Relevant bibliographies by topics / Autodesk Inventor 2017

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  2. Dissertations / Theses
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  5. Conference papers

Academic literature on the topic 'Autodesk Inventor 2017'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 June 2025

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Journal articles on the topic "Autodesk Inventor 2017"

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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, no. 2 (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, no. 1 (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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Wibawa, Lasinta Ari Nendra. "Desain dan Simulasi Elemen Hingga Gantry Crane Kapasitas 9 Ton Menggunakan Autodesk Inventor 2017." Manutech : Jurnal Teknologi Manufaktur 11, no. 02 (2019): 41–48. https://doi.org/10.5281/zenodo.5910213.

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Currently, the gantry crane in LAPAN Garut still uses steel material. The steel material is protected using a coating to minimize the impact of corrosion. However, this method is less efficient, considering the corrosion rate in LAPAN Garut is very high because it is located on the coast of Cilauteureun. It also creates problems in terms of maintenance because it has to be done regularly and periodically repainting. In addition, not all equipment is available maintenance funds every year. The objective of this paper is to design and analyze the stress of a gantry crane with a capacity of 9 tons using Aluminum 6061 material. The material used is three units of JIS G 3192 H standard frame (I-shape) with a size of 150 x 150 x 7 mm, four units of JIS G 3466 frame (square profile) with a size of 150 x 150 x 6 mm, and four units of JIS G 3466 frame (square profile) with a size of 125 x 125 x 6 mm. Finite element analysis is performed using Autodesk Inventor Professional 2017 software. The simulation results show that the gantry crane has a mass, von Mises stress, deformation, and safety factors respectively at 165.36 kg; 132.9 MPa; 13.67 mm; and 2.07.
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Jaya, Ahmad, Anas Muliadin, Indra Darmawan, Titi Andriani, Nova Aryanto, and Muhammad Hidayatullah. "Desain Steam Boiler Pembangkit Listrik Tenaga Biomassa Skala Kecil Menggunakan Software Autodesk Inventor 2017." Jurnal Fisika Flux: Jurnal Ilmiah Fisika FMIPA Universitas Lambung Mangkurat 18, no. 2 (2021): 93. http://dx.doi.org/10.20527/flux.v18i2.10273.

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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, no. 01 (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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Siswantoro, Bagas, Kardiman -, and Ratna Dewi Anjani. "BLADE VOLTAGE ANALYSIS OF PLASTIC CHEARING MACHINE USING SKD 11 MATERIAL USING AUTODESK INVENTOR SOFTWARE 2017." T R A K SI 23, no. 2 (2024): 185. https://doi.org/10.26714/traksi.23.2.2023.185-214.

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Plastic waste is a problem for all humans and animals because plastic is difficult to decompose by the soil, it takes a long time for plastic to decompose. Indonesia has a large population and every year it will continue to increase and the use of plastic in Indonesia will also continue to increase, especially plastic bottle waste. Plastic chopping knife is an important component for the results of shredding plastic waste, there are many types of chopping knives according to the desired chopping results. Knives must be declared strong and tough to chop plastic into powder or small granules. In order to meet the needs in accordance with the planned workings of the plastic chopping machine, a plastic chopper knife design was made using SKD 11 material with a load of 50kg, 100kg and 150kg, so research was made. inventor 2017 . The results obtained from the manual calculation of the von misses stress load of 50kg, 100kg and 150kg are 45,143.3 Mpa, 86,096.8 Mpa, 129,128.4 Mpa. The displacement obtained is 0.243 mm, 0.487 mm, 0.731 mm. The resulting safety factor is 10.41 ul, 5.46 ul, 5.32 ul. While the results of the static simulation with the same load in the inventor, the value of von misses stress is 63,928 MPa, 127,813 MPa, and 191,712 MPa. The displacement obtained is 0.1133 mm, 0.2266 mm, 0.3399 mm. the results of the simulation of the safety factor 7.5 ul, 3.6 ul, 2.5 ul. From the stresses that occur, the skd 11 material is declared safe because the value is still smaller than the yield strength, which is 470 Mpa.
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Wibawa, Lasinta Ari Nendra. "Pengaruh Kecepatan Landing Vertikal Terhadap Ketahanan Beban Impak Rangka Landing Gear Menggunakan Metode Elemen Hingga." Angkasa: Jurnal Ilmiah Bidang Teknologi 11, no. 1 (2022): 35–42. https://doi.org/10.28989/angkasa.v11i1.434.

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This study aimed to investigate the effect of vertical landing speed on impact load resistance of the landing gear frame using the finite element method. Stress analysis was done using Autodesk Inventor Professional 2017 software. The landing gear frame material used Aluminum alloy 5083. The UAV weighed 100 kg and had an impact time of 0.5 seconds. Vertical landing speeds were 7 m/s, 8 m/s, 9 m/s, and 10 m/s. Simulation results show that the landing gear frame is safe enough to withstand landing speeds of up to 9 m/s because it has a safety factor of 3.201.
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Ananda, Dhea Nuni, Rizal Hanifi, and Aa Santosa. "Perancangan dan Analisis Tegangan pada Desain Footrest Sepeda Motor Menggunakan Autodesk Inventor." Jurnal Teknik Mesin 14, no. 1 (2021): 1–5. http://dx.doi.org/10.30630/jtm.14.1.479.

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Motorbikes are widely chosen by the public as a mode of transportation in modern times, one of which is the automatic scooter type motorcycle. Visually, the matic scooter type motorcycle components have a nice and attractive shape, but this shape does not necessarily guarantee its safety. Not a few of these components have failed (broken) as happened to the footrest. Footrest is a component of a motorcycle vehicle that functions as a footrest for motorcycle passengers. Every different type of motorbike, the footrest shape is also different. The purpose of this study is to design a footrest design and analyze it with the help of software to obtain a footrest design that has a high safety factor value. The design of the motorcycle footrest design produces 3 different designs. The three designs were analyzed using the Autodesk Inventor 2017 software stress by providing a static load of 20 Kg and 90 Kg. From the analysis, the minimum safety factor value obtained from each footrest design against a load of 20 kg in design 1 is 13.42, design 2 is 5.7, and design 3 is 7.93. While the minimum safety factor value generated from each footrest design against a load of 90 kg in design 1 is 2.98, design 2 is 1.27, and design 3 is 1.76. Based on the results of the safety factor analysis carried out, the three designs are safe enough to withstand loads of 20 Kg and 90 Kg. But design 1 is safer because the resulting value of the safety factor is higher than the three designs, which is 2.98 to withstand a load of 90 Kg.
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Wibawa, Lasinta Ari Nendra, and Dwi Aries Himawanto. "ANALISIS KETAHANAN BEBAN DINAMIS MATERIAL TURBIN ANGIN TERHADAP KECEPATAN PUTAR ROTOR (RPM) MENGGUNAKAN METODE ELEMEN HINGGA." Simetris: Jurnal Teknik Mesin, Elektro dan Ilmu Komputer 9, no. 2 (2018): 803–8. http://dx.doi.org/10.24176/simet.v9i2.2343.

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Penelitian ini mengkaji tentang ketahanan beban dinamis material CFRP dan Aluminium 6061 untuk material turbin angin terhadap kecepatan putar rotor (rpm). Desain 3 (tiga) bilah turbin angin menggunakan airfoil NACA 2415 dengan panjang 500 mm. Analisis dilakukan secara numerik dengan menggunakan software Autodesk Inventor Professional 2017. Variasi kecepatan rotor yang digunakan yaitu 100 rpm, 200 rpm, 300 rpm, dan 400 rpm. Hasil penelitian menunjukkan material CFRP memiliki faktor keamanan yang lebih baik daripada material Aluminium 6061 saat pengujian dengan menggunakan kecepatan rotor 400 rpm.
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Satrio Utomo, Ilham, and Rangga Arya Fachreza. "DESAIN ALAT BONGKAR PASANG COWHANGER PADA LOKOMOTIF DENGAN PENGGERAK ULIR." Jurnal Penelitian Sekolah Tinggi Transportasi Darat 12, no. 2 (2022): 25–34. http://dx.doi.org/10.55511/jpsttd.v12i2.588.

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Bongkar pasang cowhanger saat ini masih dilakukan dengan cara manual yaitu dengan cara mengganjal cowhanger dengan balok-balok di atas rel. Untuk pemindahan cowhanger masih dengan cara manual yakni diangkat menggunakan tangan yang tentu saja beresiko bagi pekerja. Penelitian ini bertujuan untuk melakukan desain serta perhitungan kekutan pada alat bantu bongkar pasang cowhanger. Software yang digunalan dalam penelitian ini dengan Autodesk Inventor 2017. Hasil simulasi menunjukkan alat ini bisa menerima beban maksimal sebesar 2000 N serta tegangan terbesarnya adalah 1,596 Mpa dan tegangan terkecilnya adalah 0,761.
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Dissertations / Theses on the topic "Autodesk Inventor 2017"

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Eranki, Venkata Krishna Prashanth, and Gurudu Rishank Reddy. "Design and Structural Analysis of a Robotic Arm." Thesis, Blekinge Tekniska Högskola, Institutionen för maskinteknik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-13834.

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Automation is creating revolution in the present industrial sector, as it reduces manpower and time of production. Our project mainly deals around the shearing operation, were the sheet is picked manually and placed on the belt for shearing which involves risk factor. Our challenge is designing of pick and place operator to carry the sheet from the stack and place it in the shearing machine for the feeding. We have gone through different research papers, articles and had observed the advanced technologies used in other industries for the similar operation. After related study we have achieved the design of a 3-jointed robotic arm were the base is fixed and the remaining joints move in vertical and horizontal directions. The end effector is also designed such that to lift the sheet we use suction cups were the sheet is uplifted with a certain pressure. Here we used Creo-Parametric for design and Autodesk-Inventor 2017 to simulate the designed model.
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Saldaña, Pomazunco Jorge Luis. "Creación de estándares para planos mediante el software CAD Autodesk Inventor Professional 2012: caso: diseño de una matriz de corte y embutido." Bachelor's thesis, Universidad Nacional Mayor de San Marcos, 2012. https://hdl.handle.net/20.500.12672/13911.

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El objetivo principal de este informe es resaltar el proceso de creación de estándares para la elaboración de planos de fabricación en el contexto del diseño de un prototipo digital como se muestra en el caso específico de una matriz de corte y embutido logrando de esta manera un incremento de la productividad, en función a la precisión, claridad y tiempos minimizados en la producción de los planos de fabricación. Mediante el software CAD Autodesk Inventor v. 2011 se diseñó el prototipo digital, una matriz de corte y embutido, se modeló todos los componentes de la herramienta de alta producción, se procedió a crear asimismo los subensambles y el ensamble general. Asimismo se realizó el modelado de los mismos componentes en Autocad realizándose un cuadro comparativo de tiempos de modelado entre ambos software CADs que confirmó al primero como una alternativa de software CAD para la creación de estándares, no obstante un tercer software CAD como Solidworks se presentaba como una alternativa de características muy similares a las de Autodesk Inventor, sin embargo, factores determinantes como costos de licencia, mantenimiento, soporte técnico, herramientas complementarias entre otros, señalaron al producto de Autodesk la alternativa CAD ideal. En el presente trabajo se explica detalladamente los procedimientos para la creación de cada estilo relacionado a las normas ISO correspondientes a las anotaciones propias de un plano de fabricación.<br>Trabajo de suficiencia profesional
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Saldaña, Pomazunco Jorge Luis. "Creación de Estándares para planos mediante el software CAD Autodesk Inventor Professional 2011 Caso: Diseño de una Matriz de Corte y Embutido." Bachelor's thesis, Universidad Nacional Mayor de San Marcos, 2012. https://hdl.handle.net/20.500.12672/2251.

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El objetivo principal de este informe es resaltar el proceso de creación de estándares para la elaboración de planos de fabricación en el contexto del diseño de un prototipo digital como se muestra en el caso específico de una matriz de corte y embutido logrando de esta manera un incremento de la productividad, en función a la precisión, claridad y tiempos minimizados en la producción de los planos de fabricación. Mediante el software CAD Autodesk Inventor v. 2011 se diseñó el prototipo digital, una matriz de corte y embutido, se modeló todos los componentes de la herramienta de alta producción, se procedió a crear asimismo los subensambles y el ensamble general. Asimismo se realizó el modelado de los mismos componentes en Autocad realizándose un cuadro comparativo de tiempos de modelado entre ambos software CADs que confirmó al primero como una alternativa de software CAD para la creación de estándares, no obstante un tercer software CAD como Solidworks se presentaba como una alternativa de características muy similares a las de Autodesk Inventor, sin embargo, factores determinantes como costos de licencia, mantenimiento, soporte técnico, herramientas complementarias entre otros, señalaron al producto de Autodesk la alternativa CAD ideal. En el presente trabajo se explica detalladamente los procedimientos para la creación de cada estilo relacionado a las normas ISO correspondientes a las anotaciones propias de un plano de fabricación.<br>Tesis
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Yu, Miao, Nanhai Huang, and Qianxin Xu. "Multi-functional adjustable table for people staying longer time in bed due to disability." Thesis, Blekinge Tekniska Högskola, Institutionen för maskinteknik, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-813.

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This product presents the design of a useful multi-functional adjustable table. It will bring great convenience to people with disability who spend most of time in bed, so as to meet their daily needs. Since there are already many similar products on the market, we focused on updating the functions on table, which can help people reading books or using tablet PC on beds in a comfortable way. It can also support people to stand up and walk around. There is a C-clamp fixing the product consolidated to bed. Besides, the hydraulic and micro-computer systems are used to adjust the table into a proper height automatically. The whole structure was designed in Autodesk Inventor 2015, and the simulation, test, analysis experiments were made in Abaqus 6.1.2 to ensure its safety and stability. In addition, this design can be an incentive for the improvement of the auxiliary equipment, highlighting the importance of the development of mechanisms for the healthcare.
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Sedláček, Petr. "Pevnostní a modální analýza v parametrických adaptivních CAD programech." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2010. http://www.nusl.cz/ntk/nusl-218805.

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This thesis is focusing on the use of the finite element method (FEM) in program environment of Autodesk Inventor Professional (AIP) 2010. For the analysis of the components or assemblies with FEM serves the Strength analysis module of the AIP 2010, whose environment and functions are detailed in this thesis. At the conclusion practical examples of modal and static analysis on the synchronous generator rotor model are demonstrated including a brief evaluation of the results.
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Levin, Niklas. "Analys och vidareutveckling av lyftok till Dendro Lift ABs lyftbock LB2.5." Thesis, Högskolan i Gävle, Avdelningen för Industriell utveckling, IT och Samhällsbyggnad, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-24038.

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Dendro Lift AB är ett företag som utvecklar och tillverkar lyftbockar för tunga lyft. Tillsammans med konstruktionsföretaget Mk3D tar Dendro Lift AB fram ett nytt koncept för en lyftbocksmodell till lyft av stödbenstruckar. Syftet med examensarbetet är att vidareutveckla lyftoket till lyftbocken LB2.5 genom att minska materialanvändningen och bereda plats för ett nytt damm- och petskydd. Målet med examensarbetet är att ta fram underlag för tillverkning av ett nytt lyftok som uppfyllde ställda krav. Vid genomförandet av examensarbetet gjordes en förstudie kring dimensioneringskraven, spänningar i skruvförband, utvärdering av spänningar i svetsar, finita elementmetoden och hållbar utveckling. Förstudien följdes av analyser och vidareutveckling av lyftoket med finita elementanalyser i mjukvaran ANSYS Workbench 17.2. Modeller togs fram i Autodesk Inventor Professional 2016. Resultatet visade att det nya lyftokets plåttjocklek kunde minskas från 15 mm till 10 mm och därmed reducerades materialanvändningen med cirka 66 kg. I det nya lyftoket bereddes även plats för en ny typ av damm- och petskydd. Slutsatsen blir att det gamla lyftoket är överdimensionerat och mindre material kan användas utan att funktionen i lyftoket försämras.<br>Dendro Lift AB is a company that develops and manufactures lifting jacks for heavy lifting. Along with the construction company Mk3D, Dendro Lift AB introduces a new concept for a lifting trestle designed to lift stackers. The aim of the thesis is to further develop the yoke fitted in the lifting jack LB2.5 by reducing its material use and make way for a new dust and finger protection. The goal of the thesis is to develop manufacturing plans for the production of a new lifting yoke that meets the applicable requirements. In the implementation of the thesis there was a preliminary study on the design requirements, tension in bolted joints, evaluation of stresses in welds, finite element method analysis and sustainable development. The pilot study was followed by analysis and further development of the yoke with finite element analysis in software ANSYS Workbench 17.2. Models were developed in Autodesk Inventor Professional 2016. The results showed that the plate thickness could be reduced from 15 mm to 10 mm in the new yoke and thus reduced material usage by about 66 kg. The new yoke was also prepared for a new type of dust and finger protection. The conclusion was that the old yoke is oversized and less material can be used without compromising the operation of the lifting jack.
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Fan, Rong, and Peng Wu. "Multi-functional fitness chair for light weight trainer." Thesis, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-11976.

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Nowadays, physical inactivity has become a global problem. According to the research, about 5.3 million deaths all over the world in 2008 could be attributed to inactivity [1]. However, it is enough to do a little exercise every day to reduce the risk of premature deaths by as much as 30 percent. Due to the increasing working pressure, people do not have enough time to go to gym and do exercises, which means that the design of multi-functional fitness chair is necessary so that people can do exercise at home at any time.There have already been many similar household fitness products in the market, but most of them take up large space and the training part is very simple. In comparison, the multi-function fitness chair designed in this thesis combines several fitness equipment together in one chair, so it would save a lot of space, and yet provides possibility to perform versatile exercise.The product was designed in Autodesk Inventor 2015, and finite element analysis was performed in Inventor 2015 and for checking the strength and safety of the design.
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Books on the topic "Autodesk Inventor 2017"

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Tremblay, Thom. Autodesk Inventor 2010. John Wiley & Sons, Ltd., 2009.

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Travis, Jones, and Kalameja Alan J, eds. Autodesk inventor 2012. Delmar Cengage Learning, 2012.

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1967-, Tremblay Thom, and ebrary Inc, eds. Mastering Autodesk Inventor 2011 and Autodesk Inventor LT 2011. Sybex, 2010.

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Waguespack, Curtis. Mastering Autodesk Inventor 2012 and Autodesk Inventor LT 2012. Wiley Technology Pub., 2011.

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Short, Thomas. Learning Autodesk Inventor, 2010. 6th ed. Goodheart-Willcox Company, 2010.

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Anthony, Dudek, ed. Learning Autodesk Inventor, 2010. 6th ed. Goodheart-Willcox Company, 2009.

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Thomas, Short. Learning Autodesk Inventor, 2010. 6th ed. Goodheart-Willcox Company, 2010.

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Short, Thomas. Learning Autodesk Inventor, 2010. 6th ed. Goodheart-Willcox Company, 2009.

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Kishore, T. Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5.

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Banach, Daniel T. Autodesk Inventor 2011 essentials plus. Delmar, Cengage Learning, 2011.

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Book chapters on the topic "Autodesk Inventor 2017"

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Kishore, T. "Getting Started with Autodesk Inventor 2018." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_1.

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Kishore, T. "Part Modeling Basics." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_2.

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Kishore, T. "Assembly Basics." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_3.

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Kishore, T. "Creating Drawings." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_4.

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Kishore, T. "Additional Modeling Tools." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_5.

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Kishore, T. "Sheet Metal Modeling." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_6.

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Kishore, T. "Top-Down Assembly and Joints." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_7.

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Kishore, T. "Dimensions and Annotations." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_8.

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Kishore, T. "Model-Based Dimensioning." In Learn Autodesk Inventor 2018 Basics. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3225-5_9.

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Sánchez Sánchez, Miryam B., Miguel Pleguezuelos González, and José I. Pedrero Moya. "A Distance Teaching Experience in Gear Design with Autodesk Inventor." In Trends in Educational Activity in the Field of Mechanism and Machine Theory (2018–2022). Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-25730-8_20.

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Conference papers on the topic "Autodesk Inventor 2017"

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Igwe, Chijindu Ikechukwu, Chinonso Hubert Achebe, Arinze Everest Chinweze, and Jeremiah Lekwuwa Chukwuneke. "Development and Evaluation of an Alkaline Electrolyzer for Production of Hydrogen and Electrical Energy in a Fuel Cell." In Africa International Conference on Clean Energy and Energy Storage. Trans Tech Publications Ltd, 2025. https://doi.org/10.4028/p-kd6hw7.

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In this study, a single-cell, zero-gap, unipolar alkaline water electrolyzer which operates on a 30 wt.% KOH electrolyte solution was developed for production of hydrogen. Suitable material properties such as density, toughness, electrical conductivity, and corrosion resistivity were evaluated in Ansys Granta 2019 with the aid of material property charts; and thermal and stress simulations of the modelled components performed using Autodesk Inventor Nastran 2019. A DC power source supplied voltages below 3.0 V across the nickel electrodes, maintaining an operating temperature of 50 °C, and operating pressure at 0.1 MPa. The electrolytic process produced hydrogen and oxygen gases at the electrodes, and the membrane performed the gas separation. Polytetrafluoroethylene plastic was experimentally found to be a superior and more suitable material for the electrolyzer endplates and spacers to polypropylene plastic. Polypropylene nonwoven geotextile fabric was also found to be a low-cost and efficient membrane material, against Zirfon Perl UTP 500 membrane which is an efficient but expensive industrial membrane; polyester geotextile fabric got corroded after about 24 hours of good service. The optimal performance of the electrolyzer cell was obtained at a cell voltage of 2.2 V and a current of 1.30 A, while producing 14 ml of hydrogen gas per minute. This performance gave an electrolysis efficiency of 55.6%, an energy efficiency of 67.3%, and a hydrogen production efficiency of 75.4%. The produced hydrogen and oxygen gases generated electrical energy in a reversible PEM fuel cell device which powered a 0.2 W DC electric motor for a minute.
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Balakin, Aleksey, Natal'ya Balakina, and M. Mezina. "USING MS EXCEL VARIABLES IN AUTODESK INVENTOR WHEN DESIGNING PRODUCTS OF VARYING COMPLEXITY." In CAD/EDA/SIMULATION IN MODERN ELECTRONICS 2019. Bryansk State Technical University, 2019. http://dx.doi.org/10.30987/conferencearticle_5e02820f85f118.90343643.

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The possibilities of creating digital prototypes of products of varying complexity using Autodesk Inventor and MS Excel variables are considered. The procedure for creating solid models using Autodesk Inventor and their relationship with MS Excel variables is given using an example of a plunger-type part. The advantages of using this design method are given.
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Isnugroho, Kusno, David C. Birawidha, and Yusup Hendronursito. "Optimizing hammer mill hammers (HMHs) forms by using autodesk inventor." In THE 2016 CONFERENCE ON FUNDAMENTAL AND APPLIED SCIENCE FOR ADVANCED TECHNOLOGY (CONFAST 2016): Proceeding of ConFAST 2016 Conference Series: International Conference on Physics and Applied Physics Research (ICPR 2016), International Conference on Industrial Biology (ICIBio 2016), and International Conference on Information System and Applied Mathematics (ICIAMath 2016). Author(s), 2016. http://dx.doi.org/10.1063/1.4953996.

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Zafar, Abdullaev, Nasritdinova Umida, and Khamraeva Shakhnoza. "Modeling dynamic operation of mechanisms in Autodesk Inventor Professional 11." In 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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Filipovich, Oleg, D. Koshevaya, N. Kadykov, V. Kamcev, and A. Gomonyuk. "THE USE OF CAD IN THE DESIGN OF THE RING BODY OF NEURO-HEADSET." In CAD/EDA/SIMULATION IN MODERN ELECTRONICS 2019. Bryansk State Technical University, 2019. http://dx.doi.org/10.30987/conferencearticle_5e02821000ca08.48283804.

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Balakina, Natal'ya, Aleksey Balakin, M. Mezina, D. Bochko, and V. Cygankova. "USING CAD FOR STRESS ANALYSIS IN THE DESIGN OF KEYS FOR ORTHOPEDIC INSTRUMENTS." In CAD/EDA/SIMULATION IN MODERN ELECTRONICS 2019. Bryansk State Technical University, 2019. http://dx.doi.org/10.30987/conferencearticle_5e02820f8eb634.36433163.

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The possibilities of using Autodesk Inventor for stress analysis in the design of keys for orthopedic instruments are considered. The stages of the simulation are shown. A stress analysis of one of the keys is performed, which previously confirmed the compliance of the developed design with the requirements for such products.
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Zhu, Xilin, and Xiaomei Li. "Notice of Retraction: Teaching and Practice Based on Three-Dimensional Modeling Technology of Autodesk Inventor." In 2011 Third Pacific-Asia Conference on Circuits, Communications and System (PACCS). IEEE, 2011. http://dx.doi.org/10.1109/paccs.2011.5990097.

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Vlasenko, Dmitry, and Roland Kasper. "Integration Method of CAD Systems." In ASME 2007 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2007. http://dx.doi.org/10.1115/detc2007-35065.

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This paper presents the modification of a non-iterative algorithm for the component-oriented simulation of the dynamics of multibodies. Now the method can be implemented for the component-oriented simulation of the dynamics of CAD systems with redundant constraints. Also the new version of the method is well-suitable for the implementation of sparse solvers. The algorithm was implemented in the Virtual System Designer (VSD) software, integrated with a CAD tool Autodesk Inventor. The simulation results of two CAD models: a car and a steam machine shows the method’s stability and accuracy.
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Park, Hong-Seok, and Khash-Ochir Namjil. "Design of Flexible Membrane Fixture for Automobile Door-Trim Infra Stake Welding Machine." In ASME 2019 14th International Manufacturing Science and Engineering Conference. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/msec2019-2823.

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Abstract Flexible membrane fixture is new technology which can adapt to the workpiece shape and size change, such as automobile door-trim parts manufacturing. Due to the use of flexible membrane fixture, significantly reducing manufacturing cost and replacing fixture time. In this paper, the design of the flexible membrane fixture is generated, and the application is showed in a case. Natural rubber sheet used as a flexible membrane. The membrane inflation model generated by ANSYS using Mooney-Rivlin method and its simulation result compared with the experiment result. The door-trim model developed by AUTODESK INVENTOR modelling software. This 3-D geometric model was imported to using ANSYS Workbench 18.2. The Finite element analysis was done after assigning loading and boundary conditions. The applied load considered for this analysis is the pressure applied to the membrane while the door-trim clamped by side clamps. The result shows that Flexible membrane fixture has higher flexibility and fixtured door-trim has smaller deformation value than company requirement. Through comparing the design results, it is found that flexible membrane fixture has higher elastic behaviour.
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Cho, Min-Ki, Chang-Hoon Ha, Moo-Yong Kim, Sang-Cheol Lee, Jea-Mean Koo, and Chang-Sung Seok. "A Comparative Study on Elastic Behavior of Trefoil Patterned Perforated Plate." In ASME 2010 Pressure Vessels and Piping Division/K-PVP Conference. ASMEDC, 2010. http://dx.doi.org/10.1115/pvp2010-25307.

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A tube support plate is one of the significant parts of a steam generator, which confines the rotational and translational motion of tubes caused by the hydraulic and seismic load. It also provides a flow path along the tubes. There are various types of tube support plates according to the component designer’s preference. In this investigation, ten types of trefoil Broached Tube Support Plate (BTSP) specimens made from ASME stainless steel were analyzed and tested to determine the appropriate shape of trefoil BTSP in the view of the elastic properties including elastic modulus and Poisson’s ratio. The types of trefoil BTSP specimens were designated as SI through S5 and L1 through L5 for S and L types, respectively. These specimens are categorized by the shape and dimension of broached hole. Ten specimens were investigated through finite element analysis, and compression and bending tests. The dimensions of the test specimens were decided through a previous research study done to examine appropriate shape for the compression and bending tests. The equivalent elastic properties of BTSP were obtained by the finite element analysis as per different loading orientation as well as the various specimen types. Autodesk® Inventor™ software was used to make the analytical model and ABAQUS® software was used for the analysis and post-processing. The equivalent elastic properties of BTSP specimens were also acquired by the compression and bending tests. From the results of the finite element analysis, and the compression and bending tests, the appropriate shapes of trefoil BTSP with regard to the equivalent elastic modulus, and Poisson’s ratio are suggested as L4, S3, and S4.
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