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Matzke: Journal of Nuclear Materials Vol. 114 (1983), p. 121 [4] A.C.S.
Millot: Journal of Nuclear Materials Vol. 278 (2000), p. 364 [6] T.L.
Turos: Journal of Nuclear Materials Vol. 114 (1983), p. 349 [8] H.
Lambert: Journal of Nuclear Materials Vol. 49 (1974), p. 325 [9] H.
Lambert: Journal of Nuclear Materials Vol. 64 (1977), p. 211

Hocheng conducted ultrasonic drilling on Carbon/Epoxy and Carbon/PEEK to explore the cutting nature, cutting mechanism, and economic effect, and found that ultrasonic drilling can prevent the splitting and burrs of composite materials [3].
Figure 6 shows that the amount of diameter reduction is inversely proportional to the feed rate for all the tested materials.
Hsu.: Preliminary Study of Ultrasonic Drilling of Fiber-Reinforced Plastics, Journal of Materials Processing Technology, Vol. 48 (1995), p. 255-266
Chu: Micro electrochemical milling, Journal of Micromechanics and Microengineering, Vol.15 (2005), p.124-129
Hocheng: Using Borer-Shape Electrode in Electrochemical Smoothing of Holes, Materials Science Forum, Vol.505-507 (2006), p.793-798 [10] S.S.

Tamás Ungár and Bertalan Jóni at the Department of the Materials Physics at Eötvös University for the X-ray profile analysis results.
Journal of Achievements in Material and Manufacturing Engineering, Vol. 32, Issue 2, 162-170
Iranian Journal of Materials Science & Engineering Vol. 7, Number 2, , 14-21
Archives of Materials Science and Engineering Vol. 46, (2), 98-107
Journal of Engineering Materials and Technology, Volume 124., 71-77.

Advanced Materials Research. 535-537:2606-2609 (2012)
Applied Mechanics and Materials. (2012) 148-149 603-607
Journal of Wuhan University of Technology-Materials Science Edition. 23 (2008) 54-59
JOURNAL OF XI AN JIAOTONG UNIVERSITY. 37 (2003) 971-974
Journal of Materials Science and Technology. 23 (2007) 801-805

Methodology Silicon wafer is used as a substrate material.
H., Lever, P., WoWongeung, J. and Jagadish, Production and Processing of Semiconductor Nanocrystals and Nanostructures for Photonic Applications, Institute of Materials Engineering, 26 (2002) 74-80
Mohammed et.al., Silicon Nanocrystals on the Surface of Standard Si Wafers: A Micro-Raman Investigation, Journal of Materials Science and Chemical Engineering, vol.6 no. 7, juJuly2018) 104-116
Journal of Applied Physics, 91 9, (2002)
S38-S49 [15] Veikko Lindroos, Markku Tilli, Ari Lehto, Teruaki Motooka, Handbook of Silicon-Based MEMS Materials and Technologies, Elsevier, William Andrew (2010) 375–407

The numerical cutting model has the ability to find the crack propagation and chip formation that depends characteristics of the materials.
Silberschmidt (2013), ‘FE/SPH modelling of orthogonal micro-machining of f.c.c. single crystal’, Computational Materials Science Vol. 78, pp.104-109
[9] A Mahamani (2014), ‘Influence of Process Parameters on Cutting Force and Surface Roughness During Turning of AA2219-TiB2/ZrB2 In-situ Metal Matrix Composites’, Internal Journal of Procedia Materials Science Vol. 6, pp.1178-1186
Sampath (2011), ‘Effect of In-Situ TiB2 Particle Addition on the Mechanical Properties of AA 2219 Al Alloy Composite’, Journal of Minerals & Materials Characterization & Engineering Vol. 10,No.6, pp.527-534
Papini (2012), ‘Numerical simulation of solid particle impacts on Al6061-T6 Part II: Materials removal mechanisms for impact of multiple angular particles’, Wear 296 Vol. 296, pp.648-655

In blast loads, the mechanical property of materials compares with the mechanical property in the quasi static load is very different, so we must consider the effect of material strain rate in.
In dynamic loads, the concrete material has obvious damage softening effect, and in the action of cyclic loading, material failure and the development of micro cracks in the concrete have relation with the damage accumulation of materials.
International Journal of Mechanical Sciences, Vol. 44(9) (2002), p. 1985-1998
International Journal of Impact Engineering, Vol. 31(6) (2005), p. 699-717
Applied Mechanics and Materials, Vols. 166-169 (2012), p. 1362-1365

Introduction The rock material deformation and failure can be divided into pre-peak and post peak two parts.
So rock materials mainly response a process that rock internal friction angle and cohesion continue ​​decreasing during the Strain-softening stage.
“Study of post-peak strain softening mechanical properties of rock based on mohr-coulomb criterion” , Chinese Journal of Rock Mechanics and Engineering , Vol. 30, issue7, 1460-1466, 2005 [2] MATSUOKA H, Nakai T.
Science in China (ser.
Chinese Journal of Rock Mechanics and Engineering, Vol 29, issue 12, 2398–2409, 2010 [7] JOSEPH T G.

Fitzpatrick, Generic Simulation Approach for Multi-Axis Machining, Part 1: Modeling Methodology, Journal of Manufacturing Science and Engineering, 124 (2002) 624-633
Budak, Modeling of 5-Axis Milling Processes, Machining Science and Technology: An International Journal, 11 (2007) 287-311
Altintas, Virtual Five-Axis Flank Milling of Jet Engine Impellers—Part I: Mechanics of Five-Axis Flank Milling, Journal of Manufacturing Science & Engineering, 130 (2008) 51-51
Kaymakci, Free-Form Surface Machining and Comparing Feedrate Scheduling Strategies Machining Science and Technology: An International Journal, 11 (2007) 117 - 133
Journal of Manufacturing Science and Engineering, 130:051011–12, 2008

The carbon emissions in this stage are mainly the production and processing of all kinds of building materials.
Building materials required in the building include not only steel, concrete which directly constitute the construction entity, but module, scaffold and other auxiliary materials of construction.
The CO2 emissions in building construction stage is produced by construction technology and the transportation of building materials, machinery equipments and solid waste produced in the construction process [8].
However, the recycling of building materials and waste can reduce some carbon emissions.
[5]Ying Chen, Yan Zhu: Journal Tsinghua University (Science & Technology) Vol50(2010),p.325-329,in Chinese