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Materials Science and Engineering: A, 835:142690, feb 2022
Materials & Design, 204:109684, jun 2021
Materials Science and Engineering: A, 877:145179, June 2023
Materials Science and Engineering: A, 703:251-261, 2017
Materials Science and Engineering: A, 802:140660, jan 2021

Golestaneh: Materials & Design (2012) Vol.33, pp.384-94
Gowthaman: Indian Journal of Engineering & Materials Sciences (2007) Vol.12, pp.177-83
Sandhu: International Journal of Physical Sciences (2010) Vol. 5, pp. 074-85
Journal of Petroleum Science and Engineering (2009) Vol.65, pp.23-32
Australian Journal of Basic and Applied Sciences (2010) Vol.4, pp.1668-75

As soil is a type of complicated materials with mechanical properties closely tying with the stress condition it suffered, centrifugal shaker shows great superiority to the research of soil dynamics and geotechnical earthquake engineering.
Charles WW NG, Hong Kong University of Science and Technology, and Prof.
[2] Jianqun JIANG, Huafei ZHOU, Tuqiao ZHANG: China Journal of Highway and Transport.
Vol.32-3(2010), p.368 (in Chinese ) [4] Min Zhang and Charles WW NG: Chinese Journal of Rock Mechanics and Engineering.
NIST (1998) [7] M.W.Gui, D.S.Jeng: Open Civil Engineering Journal.

The deposition of wear resistant coatings is a technique that works well for hard materials like tool steels.
Other authors found similar behavior for uncoated soft materials [15].
This mainly happens if soft materials are used, which was the case here.
Journal of Materials Research 17, (2011) 3133-3138
Hutchings, Three-body abrasive wear testing of soft materials, Wear 233–235, (1999) 209-221

Analysing the strain distribution and deformation mechanism of composite materials in the transverse or along the thickness direction is the basis for further improving the mechanical property analysis of composite materials and guiding the structural design of composite materials [8-10].
Materials Science Forum. 971(2019) 36-44
Journal of Materials Science. 47(2012) 5002-5012
Transverse strength prediction of composite materials via micromechanics model J.
Accurate three-dimensional characterization of the nonlinear material constitutive properties for laminated composite materials D.

The raw solid materials commonly used to make the geopolymer include metakaolin, coal fly ash, ground granulated blast furnace slag (slag), etc.
Experimental Program Materials: The physical and chemical properties of raw materials to make the alkali-activated slag-metakaolin geopolymer used in this study are described as follows, 1.
Davidovits, J., “Geopolymers: Inorganic Polymeric New Materials,”Journal of Thermal Analysis, 37, 1633–1656 (1991)
Allahverdi, “Investing shrinkage changes of natural pozzolan based geopolymer cement paste,” Iranian Journal of Materials Science &Engineering,Vol. 8, No. 3, pp 50-60. (2011)
Provis, “Mechanical and thermal characterisation of geopolymers based on silicate-activated metakaolin/slag blends,” Journal of Materials Science, Vol. 46, No. 16, pp 5477-5486 (2011).

Lv: Aerospace Materials & Technology, Vol.35 (2006) No. 5 p. 11
Shindo: Materials Science and Engineering: A, Vol.167 (1993) No. 1-2 p. 187
Zhang: Journal of Nanjing University (Natural Sciences), Vol.45 (2009) No. 002 p. 234
Zhang: Aerospace Materials & Technology, Vol.33 (2003) No. 2 p. 1
Hou: Rare Metal Materials and Engineering, Vol. 38 (2009) No.003 p. 456

The material of the first sample is cross-linked polyethylene, and the material of the second sample is low-smoke non-halogen cross-linked polyolefin.
In our test the material’s end-of-life point is set at 50% of the original elongation at break values.
The materials in our test are cross-linked polyethylene and low-smoke non-halogen cross-linked polyolefin.
Determine the end-of-life time of the material.
Reference [1].R.Z.Aminov, A.E.Borisenkov and N.A.Oleinik, Atomic Energy, Vol.94, Number, Number 4, (2003), p.278 [2].A.A.Potapov,V.M.Panin and S.G.Ukharov,Atomic Energy,Vol.100,(2006), p.302 [3].Li Zang, China Safety Science Journal Vol.02(2000), p.16,In Chinese [4].Tie-jun Wang, Naval University of Engineering Journal Vol.01(2000), p.15, In Chinese [5].Zhong-qi Yu, Tianjing Business School Journal Vol.03(2002), p.d32, In Chinese [6].Hun-Jiang wang, “Wire and cable Manual A”, Mechanical Industry Press, 2001, In Chinese

Journal of Lanzhou University (Natural Sciences).
Karger-Kocsis: Journal of Applied Polymer Science Vol. 115(3) (2010), p.1651 [6] Shojaei, M.
Saffar: Journal of Materials Science Vol. (2010), p.1 [7] A.I.
Effect of grafting cellulose acetate and methylmethacrylate as compatibilizer onto NBR/SBR blends [J].Materials and Design.
Iran Polymer Journal.

Heat Transfer Enhancement of the Heat Pipe Using SiO2-water Nanofluid Yuying Gong1,a, Weilin Zhao1,b*, Zongming Liu 1,c, Yanfang Niu 1,d 1University of Jinan, School of Materials Science and Engineering, Jinan 250022, China agongyyjiayou@163.com, b*mse_zhaowl@ujn.edu.cn, cost_liuzm@ujn.edu.cn, d15275315039@139.com Keywords: Heat pipe, Nanofluid, Heat transfer enhancement, Particle concentration Abstract.
(a) (b) 1- Heat pipe, 2- Electric heating belt, 3- Insulation materials, 4- Thermocouple, 5- Ammeter, 6- Voltage regulator, 7- Data acquisition unit, 8- Heat pipe bracket Fig. 3.
Kahani: International Journal of Heat and Fluid Flow Vol. 30 (2009), p. 700-705
Morjan: International Journal of Heat and Mass Transfer Vol. 54 (2011), p. 656–661
Hamed: International Journal of Heat and Mass Transfer Vol. 55 (2012), p. 3423-3436