Bibliografías temáticas / Autodesk Inventor Professional

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Literatura académica sobre el tema "Autodesk Inventor Professional"

Autor: Grafiati
Publicado: 28 de mayo de 2022

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Artículos de revistas sobre el tema "Autodesk Inventor Professional"

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Yao, Tian Chang, Yan Chao Yin, Jia Cheng Cai y Da Wei Xu. "Innovative of the Clean Trolley Based on Autodesk Inventor Professional". Advanced Materials Research 852 (enero de 2014): 557–60. http://dx.doi.org/10.4028/www.scientific.net/amr.852.557.

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From analysis and design,it concluded that innovation was the key to promoting the development of product design.The scheme of the clean trolley functional innovative design was proposed in this paper, which includes the transmission mechanism, sweeping brush mechanism and Sprinkling mechanism.In design processing,the 3-dimensional model of clean trolley was established and the motion simulation analysis was also presented.The results showed that the presented scheme satisfy the design requirements and have the better performance.
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Wibawa, Lasinta Ari Nendra. "DESAIN DAN ANALISIS TEGANGAN STRUKTUR CRANE KAPASITAS 10 TON MENGGUNAKAN METODE ELEMEN HINGGA". Jurnal Muara Sains, Teknologi, Kedokteran dan Ilmu Kesehatan 4, n.º 2 (29 de octubre de 2020): 201. http://dx.doi.org/10.24912/jmstkik.v4i2.7006.

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Crane is one of the heavy equipment that is widely used in the industry. The crane functions as a tool for lifting heavy loads and moving them from one place to another vertically and horizontally. In the LAPAN Garut office, it is used for the rocket assembly process. The study investigates the design and analysis of von Mises stress of crane structure with a capacity of 10 tons using mild steel material. The investigation was carried out numerically using Autodesk Inventor Professional 2017. The simulation results showed the Crane structure had a von Mises stress, deformation, mass, and safety factor respectively 63.73 MPa; 2,173 mm; 1.508,53 kg; and 3.25.Keywords: autodesk inventor 2017; finite element method; mild steel; stress analysis; von Mises stressABSTRAKCrane merupakan salah satu alat berat yang banyak digunakan dalam suatu industri. Crane berfungsi sebagai alat untuk mengangkat beban berat dan memindahkannya dari satu tempat ke tempat lain secara vertikal maupun horisontal. Di LAPAN Garut, Crane digunakan untuk proses perakitan roket. Penelitian ini meneliti tentang perancangan dan analisis tegangan von Mises struktur Crane dengan kapasitas 10 Ton menggunakan material mild steel. Analisis dilakukan secara numerik dengan menggunakan perangkat lunak Autodesk Inventor Professional 2017. Hasil simulasi menunjukkan struktur Crane memiliki tegangan von Mises, deformasi, massa, dan factor keamanan berturut-turut sebesar 63,73 MPa; 2,173 mm; 1.508,53 kg; dan 3,25.
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Wibawa, Lasinta Ari Nendra. "DESAIN DAN ANALISIS TEGANGAN CRANE HOOK MODEL CIRCULAR SECTION KAPASITAS 5 TON MENGGUNAKAN AUTODESK INVENTOR 2017". Simetris: Jurnal Teknik Mesin, Elektro dan Ilmu Komputer 10, n.º 1 (29 de abril de 2019): 27–32. http://dx.doi.org/10.24176/simet.v10i1.2669.

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Penelitian ini mengkaji tentang perancangan dan analisis tegangan Crane Hook model Circular Section dengan kapasitas 5 ton menggunakan material Stainless Steel dan Aluminium 6061. Analisis dilakukan secara numerik dengan menggunakan software Autodesk Inventor Professional 2017. Hasil penelitian menunjukkan bahwa material Aluminium memiliki massa dan faktor keamanan yang lebih baik daripada material Stainless Steel.
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Дейнеко, Л. Н., Н. Ф. Тертышная y А. В. Трубин. "ПОРОЖДАЮЩЕЕ ПРОЕКТИРОВАНИЕ – ИННОВАЦИОННЫЙ ПОДХОД К ПРОЕКТИРОВАНИЮ ЦИФРОВОГО ПРОТОТИПА ИЗДЕЛИЯ". Journal of Rocket-Space Technology 26, n.º 4 (5 de septiembre de 2018): 20–23. http://dx.doi.org/10.15421/451804.

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The problem of 3D-model weight optimization, which is used in a carrier rocket tank design, with use of technology of the generating design is considered. Tools and methodology of the generating design, with use of the Autodesk Inventor Professional software product are presented. The analysis of manufacturing techniques of the optimized details with technology of the generating design is carried out.
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Soesilo, Alvin, Agustinus Purna Irawan y Frans Jusuf Daywin. "PERANCANGAN KONSTRUKSI PADA SEGWAY". POROS 12, n.º 1 (1 de agosto de 2017): 46. http://dx.doi.org/10.24912/poros.v12i1.683.

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Abstract: Segway is the two wheeled personal transportation device which is light, strong, can balance themselves and used for short distance. On this segway design, performed modeling and construction load simulation with the help of Autodesk Inventor Professional 2012 software. On the loading simulation results, it was shown that segway’s construction have good strength, so it is safe to be driven.
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Firdaus, M. Ruhi. "ANALISIS PERBANDINGAN 3 MATERIAL SHAFT DRIVER HAMMER MILL TEPUNG BERAS DENGAN KECEPATAN 1465 rpm MENGGUNAKAN APLIKASI SOFTWARE “AUTODESK INVENTOR PROFESSIONAL 2015”". Mechonversio: Mechanical Engineering Journal 2, n.º 2 (28 de diciembre de 2019): 11. http://dx.doi.org/10.51804/mmej.v2i2.899.

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Shaft driver adalah salah satu komponen yang berada dalam rangkain mesin hammer mill pembuat tepung.Berfungsi untuk penahan / penopang pulley, fly wheel, revolping disk.Shaft driver tersebut di gerakkan oleh motor TECO.Dengan spesifikasi mesin hammer mill yang sekarang sudah ada 50 HP, 37 KW, 3 PHASE, 1465 RPM.Kerja yang begitu berat dan fungsi shaft driver yang sangat penting,Di butuhkan shaft driver yang kuat dan kokoh.Maka dari itu shaft driver ini harus melewati sebuah analisis atau perhitungan agar bisa kuat menopang beban fly wheel, pulley,dan revolping disk. Penelitian ini bertujuan untuk mengetahui pada titik lengkung, titik perpindahan, titik pertambahan panjang, titik luas area yang menerima beban dan fenomena perubahan yang terjadi, melakukan analisis material untuk mengetahui safety factor yang digunakan pada stainless 304.Dan melakukan simulasi dengan arah gaya, model, beban yang diterima shaft driver.Disini kami membuat analisis shaft driver mesin hammer mill ini menggunakan software Autodesk inventor professional 2015.Keuntungan menganalisis shaft driver di software Autodesk Inventor professional 2015 ini untuk membuat kemudahan bagi pengguna tanpa harus bersusah payah menghitung untuk mendesain shaft driver hammer mill dengan beban momen puntir dan lentur yang harus menopang pulley dan fly wheel.
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Zieliński, Krzysztof y Andrzej Piotrowski. "Analysis of construction of autonomous rotary table". Mechanik 92, n.º 7 (8 de julio de 2019): 459–61. http://dx.doi.org/10.17814/mechanik.2019.7.56.

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The article presents an analysis of the construction of an autonomous rotary table dedicated to coordinate measuring machines. The axis of the table rotation is the fourth, controlled axis extending the capabilities of the classical three-axes measuring machine with the possibility of measuring objects with repetitive contours on the circumference: gears, hobs, etc. The analysis was performed using the CAD/CAE Autodesk Inventor Professional 2018 program.
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Wibawa, Lasinta Ari Nendra. "Desain dan Analisis Tegangan Alat Pengangkat Roket Kapasitas 10 Ton Menggunakan Metode Elemen Hingga". Jurnal Energi dan Teknologi Manufaktur (JETM) 2, n.º 01 (30 de junio de 2019): 23–26. http://dx.doi.org/10.33795/jetm.v2i01.31.

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This study examines the design and stress analysis of a 10 ton capacity rocket lifting device using the finite element method. The material used is Aluminum alloy 7075. Finite element analysis is done numerically by using Autodesk Inventor Professional 2017. software The simulation results show that the structure of the rocket lift has Von Mises stress, deformation, mass, and safety factors of 46.34 MPa, 0.7947 mm, 186.75 kg, and 3.13.
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Sousa, Ana Carolina Cavalcante de, Fernanda Souza Oliveira y Simone Pereira Taguchi Borges. "Stress and strain analysis using Autodesk Inventor software in soil-cement brick". Research, Society and Development 10, n.º 14 (6 de noviembre de 2021): e381101422028. http://dx.doi.org/10.33448/rsd-v10i14.22028.

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The computational analysis of materials is fundamental for a better understanding of their physical and mechanical properties, achieving more results in a shorter time. It is a cheaper, non-destructive, practical way, and easily adaptable to various types of models and physical influences. This study has the objective of ascertaining the stress and strain analysis in soil-cement brick through the Autodesk Inventor Professional software, which uses the finite element method. Three models of brick were made: two holes, monoblock, and groove, which are the most commonly used shapes. To the two holes model, the maximum first principal stress observed was 1.464x10-1 MPa and the third principal stress was 5.4x10-3 MPa, presenting an insignificant strain of 1.037x10-3 mm. In the monoblock model, the maximum first principal stress was 4.606x10-1 MPa, and the third principal stress was 1.19x10-2 MPa, presenting a strain of 1.611x10-3 mm. The groove model presented the maximum first principal stress at 3.263x10-1 MPa and for the third principal stress was 9.1x10-3 MPa, respectively, presenting a strain of 3.344x10-3 mm. It can also be observed that the models have stress concentrating regions in the sharp edges and notches of the part. Among the three models studied, the one that presented the most favorable stress-strain conditions was the two-hole model. Since it has a larger contact area, the load applied to it was better distributed, presenting higher resistance than the other models with a smaller contact area.
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Telegin, V. V. y I. V. Telegin. "A study of the cultivator suspension’s strength based on its solid model in Autodesk Inventor Professional". IOP Conference Series: Materials Science and Engineering 971 (1 de diciembre de 2020): 032075. http://dx.doi.org/10.1088/1757-899x/971/3/032075.

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Tesis sobre el tema "Autodesk Inventor Professional"

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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych y С. В. Шумило. "Планировщик ЗАДАЧ AUTODESK INVENTOR PROFESSIONAL R11". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19475.

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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych y С. А. Глущенко. "Генератор рам в AUTODESK INVENTOR PROFESSIONAL R11". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19474.

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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych y А. К. Дермелева. "Моделирование динамики в AUTODESK INVENTOR PROFESSIONAL R11". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19410.

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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych y В. А. Каминская. "Анализ прочности в AUTODESK INVENTOR PROFESSIONAL R11". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19411.

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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych y А. В. Кинашевская. "Особенности создания спецификаций в AUTODESK INVENTOR PROFESSIONAL R11". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19407.

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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych, Богдан Леонідович Ковальов, Богдан Леонидович Ковалев y Bohdan Leonidovych Kovalov. "Проектирование сварных конструкций в AUTODESK INVENTOR PROFESSIONAL R11". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19409.

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Nepokoj, Lukáš. "Nové možnosti modelování v programu Autodesk Inventor Professional 2008". Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2008. http://www.nusl.cz/ntk/nusl-217594.

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This work describes the latest developments of program Autodesk Inventor Professional 2008, particularly aimed at Inventor Studio. There is the manual created for this program describing individual tools and their utilization in Inventor Studio. Further this paper shows the animation possibilities on simple models from power electrical engineering. Finally a measurement has been taken and a data evaluation of EC motor has been made with an object animation which represents the assembly process of this motor.
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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych y О. И. Василенко. "Особенности проектирования кабельных трасс в AUTODESK INVENTOR PROFESSIONAL R11". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19481.

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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych, Юлія Вікторівна Парфененко, Юлия Викторовна Парфененко y Yuliia Viktorivna Parfenenko. "Проектирование изделий из листового металла в AUTODESK INVENTOR PROFESSIONAL R11". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19490.

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Концевич, Валерій Георгійович, Валерий Георгиевич Концевич, Valerii Heorhiiovych Kontsevych y А. В. Карпенко. "Усовершенствования в AUTODESK INVENTOR PROFESSIONAL R1 в области данных конструирования". Thesis, Изд-во СумГУ, 2007. http://essuir.sumdu.edu.ua/handle/123456789/19400.

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Libros sobre el tema "Autodesk Inventor Professional"

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Autodesk Inventor Professional 11: Learning License. McGraw-Hill Companies, 2007.

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Ascent - Center for Technical Knowledge. Autodesk Inventor 2019 : Review for Professional Certification: Autodesk Authorized Publisher. ASCENT, Center for Technical Knowledge, 2018.

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Autodesk inventor professional 10: Routed systems : getting started. San Rafael, Calif. : $b Autodesk, $c c2005, 2005.

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Autodesk inventor professional 10: Stress analysis : getting started. San Rafael, Calif. : $b Autodesk, $c c2005, 2005.

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Getting started: Autodesk Inventor professional 9 routed systems. [San Rafael, Calif.]: Autodesk, 2004.

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Ascent - Center for Technical Knowledge. Autodesk Vault Professional 2019 : Data Management for Inventor Users: Autodesk Authorized Publisher. ASCENT, Center for Technical Knowledge, 2019.

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Autodesk. Autodesk Inventor Professional 7 SPV Academic Career License (Perpetual. Autodesk Press, 2003.

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Autodesk. Autodesk Inventor Professional 7 SPV One-year Term License. Autodesk Press, 2003.

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Capítulos de libros sobre el tema "Autodesk Inventor Professional"

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Gembarski, Paul Christoph, Haibing Li y Roland Lachmayer. "KBE-Modeling Techniques in Standard CAD-Systems: Case Study—Autodesk Inventor Professional". En Managing Complexity, 215–33. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-29058-4_17.

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ROJAS-SOLA, José Ignacio y Eduardo DE LA MORENA-DE LA FUENTE. "Agustin de Betancourt’s plunger lock: Approach to its geometric modeling with Autodesk Inventor Professional". En Lecture Notes in Mechanical Engineering, 757–65. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-45781-9_76.

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Samoylova, Anastasia Sergeevna, Ekaterina Olegovna Bobrova, Valentina Valentinovna Britvina y Galina Pavlovna Konyukhova. "IT Technologies in Mechanical Engineering". En Advances in Systems Analysis, Software Engineering, and High Performance Computing, 187–201. IGI Global, 2022. http://dx.doi.org/10.4018/978-1-7998-9059-1.ch012.

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This work is devoted to the implementation of IT technologies in the engineering industry. The chapter presents a model of the Autodesk Inventor Pro + project, which is a prototype of the CAD system Autodesk Inventor Professional, based on the programming of a gear wheel, which makes it possible to increase the profitability of production in mechanical engineering. The chapter also presents theoretical assumptions for optimizing the assembly and made a server for generating a research report, which will determine the existence of this part.
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Actas de conferencias sobre el tema "Autodesk Inventor Professional"

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Zafar, Abdullaev, Nasritdinova Umida y Khamraeva Shakhnoza. "Modeling dynamic operation of mechanisms in Autodesk Inventor Professional 11". En 2019 International Conference on Information Science and Communications Technologies (ICISCT). IEEE, 2019. http://dx.doi.org/10.1109/icisct47635.2019.9011865.

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Dues, Joseph Francis. "Stress Analysis for Novices Using Autodesk Inventor". En ASME 2006 International Mechanical Engineering Congress and Exposition. ASMEDC, 2006. http://dx.doi.org/10.1115/imece2006-14569.

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Finite element analysis (FEA) is a numerical method for calculating stress and strain (and other quantities) in structures that cannot be easily analyzed any other way. FEA analysts use complex software to create a mathematic representation of the physical structure being studied, apply loads to the structure and then solve for the resulting displacements and stresses. In years past, FEA was performed by highly trained analysts with master's level engineering degrees or higher. Today, the combination of competitive market pressures, powerful computer hardware and well designed software has resulted in CAD designers being asked to perform FEA early in the design process. To enable these designers to perform FEA analysis, solid modeling software vendors have incorporated FEA into their solid modeling and design drafting packages. Autodesk Inventor Professional 9 now includes FEA capability from ANSYS, Inc. Earlier versions of this software (without FEA) were used at this University to instruct students in solid modeling and design drafting. With new and ever expanding software capabilities, faculty had to determine how to prepare engineering technology students to use the software appropriately. This paper begins with a discussion of the implementation of FEA in Inventor and strategies for educating engineering technology students in FEA. Then it describes an assignment that demonstrates the stress analysis capability of Inventor after the students have mastered solid modeling. This paper discusses the assignment and compares the results achieved by the students to the expected stress values. Each of the steps of the FEA procedure is examined; define the geometry and material, apply constraints, apply loads, solve and then interpret the results; and the likely areas of student error are discussed. Lastly is a description of the assessment, evaluation and planned improvements to the FEA assignments.
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Filinskih, Aleksandr. "Component approach to the translation of geometric models". En International Conference "Computing for Physics and Technology - CPT2020". Bryansk State Technical University, 2020. http://dx.doi.org/10.30987/conferencearticle_5fce27710c7721.55039399.

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The article considers the issue of different approaches to assessing the transfer of geometric models of assembly units between different professional software environments of different vendors. A model for calculating the metric of the volume of data loss and the calculation of the relative volume of manual recovery of geometric models after their translation are considered. For evaluation, a hierarchical structure of the parameters of geometric models is used, as well as a graph of parameters, based on which structural weighting coefficients are calculated. Algorithms of the considered approaches are described, their differences are considered. The assembly unit of a machine-building unit was constructed in the Autodesk Inventor Professional software product. Based on the parameters of the obtained geometric model, the corresponding parameter graphs were constructed and calculations were made for each proposed approach to data translation. The model was exported and the resulting files were analyzed. Weights were calculated that reflect expert preferences and structural features and are determined in accordance with the theory of rational choice. The assembly model was translated into the KOMPAS-3D geometric modeling environment. Based on the data obtained in different formats, an analysis was made and parameter distortion coefficients were obtained and the relative amount of parameter data losses was estimated when transferring the geometric model from the professional software environment Autodesk Inventor Professional to the KOMPAS-3D environment. Conclusions are made and recommendations are given on the possibility of applying the component approach to the translation of geometric models in professional software environments.
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Malíková, Zuzana y Jozef Čerňan. "Possible modifications of the automobile piston petrol engine for aircraft propulsion: cooling, starting and ignition system". En Práce a štúdie. University of Žilina, 2021. http://dx.doi.org/10.26552/pas.z.2021.1.14.

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The main goal of our work was to design a possible modification of the automobile piston petrol engine for aircraft propulsion and subsequently its implementation. The paper can be divided into four main units. The first part is aimed on the history and development of automobile and aircraft piston engines. We focused on their construction and gradual improvement of performance. The second unit is dedicated to theoretical knowledge of the cooling, starting and ignition systems. In the cooling system, we mainly described air cooling and the required components needed for that process. In the starting system, we paid attention to the necessity of starting gears, their types and uses. We described mainly electric starters and then we attached a diagram of the starting system. In the ignition system, we described the structural elements required for the process of igniting a mixture of fuel and air. In the following section, we described the engine used for aeroconversion, its parameters and the reason for its selection. In the last part we deal with the practical part of the paper. We created the component models needed for the complete construction of these systems, which were created in the computer program Autodesk Inventor Professional 2021. We prepared the cooling system for more efficient air cooling by adding deflectors, in the starting system we used a starter with a reducer to increase torque and reduce fuel consumption and in the ignition system, we proposed a modification of the flywheel made of dural material, which would reduce the overall weight of the engine. The result of our work is a finished design for aeroconversion of a flat four-cylinder engine. The modified engine is suitable for ultralight aircraft.
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