Defense science and technology (No.9140C85020210OC8505).
Computing and Information Science in Engineering Vol.1(2001), p.129 [3].
Tyberg J, Bohn J H : Rapid Prototyping Journal, Vol. 4 (1998),p.118 [7].

Determined by the formula of resistance which was used in the columniform and even materials, R0 = ρL / S and the formula of the parallel resistance, R2 = R0 / F.
A statistical model of electrical resistance of carbon fiber reinforced composites under tensile loading [J].Composites Science and Technology 2008(68): 2214–2219
Applied Science and Manufacturing, 2004(10): 1135-1147 [7] Chingtang Huang, Chienlung Shen, Chienfa Tang, et al.
Design and Analysis of Woven Structure-Based Flexible Strain Sensor [J].Journal of Transduction Technology, 2008, 21(7):1132-1136.
Journal of Textile Research,2009，30（6）：34-38.

Introduction As a new type of structure material, magnesium alloy has high potential for its so many merits.
Twin grains were generated in the material after pre-deformation, so both nucleation number and plasticity of the material were increased.
Acknowledgements This study was financially supported by the Natural Science Foundation of Beijing, China under the contract No. 3093024, and the Science Foundation of Beijing Jiaotong University under the contract No. 2007XM035, References [1] Yang Y.
And He L.J.: The Chinese Journal of Nonferrous Metal.Vo1. 19 (2009), p. 1887 [6] Hui X.D., Cheng G.
Acta Materialia Vol.55(2007), p. 4067 [8] Zeng W.D., Zhou Y.G., Zhou J.: Rare Metal Materials and Engineering.Vol.35(2006), p. 673 [9] Shanghai Jiaotong University: Metallographic analysis.

wearing ring abrasion X32 wearing ring losing side X33 spindle excessive wear X34 rigid coupling failure X35 lubrication water stopping X36 impurities permeating X37 rubber flat plate failure X38 thrust pad excessive wear X39 spindle axis misalignment X40 non-uniform stress X41 small baffle gap X42 thrust pad excessive deformation X43 lubricating and cooling oil system fault X44 thrust runner excessive wear X45 thrust runner cavitation X46 excessive parallel branch circulation magnetic potential X47 fractional slot subharmonic resonance X48 contact-rubbing fault X49 out-of-round generator stator and rotor X50 magnetic pole protrusion X51 decentraction between generator stator and rotor X52 local short circuit X53 stator single-phase grounding fault X54 damping winding fault X55 thrust bearing slackness X56 generator mass unbalance X57 runner mass unbalance X58 bearing slackness X59 excesssive load X60 excesssive radial load X61 bearing deformation X62 guide vane get stuck X63 foreign materials
strike volute X64 unbalance opening degree in guide vane X65 foreign materials strike runner blade X66 asymmetry current in volute X67 interblade vortices resonance X68 Karmen vortices resonance X69 draft tube vortices resonance X70 unbalanced pressure in water seal X71 asymmetry current in Guide Vane Fault Tree Analysis.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Grant No.51065002) and Natural Science Foundation of Guangxi (Grant No.0991055).
Zhang: An Analysis of Stopage of Hydroelectric Generating Set by Accident and Research on the Fault Diagnosis Expert System, Journal of Xi'an University of Technology, (1998) No.14, pp.201-205.
Cai: Fuzzy fault tree diagnosis and application, Engineering Journal of Wuhan University, (2001) No.34, pp:93-105.

Material and processing parameters are given in Table 2.
Polymer Engineering and Science, 31(11):765–71, 1991
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Composites Science and Technology, 66:1067–1080, 2006
International Journal Of Multiphase Flow, 14(2), 1988

HAP is a material that widely used in bone and dental surgery.
Materials and Methods Sample preparation.
Journal of Ceramic Processing Research, 10(2), (2009)129–138
IOP ConferenceSeries: Materials Science and Engineering, 299 (1), (2018) 1-7
Journal of Thermal Analysis and Calorimetry, 95(1), (2009) 21-29