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Materials and methods PCL pellets (Mw = 70,000-90,000), gelatin powder were purchased from Sigma-Aldrich.
Mishra, Fabrication and characterization of PCL/gelatin composite nanofibrous scaffold for tissue engineering applications by electrospinning method, Materials Science and Engineering. 3 (2013) 1228-1235
Ramakrishna, Polypyrrole-contained electrospun conductive nanofibrous membranes for cardiac tissue engineering, Journal of Biomedical Materials Research Part A. 99A (2011) 376-385
Lee, Hydrophilized polycaprolactone nanofiber mesh-embedded poly(glycolic-co-lactic acid) membrane for effective guided bone regeneration, Journal of Biomedical Materials Research Part A. 91A (2009) 400-407
Chung, Electrospun nanofibers composed of poly(ε-caprolactone) and polyethylenimine for tissue engineering applications, Materials Science and Engineering: C. 29 (2009) 1725-1731

There are thermal insulation materials between the device and the specimen.
International Journal of Pressure Vessel and Piping. 1982, 10(1): 11-30
Life assessment for metallic materials with the use of the strain criterion for low-cycle fatigue.
International Journal of Fatigue, 2009, 31(10): 1579-1587
Journal of pressure vessel technology, 2011, 133:041601

Mathematical Modeling of the Process of Reduction of the Material Consumption of Gas Transmission System Elements Narine Pirumyan1,a*, Mihran Stakyan1,b and Hmayak Khazaryan2,c 1National University of Architecture and Construction of Armenia, 105 Teryan Street, Yerevan, Republic of Armenia 2"Gazprom Armenia" CJSC, Tbilisyan Highway, 43, Yerevan, Republic of Armenia a*pirumyannarine@gmail.com, bstakyan.mihran@yandex.ru, chmayakkhazaryan@yahoo.com Keywords: Structural materials, Gas transmission system, Corrosion fatigue, Corrosion coefficient, Surface hardening, Anti-corrosion coating, Material consumption, Material defects, Low-carbon and low-alloy structural steels.
Steklov, Resistance of materials and structures to stress corrosion, Mashinostroenie, Moscow, 1990
Chibukhchyan, M.G.Stakyan O.S.Chibukhchyan, Improving the Carrying Capacity of Structural Elements of Vehicles by the Corrosive Strength Criterion, Journal of Machinery Manufacture and Reliability, 48(6) (2019) 551-556
Stakyan, G.Galstyan, Mathematical modeling of the test process of construction materials, Key Engineering Materials. 828 (2019) 115–120
Galstyan, Software processing of the test results of building materials, Key Engineering Materials. 828 (2019) 121-128

Materials and Experimental Methods Used Materials: Polytetrafluroethylene powder particles (PTFE) were used for reinforcement in this work.
Vikrant, Deshpande, Thermal Properties of Acrylonitrile Butadiene Styrene Composites, Indian Journal of Advances in Chemical Science. 1 (2016) 279-282
Raja, Bollampally, Thermal conductivity, elastic modulus and coefficient of thermal expansion of polymer composites filled with ceramic particles for electronic packaging, Journal of Applied Polymer Science. 74 (1999) 396-403
[4] Anton Panda, Kostiantyn Dyadyura, Jan Valícek, Marta Harnicarova, JozefZajac, Vladimir Modrak, Iveta Pandova, Peter Vrabel, Ema Novakova-Marcincinova, Zdenek Pavelek, Manufacturing Technology of Composite Materials-Principles of Modification of Polymer Composite Materials Technology based on Polytetrafluroethylene, Materials. 10 (2017)377-383
Kim, Bio-based PCM/ carbon-Nano materials composites with enhanced thermal conductivity, Solar Energy Materials. 120 (2014) 549-554

Introduction As electrolyte materials, poly(vinylidene fluoride) blended polystyrene sulfonated acid (PVDF-g-PSSA) membrane was widely applied to the direct methanol fuel cell and low temperature all-solid-state gas sensors because of its good proton-conductivity and low methanol permeation coefficient[1].
Experimental Materials The PVDF(white solid) kindly provided by Shanghai San Ai New Material Limited company, was dried for 24 h in a vacuum oven prior to use.
Wang: Journal of Membrane Science, Vol. 219 (2009), p. 1
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Sundholmf: Journal of Polymer Science Part B-Polymer Physics, Vol. 37(1999), p. 2893

International Journal of Fatigue ,1199,21:S199-S209 [2] Grevey D, Maiffredy L, Vannes A B, Journal of Materials Science,1992,27:p2110~2116 [3] G.
Rubio-Gonzalez et al, Applied Surface Science 252 (2005) 883-887 [4] X.D.Ren,Y.K.
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Acknowledgements The authors wish to thank to the European Regional Development Fund (ERDF) for financial support of the projects ITMS:26220120014 and ITMS:26220120048 “Center for development and application of advanced diagnostic methods in processing of metallic and non-metallic materials” funded within the Research & Development Operational Programme, to the Slovak Academy of Sciences for the support in the frame of the “Center of Excellence for functional multiphase materials“ (FUN-MAT), to the Slovak Research and Development Agency (APVV) for the financial support under the contract APVV-0076-11, as well as to the Grant Agency of the Ministry of Education, Science, Research, and Sport of the Slovak Republic and the Slovak Academy of Sciences (VEGA) for the financial support under the contracts 1/0143/12, 2/0111/11, and 1/0339/11.
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The micro milling technology has the advantage to remove materials mechanically using a miniature tool to fabricate complex micro components on a variety of engineering materials.
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Advanced Material and Process.
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In ocean science research, it often requires the integrity of the gas content in samples of seawater.
Fig. 3b is a mesh model of the PTEF coated O-ring which is made from two materials.
Annual Review of Earth Planetary Sciences, 2002, 30：385-491
Journal of Oceanography, 2002. 58: 775-785
CHINESE JOURNAL OF MECHANICAL ENGINEERING. 2011, accepted.