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Ramesh et al [4] placed Ti-6Al-4V in difficult to machine materials category.
Materials Characterization, 2003. 51(2): p. 131-139
Journal of the mechanical behavior of biomedical materials, 2009. 2(1): p. 20-32
Materials and Manufacturing Processes, 2008. 23(2): p. 174-181
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Journal of Iron and Steel research. 2011,18(S1-2):769-772
Brief Introduction of GB 150.2-2011 Pressure vessels-Part 2：Materials.
[13] GB/T4340.1.Metallic Materials-vickers hardness test, Part1:test method,2009 (National Standard, In Chinese)
[14] GB/T228.1.Metallic materials-Tensile testing, Part1:Method of test at room temperature,2010 (National Standard, In Chinese)
Transactions of Materials and Heat Treatment,2013,34(4):143-147

Acknowledgement This research was financially supported by the National Natural Science Foundation of China under the project contract 51502104 and foundation of key laboratory of inorganic nonmetallic crystalline and energy conversion materials, China Three Gorges University.
Jiang, Journal of Materials Science, 43 (2008) 6799-6833
Oguma, Journal of Nuclear Materials, 110 (1982) 215-222
Abe, Materials Transactions, 37 (2007) 1511-1517
Ivers-Tiffée, in: Risoe Iinternational Symposium on Materials Science: High Temperature Electrochemistry: Ceramics and Metals, 1996

Such materials are a variety of composite [10-12].
Materials and Methods In the course of the investigation, the powder of Ti-6Al-4V alloy, obtained using plasma atomization, was used as the main material.
Key Engineering Materials (2015).
Key Engineering Materials (2015).
Metal additive manufacturing: a review //Journal of Materials Engineering and Performance. – 2014. – Т. 23. – №. 6. – С. 1917-1928

The application of microwave sintering in material science and processing is very broad.
Mirzaee: Journal of Alloys and Compounds.
Wen: Materials Letters.
Magnetic Materials and Devices.
Magnetic Materials and Devices.

Materials and construction technologies are captured in these national monuments.
Tojiev, A mixture of ceramic bricks and blocks used in construction of mausoleum of Ismail Samani, Journal of Development of science and technology. 5 (2019) 82-87
Tojiev, Physical-chemical research of building materials of architectural monuments of Ancient Bukhara, Materials of the XIII International Scientific and Practical Conference.
Materials of the international symposium “Modern resource-saving materials and technologies: prospects and application”.
Tojiev, Creation of mortars, corresponding parameters to the original, Polish science journal. 1 (34) 2021.

[2] Wen, C.E., Yamada, Y., Shimojima, K., Chino, Y., Hosokawa, H. and Mabuchi, M. (2002) Novel titanium foam for bone tissue engineering, Journal of Materials Research 17, 2633-2639
[6] Mcpherson, R., Gane, N. and Bastow, T.J. (1995) Structural characterization of plasma sprayed hydroxyapatite coatings, Journal of Materials Science Materials in Medicine 6, 327-334
[8] Kurzweg, H., Heimann, R.B. and Troczynski, T. (1998) Adhesion of thermally sprayed hydroxyapatite-bond-coat systems measured by a novel peel test, Journal of Materials Science Materials in Medicine 9, 9-16
[9] Zhitomirsky, I. and Gal-Or, L. (1997) Electrophoretic Deposition of Hydroxyapatite, Journal of Materials Science Materials in Medicine 8, 213-219
[10] Liu, D.M., Troczynski, T. and Hakimi, D. (2002) Effect of hydrolysis on the phase evolution of water-based sol-gel hydroxyapatite and its application to bioactive coatings, Journal of Materials Science Materials in Medicine 13, 657-665

Abstract.Reinforced soil has been among the most effective soil modification materials.
The advances of these materials have usually been considered by an increase in their applications.
This idea can be a start point for using other material such as waste material in soil.
MATERIAL Composite materials consist of two parts.
REFERENCES [1] Akbulut, S., Arasan, S. and Kalkan, E. (2007) Modification of clayey soils using scrap tire rubber and synthetic fibres, Journal of Applied Clay Science 38, 23-32

Synthesis and Gas Sensing Properties of Urchin-like CuO SelfAssembled by Nanorods through a Poly(ethylene glycol)-Assisted Hydrothermal Process Jiang-Ying Li 1,2,a, Baojuan Xi 1,b , Jun Pan 1,c and Yitai Qian1,3,d. 1 Department of Chemistry, Hefei National Laboratory for Physical Sciences at Microscale and Department of Materials Science & Engineering, University of Science and Technology of China, Hefei 230026(China) 2 Institute of Materials Chemistry, School of Materials Science Engineering, Tongji University, 1239 Siping Road, Shanghai 200092(China) 3 Key Laboratory of Colloid and Interface Chemistry, Shandong University, ministry of Education, Jinan, 250100(China) a enjoy@mail.ustc.edu.cn, bxbaojuan@mail.ustc.edu.cn, cpanjun@mail.ustc.edu.cn, d ytqian@ustc.edu.cn.
The materials were dispersed in ethylene glycol and ultrasonicated into slurry before fabricating the sensors.
Nair: Applied Surface Science Vol. 150 (1999), p. 143
Takita: Journal of Materials Chemistry Vol. 8 (1998), p. 2037
Lei: Materials Letters Vol. 63 (2009), p. 519

Experiment Materials.
Park, Preparation of porous ultrafine poly(vinyl cinnamate) fibers, Materials Letters 59 (28) (2005) 3558–3562
Azad, Fabrication of yttria-stabilized zirconia nanofibers by electrospinning, Materials Letters 60 (1) (2006) 67–72
Park, Effect of pH on electrospinning of poly(vinyl alcohol), Materials Letters 59 (12) (2005) 1571–1575
Baumgarten, Electrostatic spinning of acrylic microfibers, Journal of Colloid and Interface Science 36 (1) (1971) 71–79