The inventions in nanotechnologies as practical solutions. Part V
Автор: Ivanov L.A., Razumeev K.E., Bokova E.S., Muminova S.R.
Журнал: Nanotechnologies in Construction: A Scientific Internet-Journal @nanobuild-en
Рубрика: Review of nanotechnological inventions
Статья в выпуске: 6 Vol.11, 2019 года.
Бесплатный доступ
A brief review of patents is given. The research performed by scientists, engineers and specialists in the area of nanotechnologies and nanomaterials resulted in increased efficiency of construction, housing sector and adjacent fields of economy. For example, the invention «A method to produce fireproof wood-polymer composites on the basis of secondary polyolefine» can be used in construction, car industry, shipbuilding, machine manufacturing, furniture trade and other industries. The method includes following stages: drying of composite components, mixing and heat forming of them by means of extrusion in extrusion Co- Kneader plant under treatment temperature120оС–150оС and conveyor screw rotation speed 350–450 RPM with further granulation. The obtained fire-resistant wood-polymer composite possesses high performance characteristics. The specialists can also be interested in the following inventions in the area of nanotechnologies: a method to produce strengthened nanocomposite with additional properties, anodic material for lithium-ion battery and a method to produce it, a method to rise breaking strength of composite material by preliminary impregnation of carbon fibers with carbon nanotubes, a method to produce carbon metal-containing nanostructures, a method to produce volume microscale structures from nanoparticles and a device to perform it, antistatic floor coating with carbon nanotubes and other.
Nanotechnologies in construction, nanoscale additive, nanocomposite, carbon nanotubes, nanostructure
Короткий адрес: https://sciup.org/142227450
IDR: 142227450 | DOI: 10.15828/2075-8545-2019-11-6-719-729
Список литературы The inventions in nanotechnologies as practical solutions. Part V
- Bedanokov A.Ju., Beshtoev B.Z., Shoranova L.O., Lednev O.B. Sposob poluchenija ognestojkih drevesno-polimernyh kompozitov na osnove vtorichnyh poliolefinov [A method to produce fireproof wood-polymer composites on the basis of secondary polyolefine] Patent RF 2703539 C2. 2019. Bul. № 30.
- Lebedev O.V., Ozerin A.N., Mart’janov A.M., Golubev E.K., Kurkin T.S., Putivskij I.A. Sposob poluchenija uprochnennogo nanokompozita s dopolnitel’nymi svojstvami [A method to produce strengthened nanocomposite with additional properties]. Patent RF 2707344 C2. 2019. Bul. № 33.
- Zemcova E.G., Smirnov V.M., Semjonov B.N. Sposob poluchenija metallicheskogo kompozicionnogo materiala s dispersnoj fazoj na osnove karbida [A method to produce metal composite material with disperse phase based on carbide]. Patent RF 2707055 C1. 2019. Bul. № 33.
- Trusova E.A., Kirichenko A.N., Kocareva K.V. Sposob poluchenija kompozitnyh nanostrukturirovannyh poroshkov na osnove grafena i oksidov al, ce i zr [A method to produce composite nanostructures powders based on graphene and oxide Al, Ce and Zr]. Patent RF 2706652 C1. 2019. Bul. № 32.
- Makunin A.V., Bukunov K.A., Chechenin N.G. Koaksial’nye reguljarnye nano-mezostruktury, sposob ih poluchenija i sposob poluchenija mikrokapsul iz jetih struktur [Coaxial regular nano-mesostructures, a method to produce them and a method to produce microcapsules from these structures]. Patent RF 2703624 C2. 2019. Bul. № 30.
- Opra D.P., Gnedenkov S.V., Sinebrjuhov S.L., Sokolov A.A. Anodnyj material dlja litij-ionnogo akkumuljatora i sposob ego poluchenija [Anodic material for lithium-ion battery and a method to produce it]. Patent RF 2703629 C1. 2019. Bul. № 30.
- Romashkin A.V., Struchkov N.S., Levin D.D., Polikarpov Ju.A., Komarov I.A. et al. Sposob povyshenija prochnosti na razryv kompozitnogo materiala s pomoshh’ju predvaritel’noj propitki uglevolokon [A method to rise breaking strength of composite material by preliminary impregnation of carbon fibers with carbon nanotubes]. Patent RF 2703635 C1. 2019. Bul. № 30.
- Ivanov V.V., Efimov A.A., Tuzhilin D.N., Saprykin D.L. Patent 2704358 RF MPK C1. Sposob izgotovlenija obiemnyh mikrorazmernyh struktur iz nanochastic i ustrojstvo dlja ego osushhestvlenija [A method to produce volume microscale structures from nanoparticles and a device to perform it]. Patent RF 2704358 C1. 2019. Bul. № 31.
- Shevnin A.A., Zaharov A.I., Salihov R.G. Sposob poluchenija uglerodnyh metallsoderzhashhih nanostruktur [A method to produce carbon metal-containing nanostructures]. Patent RF 2704433 C2. 2019. Bul. № 31.
- Predtechenskij M.R., Il’in E.S., Chebochakov D.S., Bezrodnyj A.E. Antistaticheskoe napol’noe pokrytie s uglerodnymi nanotrubkami [Antistatic floor coating with carbon nanotubes and other]. Patent RF 2705066 C2. 2019. Bul. № 31.
- Ivanov LA., Borisova O.N., Muminova S.R. The inventions in nanotechnologies as practical solutions. Part I. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2019, Vol. 11, no. 1, pp. 91–101. DOI: 10.15828/2075-8545-2019-11-1-91-101.
- Mustafin I.A., Sidorov G.M., Stankevich K.E., Bajram-Ali T.M., Salishev A.I., Murtazin E.V., Gancev A.V. Fundamental’nye issledovanija [Fundamental researches]. 2018. № 7. P. 22–28. (In Russian).
- Malkin P. Wastewater treatment system based on nanomodified natural sorbents. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2018, Vol. 10, no. 5, pp. 56–72. DOI: dx.doi.org/10.15828/2075-8545-2018-10-5-56-72.
- Bashlykov S.S., Shornikov D.P., Tarasova M.S., Novikov S.V. Patent 2705744 RF MPK C1. Sposob jelektroimpul’snogo nanesenija uprochnjajushhego pokrytija iz poroshka na poverhnost’ stal’noj detali i ustrojstvo dlja ego osushhestvlenija [A method of electroimpulse application of hardening powder coating on steel part surface and a device to perform it]. Patent RF 2705744 C1. 2019. Bul. № 32.
- Florian – Algarin, D., Marrero, R., Li, X., Choi, H.,& Suarez, O.M. (2018). Strengthening of Aluminum Wires Treated with A206/Alumina Nanocomposites. Materials, 11 (3).
- Ivanov LA., Prokopiev P.S. The inventions in nanotechnologies as practical solutions. Part III. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2019, Vol. 11, no.3, pp. 292–303. DOI: 10.15828/2075-8545-2019-11-3-292-303.
- Sikora P., Abd Elrahman M., Chung S.-Y., Cendrowski K., Mijowska E., Stephan D. Mechanical and microstructural properties of cement pastes containing carbon nanotubes and carbon nanotube-silica core-shell structures, exposed to elevated temperature. 2019, Vol. 95, pp. 193-204. DOI: 10.1016/j.cemconcomp.2018.11.006.
- Malkin P., Shurupov A.N., Zaitsev M.A., Eschenko K.E. Smart, mobile and Autonomous station for collection and accumulation of solar and electric energy, patent application 495035465, – 2019.
- Kinosita I., Hasimoto H., Isobe K., Sera J., Jamasita Je.,Horibe T. Novyj kompozitnyj material, soderzhashhij soedinenie zheleza i oksid grafena [A new composite material, containing ferrum and graphene oxide compound]. Patent RF 2706318 C2. 2019. Bul. № 32.
- Ivanov L.A., Demenev A.V., Muminova S.R. The inventions in nanotechnologies as practical solutions. Part II. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2019, Vol. 11, no. 2, pp. 175–185. DOI: 10.15828/2075-8545- 2019-11-2-175-185.
- Skoczylas K., Rucińska T. Strength and durability of cement mortars containing nanosilica and waste glass fine aggregate. Cement Wapno Beton. 2018, Vol. 3, pp. 206–215.
- Baharev S.A. Patent 2700516 RF MPK C2. Sposob bezreagentnoj ochistki kar’ernyh i otval’nyh vod [A method of nonchemical treatment of quarry and residual water]. Patent RF 2700516. 2019. Bul. № 26.
