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DistribuidoresSitios Goodyear de Neumáticos Especializados
Neumáticos de Aviación
Neumáticos de Camión y Ómnibus
Neumáticos de OTR
Neumáticos de Carreras
Los neumáticos para automóvil brindan tracción durante todo el año, excelente conducción y larga duración para un experiencia de manejo cómoda.
Los neumáticos para camioneta y vehículos utilitarios brindan durabilidad, desempeño y estabilidad en los más variados tipos de terrenos.
Encuentra el neumático adecuado ya sea para tu SUV o vehículo compacto.
Goodyear Assurance es nuestra línea completa de neumáticos para los que buscan economía y duración.
Goodyear Eagle es nuestra línea de neumáticos deportivos para los que buscan control y precisión en la dirección.
Wrangler es nuestra línea de neumáticos robustos que proporciona excelente tracción fuera de carretera y que se adapta a diversos tipos de terrenos.
Goodyear EfficientGrip™ es nuestra línea de alto rendimiento desarrollada para atender las exigencias de las principales armadoras.
Con una gran cantidad de estilos y desempeños diferentes, tenemos el neumático para ti
Los neumáticos de alto desempeño brindan un manejo seguro, maniobrabilidad y una tracción mejorada en condiciones secas y mojadas.
Con los neumáticos Run On Flat, puedes manejar hasta 80 kilómetros a una velocidad máxima de 80 kph con un neumático que está perdiendo aire o desinflado.
Tenemos un neumático para cada tipo de conductor.
Buscar Neumáticos
Bridgestone trabaja con los clientes para brindar asistencia durante todo el ciclo de vida útil del neumático, desde la selección y compra hasta la puesta fuera de servicio, asegurando así una vida útil más prolongada, la utilización máxima de la banda de rodamiento y una mejor productividad.
La clave para mejorar el desempeño de los neumáticos consiste en enfocarse en las buenas prácticas del programa de neumáticos OTR. Fundamentalmente, la rotación, la presión y el ajuste (RPM) son las áreas centrales para aumentar el desempeño de los neumáticos y la productividad. Bridgestone recomienda un programa de reparación de neumáticos, una inspección formal y el programa de seguimiento TreadStat™, con un fuerte enfoque en las carreteras de transporte, las áreas de carga y el mantenimiento de vertederos.
Mire todo nuestro catálogo de neumáticos OTR
Rotación
El punto de rotación óptimo es un objetivo dinámico que afecta significativamente el desempeño y el costo de los neumáticos. Algunas operaciones llevan a cabo la rotación de los neumáticos con base en hábitos de larga data que consisten en rotar los delanteros a aproximadamente un tercio de su vida útil prevista. Sin embargo, la rotación de los neumáticos tiene más que ver con el índice de desgaste y los puntos de eliminación. Los puntos de rotación inapropiados aumentan la probabilidad de instalar nuevos neumáticos traseros y también pueden reducir la vida útil total, lo que altera su producción y su presupuesto. El tiempo transcurrido en las posiciones delanteras es una combinación de la prolongación de la vida útil con la RTD admitida, lo que evita el desgaste irregular y le permite administrar las pilas de desechos y sus necesidades de neumáticos traseros. Trabaje con su representante o distribuidor local de Bridgestone para optimizar su punto de rotación para reducir así el desgaste con base en las condiciones específicas del sitio donde opera.
Presión de aire
Revisar y administrar la presión de un neumático durante toda su vida útil es una de las buenas prácticas más importantes (si no la más importante de todas). La mala administración de la presión de aire puede reducir la vida útil de un neumático en un 5 % o más, lo que aumenta los costos y reduce la productividad. Un neumático OTR está diseñado para operar con una cantidad óptima de deflexión para las cargas que transporta. Para funcionar eficientemente, la presión de inflado de un neumático debería coincidir con las cargas que transporta. Bridgestone trabaja estrechamente con los clientes para comprender sus cargas y trayectos, así como para ofrecer las especificaciones del neumático correcto y establecer cuál es la presión de aire apropiada para tal neumático y aplicación. Conseguir la cantidad especificada de presión de aire es el siguiente paso para optimizar el desempeño de sus neumáticos. El inflado insuficiente causa la deflexión excesiva del neumático, que crea tensiones mecánicas.
Estas tensiones causan la generación de calor en los neumáticos, que da como resultado una vida útil más breve y pérdida de producción. El exceso de inflado restringe la deflexión natural del neumático y puede ocasionar índices más altos de desgaste, menor tracción y un aumento en las roturas por cortes o impactos. Conozca más sobre cómo TreadStat™ puede ayudarle a gestionar las inspecciones de presión de aire para mejorar la vida útil de sus neumáticos.
Correspondencia entre neumáticos dobles
Al reemplazar los neumáticos OTR de sus equipos, incluso las diferencias leves pueden dar como resultado un desempeño inferior y un mayor desgaste de sus neumáticos. Vea cómo aprovechar su inversión al máximo.
Al operar equipos con neumáticos dobles, ¿alguna vez se ha preguntado por qué uno de los neumáticos funciona bien mientras que el otro obtiene una cantidad de millas significativamente menor a la esperada? Es bastante probable que esto se deba a que no hay correspondencia entre los neumáticos dobles.
La correspondencia entre los neumáticos dobles es algo esencial cuando reemplaza los neumáticos OTR de su equipo. Incluso diferencias leves entre dos neumáticos, desde la profundidad hasta el diseño de las bandas de rodamiento, pueden provocar deslizamiento y fricción en un neumático y sobrecalentamiento en el otro. También puede afectar los sistemas mecánicos de su equipo, lo que en definitiva lleva a un cambio temprano.
Al reemplazar un neumático OTR doble, asegúrese de revisar la profundidad de la banda de rodamiento en ambos lados del neumático instalado. También le conviene obtener una medición precisa del radio estático cargado (SRL) del neumático. Hacer coincidir el SLR de un neumático con el del otro le ayudará a obtener el mejor desempeño de sus neumáticos duales.
Inspección de neumáticos
Los neumáticos todoterreno y las llantas/ruedas deben ser inspeccionados por los operadores o el personal de mantenimiento de neumáticos antes de cada cambio.
Nuestro afiche gratuito le muestra cómo las inspecciones de rutina ayudan a incrementar la rentabilidad a la vez que protegen a su gente, los lugares de trabajo y los neumáticos.
Seguridad con respecto a la pared vertical
Existen muchos riesgos potenciales al trabajar cerca de paredes verticales, bancos o salientes. Estos riesgos, como la caída de rocas, la suciedad y los escombros, pueden dañar o destruir sus equipos. Los accidentes inesperados incluso pueden causar lesiones o la muerte.
Para mantener un entorno de trabajo seguro en todo momento, procure respetar estos importantes protocolos:
Contáctenos para obtener más información o conversar en profundidad acerca de cualquier cosa que haya leído aquí.
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32 years have passed since the largest radiation accident at the Chernobyl nuclear power plant, as a result of which millions of people were exposed to radiation to varying degrees, vast territories were contaminated with radioactive substances.
In connection with the relevance of this topic, the Bryansk Regional Scientific Universal Library. F.I. Tyutcheva offers a virtual exhibition "Chernobyl in memory and books".
nine0002 The presented books and publications of periodicals summarize the experience gained over the past years in the aftermath of the accident at the Chernobyl nuclear power plant, summed up the results of the work done. Leading Russian scientists and specialists, who are closely associated with solving the problems that arose after the accident, talk about the work done and the results of scientific research.The exhibition is intended for environmentalists, university students, as well as for everyone who is interested in the problems of radiation effects on humans. nine0003
BOOKS
| Voistrochenko, A. F. How it was. Chernobyl and Bryansk region / A. The book is a memoir about the Bryansk region, about its people and their deeds, about those who helped them shoulder to shoulder in the early years of the Chernobyl disaster, who are still in service today. | nine0027 |
| Results of the implementation of the Federal target program "Overcoming the consequences of radiation accidents for the period up to 2015" / Ministry of Ros. Federation for Citizens' Affairs. defense, emergency situations and liquidation of the consequences of natural disasters. disasters, Ex. organization of program-targeted planning. - M.: [b. and.], 2014. Report of 2013 on the results of the implementation of the federal target program "Overcoming the consequences of radiation accidents for the period up to 2015". nine0003 | |
| Lodkin, Yu. E. Russian zone of Chernobyl. The book tells about the confrontation of the devotees of the radiation front, selflessly fighting for the health and very life of millions of Russians who have become hostages of a man-made disaster. Using rich factual material, the author reflects on the danger of forgetting the bitter lessons of Chernobyl. nine0003 | |
| Markina, Z.N. / Z.N. Markina, T.A. Kondratenko.- Bryansk: Bryansk. state technologist. acad., 2014.- 106 p. The monograph considers natural and climatic conditions, landscape characteristics and radioecological state of the research region. The current radiological state of the soil cover on the territory of the Bryansk region and at objects in the zone of radioactive contamination is analyzed. Features of radionuclides migration in soils of forest ecosystems | |
| Markhotsky, Ya. Issues of radiation safety of the population and environmental problems of nuclear energy are considered in the manual. The elements of nuclear physics, natural sources of radiation, the effect of ionizing radiation on the human body are described. Dosimetric and radiometric instruments are presented. nine0003 | |
| Mikhalev, V.P. Mikhalev, A.V. Korsakov, A.M. Tsyganovsky. - Bryansk: Cursive, 2009. - 241, [1] p. : ill. The monograph presents the main, accumulated to date, studies of the reactions of the population of the Bryansk region with a predominant analysis of the reaction of children, adolescents, boys and girls to radiation, toxic and radiation-toxic effects of the environment. The full-scale studies of the medium and the response to its deformation presented in the monograph are proposed for the first time. | |
| Pronin, M.A . Existence: forgotten Chernobyl: [liquidator's notes] / M.A. Pronin; Ros. acad. Sciences, Institute of Philosophy. - M. : Kanon+, 2016 [i.e. 2015]. - 221, [1] p. : ill. Anthropology of the place and time of events in the disaster zone at the Chernobyl nuclear power plant is considered on behalf of a participant in the liquidation of its consequences through the existence of duty, fate, male meaning, etc., through everyday existentials - food and drink, the life of things in the space of risk and death, through a change in character and the structure of the living space of a person in the place of her feat. nine0003 | |
| Sopelnyak, B. N. Chernobyl fault: [novels] / B. Sopelnyak. - M. : Veche, 2016. - 285, [2] p. These people are rarely known by sight. But they are always remembered, as soon as a terrible misfortune happens somewhere - a fire. | |
| Ustinova, M. A. Natural and man-made radiation background of the Bryansk region: monograph / M.A. Ustinov; under scientific ed. E.S. Murakhtanov. - M. : MESH, 2013. - 156 p. : ill. The book describes the natural and geomorphological conditions of the Bryansk region. The main features of ionizing radiation, its types, sources and features of the impact on the human body are outlined. nine0003 | |
| Chernobyl: life before and after budget. prof. educate. The book describes the memories of the participants in the liquidation of the consequences of the accident at the Chernobyl nuclear power plant 1986 years old. | |
| Shandybin, A.I. Natural and economic features of the Bryansk region in conditions of increased radiation: a manual-recommendations for the residents of the Bryansk region affected by the Chernobyl disaster / AI Shandybin, compiler. - Bryansk: State Unitary Enterprise "Bryansk. region polygraph association”, 2014. – 148 p.: photo. Training manual-recommendations is intended for residents of the Bryansk region affected by the Chernobyl disaster, medical workers, agricultural and forestry workers, fishermen, mushroom pickers, pickers of berries, medicinal herbs, teachers and students of higher and secondary educational institutions, teachers and schoolchildren. |
ARTICLES
Aleksakhin, R.M. Teaching about the biosphere V.I. Vernadsky and modern problems of radioecology / R.M. Aleksakhin, A.A. Udalova, S.A. Geraskin // Radiation biology. Radioecology. - 2014. - N 4. - C.432-439.
Analytical substantiation of the carrying capacity of diagonal and radial pneumatic tires for construction machines / VN Tarasov [et al.] // Construction and road machines. - 2017. - N 7. - S. 14-21. nine0003
Belov, A.N. The ratio of the radial growth of trees of different categories of condition in the foci of leaf-eating insects / A.N. Belov // Forestry. - 2015. - N 1. - S.37-39.
Belykh, E.S. Cytogenetic effects of Allium schoenoprasum plants growing on technogenically polluted soil / E.S. Belykh, T.A. Maystrenko // Radiation biology. Radioecology. - 2015. - N 1. - C.5-15.
Brook, G.
Ya. nine0012 The role of radiation monitoring in ensuring the radiation safety of the population after the accident at the Chernobyl nuclear power plant / G.Ya. Brook // Health of the population and environment. - 2012. - N5. - p.4-6
Grigorkina, E.B. The role of animal development polyvariance in assessing the consequences of radiation exposure / E.B. Grigorkina, G.V. Olenev // Radiation biology. Radioecology. - 2015. - N 1. - C. 16-23. nine0003
Ivankin, A.N. Radiation processing of meat-based food products: to irradiate or not to irradiate? / A.N. Ivankin [and others] // Meat industry. - 2017. - N 11. - S. 26-29.
Kirillova, E.N. Radiobiological repository of human tissues: progress and prospects in solving the problems of radiation safety and health of personnel and the population / E.N. Kirilova [et al.
] // Radiation biology. Radioecology. - 2014. - N 6. - C. 565-581. nine0003
Korsakov, A.V., Multifactorial technogenic pollution of the environment as a risk factor for the formation of cytogenetic disorders in the population / A.V. Korsakov // Bulletin of the Bryansk State Technical University. - 2014. - N 2. - S. 155-160.
Korsakov, A.V. Comparative assessment of the state of the thyroid gland of children in the territories of toxic, radiation and combined pollution of the environment / A.V. Korsakov // Medical ecology. - 2011. - N 6. - C.207-213. nine0003
Koterov, A.N. Problems of the search for means of radiation protection of a person in the light of achievements in the genetics of aging / A.N. Koterov // Radiation biology. Radioecology. - 2013. - N 5. - C.487-494.
Lystsov, V.N. Keepers of the radiation heritage / VN Lystsov// Energy: economics, technology, ecology. - 2016.
- N 1. - S. 50-55.
Lyashenko, V.I. Radon is the main factor of technogenic radiation pollution of residential premises and social facilities. Problems and ways of their solution / V.I. Lyashenko // Life safety. - 2015. - N 2. - S. 11-19.
Meladze, V. Energy efficiency of steel panel radiators in modern low-temperature heating systems / V. Meladze // Engineer. - 2017. - N 5. - S. 30-31.
Osin, Lev. Radiation hazard in the construction of residential buildings / Lev Osin / / Energy: economics, technology, ecology. - 2015. - N 2. - S. 73-77.
/ E.V. Korkina [et al.] // Housing construction. - 2017. - N 6. - S. 27-33. nine0003Panov, M.G. Influence of low doses of radiation on the functional state of the cardiovascular system of young people / M.G. Panov, G.P. Zolotnikova // Ecology of urbanized territories. - 2013. - N 3. - P. 23-27.
Radiation technologies in agriculture and food industry / G.
V. Kozmin [et al.] // Achievements of Science and Technology of the APK. - 2015. - N 5. - S. 87-92.
Rylov, A. Can Ukraine repeat Chernobyl? / prepared by Alexander Rylov// Energy: economics, technology, ecology. - 2017. - N 4. - S. 58-61. nine0003
Rylov, M.I. Nuclear and radiation terrorism / M.I. Rylov, M.N. Tikhonov // Energy: economics, technology, ecology. - 2015. - N 2. - S. 62-70.
Rylov, M.I. Nuclear and radiation terrorism / M. I. Rylov, M. N. Tikhonov // Energy: economics, technology, ecology. - 2015. - N 1. - S. 42-48.
Spiridonov, S.I. Ranking of radionuclides and exposure pathways by contribution to the dose load on the population, formed as a result of emissions from nuclear power plants / S.I. Spiridonov, E.I. Karpenko, L.A. Sharpan // Radiation biology. Radioecology. - 2013. - N 4. - C. 401-410. nine0003
Timchenko, O.I. Congenital malformations in territories contaminated with radionuclides as a result of the Chernobyl accident / O.
I. Timchenko [et al.] // Radiation biology. Radioecology. - 2014. - N 5. - C. 507-521.
Tsvetnova, O.B. On the question of biodiagnostics methods under conditions of radioactive contamination / O.B. Tsvetnova, A.I. Shcheglov, V.V. Stolbova // Radiation biology. Radioecology. - 2014. - N 4. - C.423-431.
S.А. Kostenko [et al.] // Radiation biology. Radioecology. - 2015. - N 1. - C. 35-42.Schmid, J. Operation and scope of radiator distributors / J. Schmid// Energy saving. - 2016. - N 4. - S. 10-15.
/ N.N. Loy [et al.] // Achievements of Science and Technology of APK. - 2015. - N 5. - S. 29-32.
Anti-friction coatings (AFP) are a relatively young type of lubricants, but their popularity is growing very rapidly.
This is due to the fact that they can work in conditions where oils and greases cannot cope with their functions.
One of the growing applications of AFP is the coating of piston skirts in internal combustion engines. Until recently, this operation was performed only at factories specializing in the production of this type of components, using special equipment. nine0276
Today, this procedure is available not only for industrial use, but also for private use. Especially popular is the application of anti-friction coatings in various tuning studios and sports car teams. This helps to protect pistons and cylinders from scuffing and wear, especially in difficult working conditions, speeds up the break-in of a new part, reduces friction, noise and fuel consumption.
In addition, they AFP increases the bearing capacity of the surface and provides lubrication for the entire life of the piston. nine0003
However, due to the insufficient prevalence of anti-friction coatings, it is quite difficult to find a quality material. To facilitate this task, a rating of popular AFPs designed for internal combustion engine pistons has been compiled.
1 piece
1 piece
MODENGY For ICE parts
MODENGY for internal combustion engine parts is an anti-friction solid lubricant coating with highly purified molybdenum disulfide and graphite. Operating temperature range from -70 to +260 °C. nine0003
99/100
rating
It is intended for applying to piston skirts of gasoline and diesel engines, crankshaft main bearings, bushings, camshafts in internal combustion engines. Suitable for restoring throttle clearance, as well as splines, threaded connections and other metal-to-metal friction pairs.
The compound has high load-bearing capacity, extreme pressure properties, emergency lubrication properties and long service life. It is not destroyed by engine oil, effectively reduces friction losses and prevents stick-slip. nine0003
This material is sold in a 210 ml aerosol can. This amount of coating is enough to cover 1 m 2 surface area. The undoubted advantage of the composition is that it does not require special skills or special equipment when working. It is enough to apply it in a neat thin layer and let it dry for 12 hours at a temperature of +20 °C.
2nd place
2nd place
Molykote D-10-GBL
Molykote D-10-GBL is a low friction coating with graphite and a polyamide-imide binder that is heat cured. Operating temperature range from -40 to +340 °C.
80/100
rating
This material is used in heavily loaded sliding friction units that operate under the influence of dust, moisture and heat, in pistons of compressors, pneumatic, hydraulic drives and pumps, in plain bearings in the oil industry, etc. nine0003
Suitable for application to engine pistons and gears in automotive vehicles. It can be used as an anti-corrosion conductive coating in household appliances, as an anti-emergency lubrication of units coated with oil or other lubricant.
The coating solves problems such as seizing, scoring, seizing, abrasive wear, stick-slip, dust build-up and penetration into components, grease washout and frequent relubrication, and chemical degradation of grease. It has a long service life and high adhesion to surfaces. 1 kg of material is enough to cover 8 m 2 surfaces.
Molykote D-10-GBL has the consistency of "liquid sour cream", so its application is possible only with the help of special equipment by screen printing.
This material cannot be applied by dipping or spraying.
3rd place
3rd place
MC 2000
MC 2000 is a heat curing suspension of molybdenum disulphide in a polymer base. Operating temperature range from -50 to +200 °C. nine0003
41/100
rating
This coating is intended for application to the skirts of ICE pistons, shaft-sleeve bearings, sliding guides, closed and open gears, chain drives. Suitable for threaded, splined, keyed connections and adjusting wedges.
The composition prevents seizing, increases the smoothness of work and facilitates the running-in of parts, protects against wear and corrosion. It works well in humid and dusty environments, vacuum and adheres well to surfaces. nine0003
The following image shows how MC 2000 lays down on surfaces when applied with a brush, as recommended by the manufacturer. Here you can see that the coating is uneven, with sagging, so it is not recommended to use such a piston in the engine.
F. Voystrochenko. - Bryansk: [b. and.], 2008 (Bryansk region, Polygraph Society)). - 327 p.: ill. 
From state silence - to state oblivion / Yuri Lodkin. - Bryansk: Read-city, 2009. - 458, [1] p. 
L. Fundamentals of radiation safety of the population: [textbook]. allowance for students. universities] / Ya.L. Marchotsky. - Minsk: Higher School, 2011. - 223, [1] p. :ill. 
nine0003 
And it doesn't matter if it's a residential building, a factory shop, a nuclear power plant or the endless taiga. On April 26, 1986, a power unit exploded at the Chernobyl nuclear power plant and a severe fire started. A lot has been written about this tragedy, but not about the people who were the first to take the brunt of the elements. The story "Chernobyl Fault" tells about what these unknown heroes managed to do. nine0003 
inst. "Trubchev. prof.-ped. college", Trubchev. paradise. societies. stud. org-tion "Torch". - Trubchevsk: [b. and.], 2016 (Bryansk: Doubleline LLC). - 57 p. : ill. 
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