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Online since: December 2024
Authors: Nguyen Van Toan, Nhat Trinh Nguyen, Duy Nam Phan, Thi Minh Kieu Tran, Tran Thi Ngat
This study aims to develop a fabric for underwear that can terminate bacteria and bring comfort to the wearer.
Introduction There are several antibacterial agents for textiles including metals and metal salts [1, 2], triclosan, chitosan [3], quaternary ammonium compounds [4].
Our study aims to develop the crotch portion of knitted cotton boxer briefs with antibacterial properties, allowing for easy replacement.
Jolivet-Gougeon, Emergence of resistance to antibacterial agents: the role of quaternary ammonium compounds—a critical review, International journal of antimicrobial agents 39(5) (2012) 381-389
Mahltig, Photocatalytic and antimicrobial Ag/ZnO nanocomposites for functionalization of textile fabrics, Journal of Alloys and Compounds 610 (2014) 244-249
Introduction There are several antibacterial agents for textiles including metals and metal salts [1, 2], triclosan, chitosan [3], quaternary ammonium compounds [4].
Our study aims to develop the crotch portion of knitted cotton boxer briefs with antibacterial properties, allowing for easy replacement.
Jolivet-Gougeon, Emergence of resistance to antibacterial agents: the role of quaternary ammonium compounds—a critical review, International journal of antimicrobial agents 39(5) (2012) 381-389
Mahltig, Photocatalytic and antimicrobial Ag/ZnO nanocomposites for functionalization of textile fabrics, Journal of Alloys and Compounds 610 (2014) 244-249
Online since: March 2025
Authors: Eduard Hryha, Faraz Deirmina, Nikhil Belsure, Rickard Sandberg, Gowtham Soundarapandiyan
Ti-6Al-4V (Ti64), and the extremely low interstitial (ELI) grade with a maximum of 0.13 wt.% oxygen along with extremely low Fe and C contents are among the most studied alloys by PBF-LB [6].
Examples include promising results with austenitic stainless steels and nickel-based super-alloys like Hastelloy X [10–12].
The latter is critical for alloys like Ti64 ELI with strict oxygen limits imposed by standards and applications.
A further aim was to elaborate on the heat-treated microstructure and mechanical properties.
Van Humbeeck, Heat treatment of Ti6Al4V produced by Selective Laser Melting: Microstructure and mechanical properties, Journal of Alloys and Compounds 541 (2012) 177–185. https://doi.org/10.1016/j.jallcom.2012.07.022.
Examples include promising results with austenitic stainless steels and nickel-based super-alloys like Hastelloy X [10–12].
The latter is critical for alloys like Ti64 ELI with strict oxygen limits imposed by standards and applications.
A further aim was to elaborate on the heat-treated microstructure and mechanical properties.
Van Humbeeck, Heat treatment of Ti6Al4V produced by Selective Laser Melting: Microstructure and mechanical properties, Journal of Alloys and Compounds 541 (2012) 177–185. https://doi.org/10.1016/j.jallcom.2012.07.022.
Online since: April 2018
Authors: Maria Sedelnikova, Yurii P. Sharkeev, Valentina V. Chebodaeva, Aleksandr Zaharenko, Kirill Sergeevich Golohvast
Investigations of microarc calcium phosphate (CaP) boehmite-containing biocoatings on the pure titanium (Ti) alloy were presented.
Microarc oxidation (MAO) is a technique of the surface treatment based on anodic oxidation, which allow to form in–situ grown porous and homogeneous calcium phosphate coatings on such metals as Ti, Al, Mg, Nb and their alloys [5,6].
Presence of the aluminium compounds was not confirm by X-ray diffraction method.
The resulting aluminium oxide is stable and strong compound, which can affect on crystallinity of some fragments in coating [13]. 4.
Prymak, Structure and properties of microarc calcium phosphate coatings on the surface of titanium and zirconium alloys, Russian Physics Journal 56, 10 (2014) 1130-1136
Microarc oxidation (MAO) is a technique of the surface treatment based on anodic oxidation, which allow to form in–situ grown porous and homogeneous calcium phosphate coatings on such metals as Ti, Al, Mg, Nb and their alloys [5,6].
Presence of the aluminium compounds was not confirm by X-ray diffraction method.
The resulting aluminium oxide is stable and strong compound, which can affect on crystallinity of some fragments in coating [13]. 4.
Prymak, Structure and properties of microarc calcium phosphate coatings on the surface of titanium and zirconium alloys, Russian Physics Journal 56, 10 (2014) 1130-1136
Online since: October 2020
Authors: Tobias Brögelmann, Nathan Christopher Kruppe, Kirsten Bobzin, Nina Stachowski
Nevertheless, they can be categorized for technical applications and divided into five groups: Metallic soaps, oxidic and fluoridic compounds, soft materials, compounds with layered lattice structure and polymers [11].
This group of solid lubricants includes sulfidic compounds with molybdenum and tungsten.
Several have lubricating properties such as talc, graphite or synthetically prepared compounds.
Nevertheless, the presented mechanism can also be transferred to other compounds such as tungsten disulfide (WS2) of the TMD series [16].
State of the research is, that promising fields of applications are dry cutting, cutting of titanium alloys as well as hot forming processes such as press hardening.
This group of solid lubricants includes sulfidic compounds with molybdenum and tungsten.
Several have lubricating properties such as talc, graphite or synthetically prepared compounds.
Nevertheless, the presented mechanism can also be transferred to other compounds such as tungsten disulfide (WS2) of the TMD series [16].
State of the research is, that promising fields of applications are dry cutting, cutting of titanium alloys as well as hot forming processes such as press hardening.
Online since: May 2024
Authors: Kaue Riffel, William Haupt, Alexandre Pereira Dall'Oglio, Regis Gonçalves e Silva
The PREn of SDSS ranges from 40 to 42, which is more resistant to pitting than standard DSS alloys with a PREn ranging from 35 to 36 [7-9].
Thus, it is very important to address the formation of deleterious precipitates in the thermal processing of the DSS family materials, bringing a deeper understanding of the formation of σ and χ phases during the manufacturing of these alloys.
This paper aims to expand the knowledge about the effects and phenomena of temperature that affect the hot processing of SDSS.
After the thermal processing of these alloys, a solubilization heat treatment may be indicated in regions previously affected by heating. 5.
Journal of Alloys and Compounds, v. 633, p. 48-53, 2015
Thus, it is very important to address the formation of deleterious precipitates in the thermal processing of the DSS family materials, bringing a deeper understanding of the formation of σ and χ phases during the manufacturing of these alloys.
This paper aims to expand the knowledge about the effects and phenomena of temperature that affect the hot processing of SDSS.
After the thermal processing of these alloys, a solubilization heat treatment may be indicated in regions previously affected by heating. 5.
Journal of Alloys and Compounds, v. 633, p. 48-53, 2015
Online since: October 2007
Authors: Jun Peng, Shi Jun Wang, Li Xia Liu, Yun Zhou, Yuan Chi Dong
Table 1 Thermal data of compounds in Fe-C-N-V system
compound △ G(J.mol-1) K(1708K) compound △ G(J.mol-1) K(1708K)
Fe3C -159302+29.23T 2213.8 Fe2N 16.07011-0.15546T 1.0177
Fe2C -155707+45.40T 245.76 VC -12100+9.58T 0.74069
FeC -97043+11.63T 229.3 V2C -146400+3.35T 20064
FeC2 -40681+172.93T 1.6252×10-8 VC0.73 -97000+6.79T 409.17
Fe4N 11.98001-0.22381T 1.0264 VN -214640+82.43T 181.37
Certification of the model
Experiment.
References [1] J.W.Simmons.Overview: high-nitrogen alloying of stainless steels[J].Materials Science and Engineering, 1996, A207 : 159-169
Binary Alloy Phase Diagrams.
Journal of University of Science and Technology Beijing,1996,18(5):141~418
Journal of University of Science and Technology Beijing,1994,16(1):10~1
References [1] J.W.Simmons.Overview: high-nitrogen alloying of stainless steels[J].Materials Science and Engineering, 1996, A207 : 159-169
Binary Alloy Phase Diagrams.
Journal of University of Science and Technology Beijing,1996,18(5):141~418
Journal of University of Science and Technology Beijing,1994,16(1):10~1
Online since: November 2012
Authors: Kristjan Juhani, Madis Umalas, Ants Lõhmus, Valter Reedo, Irina Hussainova
Introduction
The bonding between carbon with a less electronegative transition metal brings up very stable compounds, metal carbides, which benefit from strong carbon networks and one of the highest melting points of known materials.
Conventionally, the binary solid carbide compounds are synthesized by carbothermal reduction of metal oxides (ZrO2 and TiO2) and amorphous carbon mixture in controlled atmospheres at a temperature between (1700 – 2100 oC).
Flow chart for synthesis of the binary carbide compounds from sol – gel precursors.
ZrC-TiC compounds were synthesized by carbothermal reduction at 1500 oC in argon and vacuum from polymer precursor.
First-principles study of elastic and stability properties of ZrC–ZrN and ZrC–TiC alloys.
Conventionally, the binary solid carbide compounds are synthesized by carbothermal reduction of metal oxides (ZrO2 and TiO2) and amorphous carbon mixture in controlled atmospheres at a temperature between (1700 – 2100 oC).
Flow chart for synthesis of the binary carbide compounds from sol – gel precursors.
ZrC-TiC compounds were synthesized by carbothermal reduction at 1500 oC in argon and vacuum from polymer precursor.
First-principles study of elastic and stability properties of ZrC–ZrN and ZrC–TiC alloys.
Online since: February 2012
Authors: Jun Jie Hao, Zhi Meng Guo, Fang Yang, Yong Liang Shi
In this study, we aim at synthesis of TiB2-Ti(C, N) composite powders with a wide range of compositions through the self-propagating high-temperature synthesis (SHS) in compacted samples consisting of Ti, BN and C powders.
Journal of Alloys and Compounds. 2009, 480: 315-320
Journal of Refractory Metals & Hard Materials. 2009, 27: 829-834
Journal of the European Ceramic Society. 2008, 28: 1697-1713
Journal of Alloys and Compounds. 2009, 480: 315-320
Journal of Refractory Metals & Hard Materials. 2009, 27: 829-834
Journal of the European Ceramic Society. 2008, 28: 1697-1713
Online since: November 2011
Authors: M. Farzaneh, Z. Ghalmi, R. Menini
The aim of this paper is the examine the influence of aluminium surface treatments on ice adhesion.
Based on these results, several surface treatments of aluminium have been considered including aluminium anodizing with partial Al2O3 etching followed by different sealing steps using hydrophobic polymer compounds such as polytetrafluoroethylene.
Journal of adhesion science and technology, 25 (2011) 27-40
Farzaneh, Highly resistant icephobic coatings on aluminum alloys.
Farzaneh, Superhyrophobic surfaces prepared b RF-sputtered poytetrafluoroethyene coating, Journal of applied surface science, 257(2010) 1540-1543
Based on these results, several surface treatments of aluminium have been considered including aluminium anodizing with partial Al2O3 etching followed by different sealing steps using hydrophobic polymer compounds such as polytetrafluoroethylene.
Journal of adhesion science and technology, 25 (2011) 27-40
Farzaneh, Highly resistant icephobic coatings on aluminum alloys.
Farzaneh, Superhyrophobic surfaces prepared b RF-sputtered poytetrafluoroethyene coating, Journal of applied surface science, 257(2010) 1540-1543
Online since: March 2019
Authors: Anggraeni Kumala Dewi, Ariswan Ariswan
The groups of compounds belonging to the IV-VI groups in the form of binary compounds are SnS, SnSe, SnTe, PbS, PbSe, and PbTe.
In ternger compounds are Sn (Se S), Sn (Se Te), Sn (S Te), Pb (Se S), Pb (Se Te), Pb (S Te), Sn (Pb S), Sn (Pb Se ), and Sn (Pb Te).
Semiconductor materials Sn(S0.8Te0.2) and Sn(S0.6Te0.4) are alloys of SnS and SnTe.
This is because the semiconductor materials of Sn (Se Te) and Sn (S Te) semiconductors belong to the same semiconductor group, the semiconductor group of semiconductor alloys of class IV-VI [15,16].
High-Efficient Thermoelectric materials: The Case of Orthorhombic IV-VI Compounds.
In ternger compounds are Sn (Se S), Sn (Se Te), Sn (S Te), Pb (Se S), Pb (Se Te), Pb (S Te), Sn (Pb S), Sn (Pb Se ), and Sn (Pb Te).
Semiconductor materials Sn(S0.8Te0.2) and Sn(S0.6Te0.4) are alloys of SnS and SnTe.
This is because the semiconductor materials of Sn (Se Te) and Sn (S Te) semiconductors belong to the same semiconductor group, the semiconductor group of semiconductor alloys of class IV-VI [15,16].
High-Efficient Thermoelectric materials: The Case of Orthorhombic IV-VI Compounds.