Перспективность дальнейших исследований по совершенствованию гусеничных лесных машин
Перспективы расширения выпуска и использования в лесозаготовительном производстве и лесном хозяйстве гусеничных лесных машин. Достоинства и недостатки колесных и гусеничных баз лесных машин с точки зрения эксплуатационной и экологической эффективности.
Рубрика | Производство и технологии |
Вид | статья |
Язык | русский |
Дата добавления | 03.05.2023 |
Размер файла | 4,9 M |
Отправить свою хорошую работу в базу знаний просто. Используйте форму, расположенную ниже
Студенты, аспиранты, молодые ученые, использующие базу знаний в своей учебе и работе, будут вам очень благодарны.
52. Grigorev I. V., Vinokurov S. L. Comparison of variants of machine systems for low-volume logging. Bulletin of AGATU, 2021, no. 3 (3), pp. 51--62. (In Russ.)
53. Grigorev I. V., Nikiforova A. I., Lisov V. Y. Advantages and disadvantages of wheeled and tracked bases of timber tractors. Lesprominform, 2014, no. 4 (102), pp. 82--87. (In Russ.)
54. Vagveldi A., Feher Sh., Horvat B., Koman S., Kovach G., Szabo L., Tsupi I., Grigorev I. V., Grigoreva O. I., Danilov D., Kunitskaya O. A., Krivash E. Cultivation and exploitation of forest plantations. Uzhgorod, Publishing house: University of West Hungary Press, 2016. 132 p. (In Russ.)
55. Rego G. E., Voronov R. V., Grigorev I. V. A local search algorithm for the problem of covering a polygon with a forest of root trees. Engineering Bulletin of the Don, 2022, no. 10 (94), pp. 240--259. (In Russ.)
56. Ilyushenko D. A., Peskov V. B., Grigorev I. V. Modern logging machines: analysis of interrelations of their characteristics. February readings. Collection of materials of the scientific and practical conference of the faculty of Syktyvkar Forest Institute based on the results of research work in 2015. Syktyvkar, 2016, pp. 127--130. (In Russ.)
57. Grigorev I. V., Churakov A. A. Perspective machine complex for wood harvesting. Natural resources and ecology of the Far Eastern region. Materials of the II International Scientific and Practical Forum. Khabarovsk, TAGU Publishing House, 2017, pp. 170--175. (In Russ.)
58. Grigoreva O. I. Efficiency of transport-technological systems for forestry. Transport and transport-technological systems. Materials of the International Scientific and Technical Conference. Ed. N. S. Zakharov. Tyumen, 2018, pp. 79--83. (In Russ.)
59. Burmistrova O. N., Chemshikova Yu. M., Grigorev I. V., Kunitskaya O. A., Tambi A. A. Theoretical substantiation of the parameters of the medium-sparing propulsion of a tracked all-terrain vehicle. Systems. Methods. Technologies, 2019, no. 3 (43), pp. 81--88. (In Russ.)
60. Dobretsov R. Yu., Grigorev I. V. Assessment of the energy efficiency of the chassis of tracked forest machines. Transport and transport-technological systems. Materials of the international scientific and technical conference. Tyumen, 2017, pp. 145--149. (In Russ.)
61. Grigorev I. V., Churakov A. A., Grigoreva O. I. Perspective design of a tracked forwarder. Transport and transport-technological systems. Materials of the international scientific and technical conference. Tyumen, 2017, pp. 140--144. (In Russ.)
62. Grigorev I. V., Churakov A. A., Grigoreva O. I. Perspective design of an all-terrain vehicle for forestry. Transport and transport-technological systems. Materials of the international scientific and technical conference. Tyumen, 2017, pp. 136--139. (In Russ.)
63. Dobretsov R. Yu., Grigorev I. V., Ivanov V. A. Increasing the mobility of tracked all-terrain vehicles for shift logging. Systems. Methods. Technologies, 2016, no. 2 (30), pp. 114--119. (In Russ.)
64. Dobretsov R. Yu., Grigorev I. V. The interaction of a caterpillar mover with a soil with a significant longitudinal displacement of pressure centers. Forests of Russia: politics, industry, science, education. Materials of the scientific and technical conference. St. Petersburg, SPbGLTU, 2016, pp. 124--127. (In Russ.)
65. Dobretsov R. Yu., Grigorev I. V., Rudov S. E., Teterevleva E. V., Chemshikova Yu. M. Increasing the mobility of tracked and wheeled vehicles. Repair. Recovery. Modernization, 2019, no. 11, pp. 4--10. (In Russ.)
66. Tikhomirov P. V., Skrypnikov A. V., Kozlov V. G., Tveritnev O. N., Grigorev I. V. Methodology of sequential analysis and determination of standards of deviations from the design parameters of logging highways. Resources and technologies, 2022, vol. 19, no. 3, pp. 69--82. (In Russ.)
67. Grigorev I. V., Grigoreva O. I., Nikiforova A. I., Kunitskaya O. A. Substantiation of the methodology for assessing the ecological efficiency of forest management. Bulletin of KrasGAU, 2012, no. 6 (69), pp. 72--77. (In Russ.)
68. Grigorev I. V., Khitrov E. G., Nikiforova A. I., Grigoreva O. I., Kunitskaya O. A. Determination of the energy intensity of forest management products within the framework of the methodology for assessing the environmental efficiency of forest management. Bulletin of the Tambov University. Series: Natural and Technical Sciences, 2014, vol. 19, no. 5, pp. 1499--1502. (In Russ.)
69. Grigorev I. V., Rudov S. E. Features of the operation of wheeled forest machines in difficult soil-soil and relief conditions. Forest Equipment. Materials of the scientific and practical conference with international participation. Yakutsk, 2018, pp. 67--71. (In Russ.)
70. Nikiforova A. I., Grigoreva O. I., Kiselev D. S., Khakhina A. M., Rudov M. E. Assessment of ecological safety of forest machinery. Natural resources and ecology of the Far Eastern region. Materials of the International Scientific and Practical Forum. Khabarovsk, 2013, pp. 134--138. (In Russ.)
71. Nikiforova A. I., Khitrov E. G., Pelymsky A. A., Grigoreva O. I. Determination of precipitation during the movement of a logging machine on a two-layer base. Scientific notes of Petrozavodsk State University, 2014, no. 2 (139), pp. 87--91. (In Russ.)
72. Nikiforova A. I., Rudov M. E., Grigoreva O. I. Experimental studies of compaction of side lanes of skidding tracks by the dragging part of a trellised bundle of timber. Problem-oriented research: theory and practice. Materials of the Republican scientific and practical conference. Federal State Budgetary Educational Institution of Higher Professional Education «Petrozavodsk State University». Petrozavodsk, 2014, pp. 37--39. (In Russ.)
73. Grigorev I. V., Tikhonov I. I., Grigoreva O. I., Rudov M. E. Search for new technical solutions to improve the ecological compatibility of forest machines with the forest environment. Intensification of the formation and protection of intellectual property. Materials of the republican scientific and practical conference dedicated to the 75th anniversary of PetrSU. Petrozavodsk, Petrozavodsk State University, 2015, pp. 9--11. (In Russ.)
74. Nikiforova A. I., Grigoreva O. I. Modeling of the impact of forest machinery movers on the soils of cutting areas. Current directions of scientific research of the XXI century: theory and practice, 2015, vol. 3, no. 5-4 (16-4), pp. 320--323. (In Russ.)
75. Zhuk A. Yu., Khakhina A. M., Grigorev I. V., Ivanov V. A., Gasparyan G. D., Manukovsky A. Yu., Kunitskaya O. A., Danilenko O. K., Grigoreva O. I. Modeling indentation of an indenter in an inhomogeneous soil. Journal of Engineering and Applied Sciences, 2018, vol. 13, no. S8, pp. 6419--6430.
76. Izmailova V. S., Grigoreva O. I. Evaluation of the success of the natural renewal of spruce after continuous logging in Lisinsky forestry. Current issues in forestry. Materials of the youth international scientific and practical conference. St. Petersburg, 2017, pp. 31--34. (In Russ.)
77. Grigoreva O. I. Features of natural reforestation in the conditions of the cryolithozone. Current directions of scientific research of the XXI century: theory and practice, 2018, vol. 6, no. 4 (40), pp. 25--29. (In Russ.)
78. Kalistratov A. V., Grigoreva O. I., Grigorev G. V., Dmitrieva I. N. On the importance of research on the ecological efficiency of the skidding process. Science, education, innovations in the border region. Materials of the Republican scientific and practical conference. Petrozavodsk, Petrozavodsk State University, 2015, pp. 7--9. (In Russ.)
79. Do T. A., Grigorev G. V., Kalyashov V. A., Guryev A. Yu., Grigoreva O. I., Khitrov E. G. Theoretical studies of the work of forest machines with a caterpillar engine on slopes. Resources and technologies, 2022, vol. 19, no. 3, pp. 1--29. (In Russ.)
80. Do T. A., Zlobina N. I., Kalyashov V. A., Novgorodov D. V., Grigoreva O. I., Khitrov E. G. Substantiation of technological parameters related to traction-coupling properties of a tracked vehicle operating on a slope. Woodworking industry, 2022, no. 2, pp. 3--12. (In Russ.)
81. Khitrov E. G., Kotenev E. V. Comparison of indicators of interaction with the ground and the patency of wheeled and wheeled-tracked propellers. Resources and technologies, 2019, vol. 16, no. 4, pp. 1--24. (In Russ.)
82. Belyaeva N. V., Grigoreva O. I., Ishchuk T. A. The influence of logging of different intensity on the overall productivity of sour spruce forests. Systems. Methods. Technologies, 2011, no. 3 (11), pp. 140--148. (In Russ.)
83. Belyaeva N. V., Grigoreva O. I., Kuznetsov E. N. Influence of recreational load on the development of undergrowth of tree species in the city park «Sosnovka». Agrarian Scientific Journal, 2014, no. 9, pp. 6--11. (In Russ.)
84. Rudov S. E., Shapiro V. Ya., Grigorev I. V., Kunitskaya O. A., Grigoreva O. I., Storodubtseva T.N. Results of experimental studies of the influence of the temperature of cryolithozone soils on their physical and mechanical properties. Forestry Journal, 2020, vol. 10, no. 4 (40), pp. 197--207. (In Russ.)
85. Novikov M. S., Kunitskaya O. A., Rudov S. E., Kalyashov V. A. Methodology and equipment of experimental studies of temperature dynamics of layers of forest soil of the cryolithozone. Strategy and prospects of development of agrotechnologies and the forest complex of Yakutia until 2050. Collection of scientific articles based on the materials of the All-Russian scientific and practical conference with international participation dedicated to the 100th anniversary of the formation of the Yakut ASSR and the 85th anniversary of the First President of the RS (Ya) M. E. Nikolaev (Nikolaev readings). Yakutsk, 2022, pp. 760--767. (In Russ.)
86. Khitrov E. G., Frolov I. I. Selection of the permissible pressure of the mover of wheeled forest vehicles depending on ground conditions. Collection of articles based on the materials of the scientific and technical conference of the Institute of Technological Machines and Transport of Forests based on the results of research works in 2018. Ed. V. A. Sokolov. St. Petersburg, LTU, 2019, pp. 90--100. (In Russ.)
87. Khitrov E., Andronov A., Ilyushenko D., Kotenev E. Comparison of approaches to calculating the pressure on the ground of logging machines. 19th International Interdisciplinary Scientific Geoconference SGEM 2019. Conference materials. Soils; forest ecosystems. Sophia, 2019, pp. 649--656.
88. Khitrov E. G. Analysis of the components of the depth of the track formed under the influence of the propulsion of the forest machine on the soil. Resources and technologies, 2019, vol. 16, no. 4, pp. 76--93. (In Russ.)
89. Ivanov V., Stepanishcheva M., Khitrov E., Ilyushenko D. Theoretical model for estimating the traction force of a logging machine wheel. 18th International Interdisciplinary Scientific Geoconference SGEM. 2018. Conference materials. Sophia, 2018, pp. 997--1004.
90. Khitrov E., Ivanov V., Stepanishcheva M., Kochnev A. Interrelation of deformation modules and taper indices of forest and peat soils. 18th International Interdisciplinary Scientific Geoconference SGEM2018. Conference materials. Sophia, 2018, pp. 297--304.
91. Khitrov E. G., Grigorev I. V., Makuev V. A., Khakhina A. M., Kalinin S. Y. A model for assessing the radial deformation of the wheel of a forest machine taking into account the deformation of the soil. Bulletin of the Moscow State University of Forests -- Lesnoy Vestnik, 2015, vol. 19, no. 6, pp. 87--90. (In Russ.)
92. Shapiro V. Ya., Grigorev I. V., Lepilin D. V., Zhukova A. I. Modeling of soil compaction in the side lanes of the skidding portage taking into account the variability of the traffic route. Scientific notes of Petrozavodsk State University, 2010, no. 6 (111), pp. 61--64. (In Russ.)
93. Grigorev I. V., Makuev V. A., Shapiro V. Ya., Rudov M. E., Nikiforova A. I. Calculation of indicators of the soil compaction process when skidding a pack of whips. Bulletin of the Moscow State University of the Forest -- Forest Bulletin, 2013, no. 2, pp. 112--118. (In Russ.)
94. Khitrov E. G., Kotenev E. V., Andronov A. V., Zhang S. A., Nikiforova V. A. Research of environmental friendliness and issues of certification of forest machinery movers. The system. Methods. Technologies, 2020, no. 2 (46), pp. 100--105. (In Russ.)
95. Khitrov E. G., Ilyushenko D. A., Ermakova E. K. Linear functions of coefficients of resistance to movement and coupling of propellers of forest machines with the ground. Scientific and technical conference on the results of scientific research in 2019. Collection of articles based on the conference materials. Ed. V. A. Sokolova. St. Petersburg, LTU, 2020, pp. 88--94. (In Russ.)
96. Khitrov E. G., Ilyushenko D. A., Ermakova E. K. Calculation of tangential stress taking into account the decrease in the specific adhesion of forest soil when the mover is slipping. Scientific and technical conference on the results of scientific research in 2019. Collection of articles based on the conference materials. Ed. V. A. Sokolova. St. Petersburg, LTU, 2020, pp. 105--110. (In Russ.)
97. Shen Yu., Moskalenko M. B., Dobretsov R. Yu. Principles of construction of extreme terrain chassis for operation in the forest complex. Improving the efficiency of the forest complex. Materials of the Eighth All-Russian National Scientific and Practical Conference with international participation. Petrozavodsk, 2022, pp. 208--209. (In Russ.)
98. Kuznetsov D. A., Dobretsov R. Yu. Valno-planetary transforming mechanism for forest and transport machines. Improving the efficiency of the forest complex. Materials of the Eighth All-Russian National Scientific and Practical Conference with international participation. Petrozavodsk, 2022, pp. 92--94. (In Russ.)
99. Kunitskaya O. A. Proactive service for forest machines. Improving the efficiency of the forest complex. materials of the Sixth All-Russian National Scientific and Practical Conference with international participation. Petrozavodsk, 2020, pp. 86--87. (In Russ.)
100. Grigorev I. V., Kunitskaya O. A., Fam N. L. Application of mobile technologies for monitoring, control and management of forest machinery service processes. Innovations in the chemical-forest complex: trends and prospects of development. Collection of materials of the All-Russian scientific and practical conference. Responsible ed. Yu. A. Bezrukikh, E. V. Melnikova. Krasnoyarsk, 2020, pp. 143--146. (In Russ.)
101. Grigorev I. V. Features of operation of forest machines in severe frosts. New materials, equipment and technologies in industry. Materials of the international scientific and technical conference of young scientists. Ed. I. S. Sazonov. Mogilev, 2018, p. 102. (In Russ.)
102. Grigorev I. V., Kunitskaya O. A., Lanskikh Yu. V., Sandakov S. Yu., Prosuzhikh A. A., Rudov S. E. Modernization of the tire pressure monitoring system for forest and agricultural machines. Repair. Recovery. Modernization, 2021, no. 2, pp. 21--30. (In Russ.)
103. Grigorev I. V., Prosuzhikh A. A., Rudov S. E. Prospects of using pressure monitoring systems in tires of forest and agricultural machines. Mashinostroenie: new concepts and technologies. All-Russian Scientific and Practical Conference of students, postgraduates and young scientists. Krasnoyarsk, 2020, pp. 40--45. (In Russ.)
104. Grigorev I. V., Kunitskaya O. A., Belyaev N. L. Actual problems of logging production in Russia at the turn of 2022. Complex issues of agrarian science and education. Collection of scientific articles based on the materials of the Intra-university scientific and practical conference dedicated to the 65th anniversary of Higher Agricultural Education of the Republic of Sakha (Yakutia) and the All-Russian Student Scientific and Practical Conference with international participation in the framework of the «Northern Forum -- 2021». Yakutsk, 2021, pp. 265--271. (In Russ.)
105. Kunitskaya O. A., Makuev V. A., Storodubtseva T. N., Kalita G. A., Revyako S. I., Timokhov R. S. Problems of improving the quality of domestic forest engineering. Systems. Methods. Technologies, 2022, no. 4 (56), pp. 57--63. (In Russ.)
106. Grigorev I. V., Tikhonov I. I., Nikiforova A. I., Grigorieva O. I. Improving the design of the felling-packing machine. Forests of Russia in the XXI century. Materials of the ninth International Scientific and Technical Internet conference. St. Petersburg, 2012, pp. 53--56. (In Russ.)
107. Grigorev I. V., Nikiforova A. I., Grigoreva O. I. Comparison of single-machine complexes for sorting wood harvesting. Current directions of scientific research of the XXI century: theory and practice, 2015, vol. 3, no. 9-2 (20-2), pp. 125--128. (In Russ.)
108. Grigorev I. V., Kunitskaya O. A., Prosuzhikh A. A., Davtyan A. B., Rudov S. E. Prospects of creation of logging complexes on the basis of domestic construction and agricultural machines. Repair. Recovery. Modernization, 2020, no. 10, pp. 3--10.
109. Gurevich A. M., Bolotov A. K., Sudnitsyn V. I. Construction of tractors and cars. Moscow, Agropromizdat, 1989. 368 p. (In Russ.)
110. Rudov M. E., Kunitskaya O. A., Grigorev M. F., Stepanova D. I., Grigoreva A. I. Ecological and forestry aspects of the work of forest machines in the forests of the cryolithozone. Actual problems of the forest complex, 2020, no. 57, pp. 14--17. (In Russ.)
111. Rudov S. E., Kunitskaya O. A. Theoretical studies of ecological compatibility of wheeled forest vehicles and permafrost soils of cryolithozone forests. Transport and transporttechnological systems. Materials of the International Scientific and Technical Conference. Ed. N. S. Zakharov. Tyumen, 2020, pp. 323--326. (In Russ.)
112. Rudov S. E., Grigorev I. V., Kunickaya O. A., Druzyanova V. P., Ivanov A. K., Okhlopkova M. K., Pankov V. Y., Pekhutov A. S., Ivanov A. P., Borovikov R. G. Specific features of accounting of state of the massive of the frozen soil grounds under cyclic loads. Bulgarian Journal of Agricultural Science, 2019, vol. 25, no. Suppl. 2, pp. 191--205.
113. Rudov S., Kunickaya O., Grigorev I., Burgonutdinov A., Kruchinin I., Prosuzhih A., Dolmatov N., Dmitrieva N. The mathematical model of forestry machines impact on cryolitozone forest soils. Asian Journal of Water, Environment and Pollution, 2020, vol. 17, no. 4, pp. 89--95.
114. Rudov S. E., Shapiro V. Ya., Grigorev I. V., Kunitskaya O. A., Grigoreva O. I. Investigation of the process of destruction of frozen and thawing soils under the influence of a skidding system. News of higher educational institutions. Forest Magazine, 2020, no. 2 (374), pp. 101--117. (In Russ.)
115. Rudov S. E., Shapiro V. Ya., Grigorev I. V., Kunitskaya O. A., Grigoreva O. I. Features of the contact interaction of the skidding system with frozen soil. News of higher educational institutions. Forest Magazine, 2019, no. 1 (367), pp. 106--119. (In Russ.)
116. Grigorev G. V., Dmitrieva I. N., Grigorev I. V., Kalyashov V. A., Rudov S. E., Ivanov V. A. Problems and prospects of logging production in permafrost distribution areas. Systems. Methods. Technologies, 2021, no. 3 (51), pp. 59--67. (In Russ.)
Размещено на Allbest.ru
Подобные документы
Организация и режим работы станции диагностики гусеничных машин. Определение количества технического обслуживания и ремонтов по номограмме. Планировка станции диагностики гусеничных машин. Расчет численности работающих, количества постов и площади.
курсовая работа [81,8 K], добавлен 05.12.2012Выбор технологического комплекса машин. Состав агрегата на операции посадка. Расчет тягового сопротивления СЛГ-1А, баланса и мощности трактора, эксплуатационных показателей. Техническое обслуживание машины, обоснование эффективности ее применения.
курсовая работа [756,5 K], добавлен 22.09.2014Обзор существующих конструкций гусеничных тракторов ПАРС, их устройство и принцип работы. Анализ работы механизмов с точки зрения надежности и сфера его применения. Расчет подшипников поворотной опоры гидрокрана. Разработка усовершенствованного узла.
курсовая работа [509,2 K], добавлен 26.02.2015Классификация и устройство стиральных машин барабанного типа. Причины неисправностей стиральных машин, особенности их ремонта. Оборудование, применяемое при ремонте стиральных машин. Конструктивные и режимные параметры стиральных машин барабанного типа.
курсовая работа [2,1 M], добавлен 23.01.2011Общие сведения о бытовых стиральных машинах. Основные сборочные единицы. Описание стиральных машин типа СМ, типа СМП, типа СМА, полуавтоматических стиральных машин барабанного типа. Разновидности марок машин. Ведущие фирмы-производители стиральных машин.
контрольная работа [36,3 K], добавлен 02.12.2009Анализ вибрации роторных машин, направления проведения диагностики в данной сфере. Практика выявления дефектов деталей машин и оценка его практической эффективности. Порядок реализации расчета частоты дефектов с помощью калькулятора, анализ результатов.
учебное пособие [3,2 M], добавлен 13.04.2014Учебное проектирование как наиболее эффективный метод инженерного обучения. Теория механизмов и машин, ее сущность, история возникновения и современные направления. Модели роботов, принципы и задачи их работы и необходимость использования в производстве.
реферат [36,2 K], добавлен 11.10.2009Теория рабочего процесса одновинтовых гидравлических машин с точки зрения влияния упругих свойств эластичной обкладки статора. Определение напряженно-деформированного состояния рабочих органов с использованием пакетов прикладных программ SolidWorks.
научная работа [2,0 M], добавлен 11.04.2013Інформаційно-патентний пошук структурних представників машин з поперечним потоком. Генетична програма структуроутворення досліджуваного класу електричних машин. Спрямований синтез та візуалізація нових різновидів електричних машин з поперечним потоком.
курсовая работа [2,6 M], добавлен 13.12.2022Понятие и виды производительности горных машин, принципы и критерии ее оценки. Основные показатели качества и надежности горных машин, методика их расчета. Главные физико-механические свойства горных пород, их классификация по контактной прочности.
реферат [25,6 K], добавлен 25.08.2013