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Materials Science and Engineering, 582, 234–240
Laser Beam Welding of High Reflectivity Materials: A Comparative Study.
Welding Journal, 97(8), 134–140
International Journal of Materials Science and Applications, 5(3), 45–58
Advances in Welding Science, 50(7), 449–460.

Materials Science and Engineering: R: Reports, 28(1-2): p. 1-63
Journal of Materials Research(USA), 8(5): p. 1179-1184
Journal of Materials Science, 31(13): p. 3589-3596
Materials, 8: p. 29–35
Journal Application Polymer Science, 100:p.4748-4756

Acknowledgements This work is financially supported by the National Natural Science Foundation (31370700) References [1] Y.Y.
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Knowing that for practical applications, thermoelectric (TE) materials must have S ≥ 200 μV/K [28], which suggests zinc antimonide as a good material.
Okamura et al, « Preparation of single-phase ZnSb thermoelectric materials using a mechanical grinding process », Materials transactions, vol. 51, p. 860‑862, 2010
Niedziolka et al, « Influence of the Exchange–Correlation Functional on the Electronic Properties of ZnSb as a Promising Thermoelectric Material », Journal of Electronic Materials, vol. 44, p. 1540‑1546, 2015
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Zheng, « Recent advances on thermoelectric materials », Front.

When modifying polymers, physical methods of exposure are increasingly used, ensuring the activation of materials and high performance characteristics.
One way to eliminate the disadvantages is the development of the polymeric composites materials (PCM) with introduction of complex fillers [5-9].
Materials and Methods of Research The object of research are polytetrafluoroethylene PTFE (the PN brand, GOST 10007-80) and composites on its basis.
Kryzhanovsky, Technology of polymeric materials, St.
Ancharov et al., Mechanocomposites precursors for creation of materials with new properties editor-in-chief O.I.

To validate that the abrasive tool with heat pipe can safely and steadily grind materials, the structure of abrasive tool was finite element analyzed which included static analysis.
In conclusion, the abrasive tool with heat pipe can safely and steadily grind materials.
The experimental material is titanium alloy TC4.
Journal of South China University of Technology ( Natural Science Edition ), Vol. 40 ( 2012 ) No.5, p. 13 ( In Chinese )
Journal of South China University of Technology ( Natural Science Edition ), Vol. 40 ( 2012 ) No.12, p. 47 ( In Chinese )

Gur: Length scale effects and multiscale modeling of thermally induced phase transformation kinetics in NiTi SMA, Modelling and Simulation in Materials Science and Engineering 25(4) (2017), 045002
Muralidharan: Atomistic simulation of shape memory effect (SME) and superelasticity (SE) in nano-porous NiTi shape memory alloy (SMA), Computational Materials Science 152 (2018), 28-37
Gargarella: Revisiting Cu-based shape memory alloys: Recent developments and new perspectives, Journal of Materials Research 37(1) (2022), 162-182
Xie: Enhanced mechanical properties of polycrystalline Cu-Al-Ni alloy through grain boundary orientation and composition control, Materials Science and Engineering: A 650(2016), 218-224
Halle: Review of types, properties, and importance of ferrous based shape memory alloys, Korean Journal of Materials Research 28(7) (2018), 381-390

Natural fibers are waste materials and used in construction materials for reinforcement.
American Society for Testing and Materials
Journal of Engineering Sciences, Assiut University, Vol. 40, No 1, pp.21-34, January 2012
Pertanika Journal of Science and Technology. 19 (1): 33 – 43
Journal of Applied Sciences, 10: 2211-2216.

(b) The properties of materials are isotropy during analysis.
Swain: Structure and Properties of Ceramics-volume 11 of Materials Science and Technology.
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Introduction Materials engineering involves knowledge of the fundamental physics, chemistry and engineering of materials in order to elaborate, develop, and use materials with superior and new properties.
By understanding the properties of materials, materials engineers create new materials with desired properties.
The Master program of University of Pitesti „Science and technology of materials" is developed with The National Polytechnique Institute from Toulouse in collaboration with 6 partner universities from France and Institute of Materials Science of Barcelona (ICMAB).
The research activities are typically in materials engineering field.
The research activities are typically in materials engineering field.