The document provides instructions on creating parting surfaces for a motorbike part model using CimatronE software. It describes setting up the parting analysis, splitting the model into two halves, creating internal and external parting faces, and mirroring the parting faces to complete the symmetric core and cavity models. Techniques like splitting, sweeping, blending, extending, trimming and mirroring faces are used to construct the parting surfaces.
The document provides instructions for creating a mold for a telephone handset model in SOLIDWORKS. It describes adding mounting bosses, checking for draft and undercuts, adding draft as needed, applying scaling to account for shrinkage, generating parting lines to separate the core and cavity, and adding shut-off surfaces to close holes. The goal is to prepare the model properly before creating the core and cavity surfaces that will make up the mold tooling.
The document provides instructions for modeling various mechanical parts and assemblies using Creo Parametric. It includes descriptions of extrusion, revolve, rib, shell, and assembly features. The objectives are to model parts like a flange coupling and plummer block, assemble them, and create drawings with bills of materials. Steps provided include sketching profiles, adding dimensions, extruding, revolving, assembling components, and generating orthographic views and a BOM table. The document aims to teach modeling, assembly, and drawing creation skills in Creo Parametric.
The document provides instructions for creating a runner between two mold plates using CimatronE software. It describes sketching the runner design, creating the 3D runner body based on the sketches, setting local cross section parameters, merging bodies into one, and cutting the runner shape into the mold components. The goal is for the runner to provide channels for molten material to flow from the sprue to gates and fill the mold cavity.
This document provides a tutorial for creating a multi-cavity mold project in CimatronE 8.5. It describes steps to start a new project, define split directions for the mold parts, mirror and copy assemblies, add sliders, load a mold base, export faces to a fixed side part, update parts after changes, and add main and local parting surface parts. The tutorial explains how to handle common modifications that may occur during a mold design project, such as geometric, transformation, and face assignment changes, and how these affect the exported parts.
The document describes new unfolding and strip design routines in VISI-Progress. It provides details on the part analysis, unfolding, and step-by-step unfolding interfaces. Key steps include performing part analysis, unfolding using different methods, generating solid models from bend stages, and defining strips using the strip manager interface. The interfaces allow analyzing parts, unfolding them, generating bend stages, and designing strips to hold the formed parts.
DISEÑO DE MOLDES - 97471744 vero-visi-mould-tutorialFrankey Sun
The document provides instructions for analyzing a 3D model using the analysis tools in VISI-Modelling software. It describes comparing two revisions of a part model to identify design changes, performing draft analysis to check for required draft angles, and adjusting the draft of some bosses by 2 degrees. It also discusses using isocline rendering to identify a non-flowing surface that needs re-building to improve the surface flow.
Pro/ENGINEER is feature-based, associative solid modeling software that runs on the Microsoft Windows platform. It provides capabilities for solid modeling, assembly modeling, drafting, finite element analysis, and NC and tooling functions for mechanical engineers. Creo Elements/Pro is the updated name for Pro/ENGINEER. The document then provides brief descriptions of computer-aided design (CAD) and computer-aided manufacturing (CAM). CAD is used by engineers to create 2D and 3D drawings, while CAM uses computer control for manufacturing objects from those drawings.
The document provides instructions for creating multiple views of a fan_housing part in a Pro/ENGINEER drawing. It describes three methods for placing and orienting a front view of the part: 1) selecting from a list of predefined model views, 2) selecting reference planes, and 3) specifying view angles. It then instructs how to create top, bottom, and right side projection views linked to the placed front view using the projection view tool.
The document provides instructions for creating a mold for a telephone handset model in SOLIDWORKS. It describes adding mounting bosses, checking for draft and undercuts, adding draft as needed, applying scaling to account for shrinkage, generating parting lines to separate the core and cavity, and adding shut-off surfaces to close holes. The goal is to prepare the model properly before creating the core and cavity surfaces that will make up the mold tooling.
The document provides instructions for modeling various mechanical parts and assemblies using Creo Parametric. It includes descriptions of extrusion, revolve, rib, shell, and assembly features. The objectives are to model parts like a flange coupling and plummer block, assemble them, and create drawings with bills of materials. Steps provided include sketching profiles, adding dimensions, extruding, revolving, assembling components, and generating orthographic views and a BOM table. The document aims to teach modeling, assembly, and drawing creation skills in Creo Parametric.
The document provides instructions for creating a runner between two mold plates using CimatronE software. It describes sketching the runner design, creating the 3D runner body based on the sketches, setting local cross section parameters, merging bodies into one, and cutting the runner shape into the mold components. The goal is for the runner to provide channels for molten material to flow from the sprue to gates and fill the mold cavity.
This document provides a tutorial for creating a multi-cavity mold project in CimatronE 8.5. It describes steps to start a new project, define split directions for the mold parts, mirror and copy assemblies, add sliders, load a mold base, export faces to a fixed side part, update parts after changes, and add main and local parting surface parts. The tutorial explains how to handle common modifications that may occur during a mold design project, such as geometric, transformation, and face assignment changes, and how these affect the exported parts.
The document describes new unfolding and strip design routines in VISI-Progress. It provides details on the part analysis, unfolding, and step-by-step unfolding interfaces. Key steps include performing part analysis, unfolding using different methods, generating solid models from bend stages, and defining strips using the strip manager interface. The interfaces allow analyzing parts, unfolding them, generating bend stages, and designing strips to hold the formed parts.
DISEÑO DE MOLDES - 97471744 vero-visi-mould-tutorialFrankey Sun
The document provides instructions for analyzing a 3D model using the analysis tools in VISI-Modelling software. It describes comparing two revisions of a part model to identify design changes, performing draft analysis to check for required draft angles, and adjusting the draft of some bosses by 2 degrees. It also discusses using isocline rendering to identify a non-flowing surface that needs re-building to improve the surface flow.
Pro/ENGINEER is feature-based, associative solid modeling software that runs on the Microsoft Windows platform. It provides capabilities for solid modeling, assembly modeling, drafting, finite element analysis, and NC and tooling functions for mechanical engineers. Creo Elements/Pro is the updated name for Pro/ENGINEER. The document then provides brief descriptions of computer-aided design (CAD) and computer-aided manufacturing (CAM). CAD is used by engineers to create 2D and 3D drawings, while CAM uses computer control for manufacturing objects from those drawings.
The document provides instructions for creating multiple views of a fan_housing part in a Pro/ENGINEER drawing. It describes three methods for placing and orienting a front view of the part: 1) selecting from a list of predefined model views, 2) selecting reference planes, and 3) specifying view angles. It then instructs how to create top, bottom, and right side projection views linked to the placed front view using the projection view tool.
CATIA DMU Kinematic Simulation - TecnisiaCAD RAVI RAI
CATIA V5 DMU ENABLES DIGITAL PRODUCT SIMULATION, ANALYSIS AND VALIDATION, IMPROVING PRODUCT QUALITY AND ACCELERATING DECISION MAKING BY PROVIDING REAL-TIME INSIGHT INTO REAL-WORLD PRODUCT PERFORMANCE.
http://tecnisiacadtraining.business.site https://www.sulekha.com/tecnisiacad-janakpuri-delhi-contact-address
This document provides tips and tricks for using Creo Parametric. It discusses how to set background colors, create mapkeys, manage large assemblies, use mechanism connections, and improve dimensioning in drawings. Specific tips include using advanced selection methods, assigning mass to assembly components, leveraging intent references, and various configuration options to control system behavior. The document aims to increase efficiency and robustness when working in Creo.
This document provides a quick start guide for using Creo Parametric 2.0 software to create a basic 3D model. It guides the user through sketching a rectangular block with a hole, creating a pin part that fits in the hole, assembling the parts, and creating an engineering drawing. The guide explains how to navigate the software interface, sketch and extrude shapes, modify part dimensions, change appearance colors, and view and manipulate 3D models. It aims to get users started with basic modeling tasks in Creo Parametric.
This document summarizes software tools from Vero for designing and manufacturing progressive and stamping dies. The VISI suite of software covers the entire sheet metal stamping process from model analysis, quoting, and blank development through 3D die design, manufacturing, and laser trimming. It provides integrated tools for analyzing models, developing blanks, defining stamping processes, creating strip layouts, and designing multi-slide tools. The software aims to streamline the design process, reduce errors, and increase competitiveness through automated and knowledge-driven applications.
This course teaches the basics of Autodesk Fusion 360, including solid modeling, sculpting, sketching, direct modeling, assemblies, rendering, and collaboration. Students will learn how to navigate, sketch, model, sculpt, assemble and render designs in Fusion 360. The course is intended to provide an introduction to get students started with the main aspects of Fusion 360 so they can further explore areas that interest them most. The course is estimated to take 3 hours. A computer with Fusion 360 installed and a 3-button mouse are required.
This document introduces Mastercam's surface machining capabilities and provides instructions for creating various surface toolpaths on a sample part. It describes how to create ruled, loft, and Coons surfaces on the part geometry. It then provides step-by-step instructions for creating rough parallel, finish parallel, finish leftover, and finish pencil toolpaths to machine the surfaces. It emphasizes selecting appropriate tools and parameters and verifying that the toolpaths correctly machine the desired material.
The document summarizes the steps to mesh a mechanical component called a fork end rod in HyperMesh. First, the component is modeled in CATIA using various features. It is then imported into HyperMesh where any geometry errors are cleaned up. Next, the surfaces of the component are meshed, followed by meshing the entire volume. Finally, the quality of the generated mesh is checked using various metrics in HyperMesh.
This document introduces the basic steps for creating a 3D part in CATIA:
1) Start a new part file and select the xy plane to sketch in.
2) Use the sketching tools to draw 2D profiles like squares and constrain dimensions.
3) Exit the sketcher to enter the 3D environment where the 2D profile takes on an isometric orientation.
4) Use tools like pad to extrude the 2D profile into a 3D solid part.
Using skeleton models_to_achieve_top-down_assembly_designNiveditha M
Using skeleton models allows for top-down assembly design that provides a well-structured, logical design. Skeleton models define skeletal properties that can be used to define geometry of other components. The document demonstrates creating a rolling chair assembly using skeleton models, where key properties like the number of wheels or shaft diameter can be modified and the changes will propagate downwards. A skeleton model is created for the top-level assembly and each subassembly to define key surfaces that other components reference without external dependencies. This allows easy modification as the design evolves.
The document provides an overview of the key features and navigation of Autodesk360 (A360). It includes:
- The A360 dashboard which contains quick links, search, notifications, and access to projects, files, people, calendar, and more.
- How to search and find files within A360 projects and models using the search box or model structure tool.
- Details on projects, files, people, calendar, wiki, and other collaboration features.
- Instructions for uploading files, creating projects and other content, and sharing models.
The document introduces Creo Elements/ProE, a 3D CAD software developed by PTC. It discusses the history and versions of ProE, from its launch in 1988 up to the current Creo Elements/ProE 5.0. The key benefits of Creo Elements are listed as fast/accurate design, powerful tools, ease of use, simulation, and analysis capabilities. Modeling techniques covered include sketching, part design, assembly, surface modeling, sheet metal, and drafting.
The document lists prices and links for various laptops, tablets, smartphones and mobile phones from different brands including HP, Alienware, Apple, Dell, Acer, HTC, Nokia, Blackberry and Sony Ericsson. The prices range from $399 for the Turbo-X Tablet Hive to $2499 for the Apple MacBook Pro. Several Apple and Android based tablets and smartphones in addition to laptops from HP, Dell and Alienware are featured.
Avoice is a mobile app that allows users to choose audio content like music or offers to listen to while waiting for a call to be answered. This provides an untapped advertising channel for companies. The service is free for users and revenue comes from advertisers. Market analysis found potential for $25 million in daily revenue by targeting the 400 million Android users who could hear ads during the average 6 daily calls they wait on.
Este documento é um catálogo de acessórios que apresenta 4 modelos de abotoaduras de aço inox com diferentes formatos e detalhes, além de fornecer contatos de venda e informações sobre a produção do catálogo.
O documento relata uma auditoria de conformidade realizada pelo Tribunal de Contas da União para verificar a regularidade de procedimentos médicos e internações hospitalares pagos com recursos federais do SUS. O cruzamento de dados mostrou registros de procedimentos e internações relacionados a pacientes falecidos. Foram encontrados 15.747 procedimentos e 4.371 internações questionáveis. A auditoria objetiva confirmar se esses atendimentos realmente ocorreram.
This rubric outlines the criteria for evaluating a student project on the Russian Revolution, including status check, introduction, content, knowledge, design, length, and conclusion. Students will be assessed on having 50% completed by the status check, thoroughly introducing and covering the topic, demonstrating knowledge through answering questions, using creative design that engages the audience without unnecessary elements, making effective use of the 10 minute time segment, and re-presenting the key information to be learned.
This document summarizes the history and founding of the National Foodcrop Farmer's Association (NFFA) in 3 sentences:
The NFFA was founded on November 9, 1974 by farmers in Aranguez who organized to struggle for better conditions as farmers were suffering from low prices. It highlights the NFFA's advocacy over the years for issues affecting farmers like food security, land reform, infrastructure, and subsidies. The NFFA remains committed to developing the agriculture sector and ensuring lands remain for agriculture through consultation to provide hope for farmers.
The document contains a series of 40 questions asking for personal details such as name, contact information, family, interests, habits, and preferences. It requests information about the respondent's background, relationships, hobbies, likes and dislikes.
Derivatives Report - September 21, 2010Angel Broking
The document provides a summary of derivative trading activity in India for September 21, 2010. Key points include:
- Open interest for Nifty futures increased 2.71% while Minifity futures increased 1.99% as the market closed at 5980.45.
- Nifty September futures closed at a premium of 13.65 points and October futures closed at a premium of 26.85 points.
- Total open interest in the market was Rs. 2,11,074cr with stock futures open interest at Rs. 51,646cr.
- FIIs were net buyers of Rs. 1,793cr in the cash market and added long positions in index futures while forming some
CATIA DMU Kinematic Simulation - TecnisiaCAD RAVI RAI
CATIA V5 DMU ENABLES DIGITAL PRODUCT SIMULATION, ANALYSIS AND VALIDATION, IMPROVING PRODUCT QUALITY AND ACCELERATING DECISION MAKING BY PROVIDING REAL-TIME INSIGHT INTO REAL-WORLD PRODUCT PERFORMANCE.
http://tecnisiacadtraining.business.site https://www.sulekha.com/tecnisiacad-janakpuri-delhi-contact-address
This document provides tips and tricks for using Creo Parametric. It discusses how to set background colors, create mapkeys, manage large assemblies, use mechanism connections, and improve dimensioning in drawings. Specific tips include using advanced selection methods, assigning mass to assembly components, leveraging intent references, and various configuration options to control system behavior. The document aims to increase efficiency and robustness when working in Creo.
This document provides a quick start guide for using Creo Parametric 2.0 software to create a basic 3D model. It guides the user through sketching a rectangular block with a hole, creating a pin part that fits in the hole, assembling the parts, and creating an engineering drawing. The guide explains how to navigate the software interface, sketch and extrude shapes, modify part dimensions, change appearance colors, and view and manipulate 3D models. It aims to get users started with basic modeling tasks in Creo Parametric.
This document summarizes software tools from Vero for designing and manufacturing progressive and stamping dies. The VISI suite of software covers the entire sheet metal stamping process from model analysis, quoting, and blank development through 3D die design, manufacturing, and laser trimming. It provides integrated tools for analyzing models, developing blanks, defining stamping processes, creating strip layouts, and designing multi-slide tools. The software aims to streamline the design process, reduce errors, and increase competitiveness through automated and knowledge-driven applications.
This course teaches the basics of Autodesk Fusion 360, including solid modeling, sculpting, sketching, direct modeling, assemblies, rendering, and collaboration. Students will learn how to navigate, sketch, model, sculpt, assemble and render designs in Fusion 360. The course is intended to provide an introduction to get students started with the main aspects of Fusion 360 so they can further explore areas that interest them most. The course is estimated to take 3 hours. A computer with Fusion 360 installed and a 3-button mouse are required.
This document introduces Mastercam's surface machining capabilities and provides instructions for creating various surface toolpaths on a sample part. It describes how to create ruled, loft, and Coons surfaces on the part geometry. It then provides step-by-step instructions for creating rough parallel, finish parallel, finish leftover, and finish pencil toolpaths to machine the surfaces. It emphasizes selecting appropriate tools and parameters and verifying that the toolpaths correctly machine the desired material.
The document summarizes the steps to mesh a mechanical component called a fork end rod in HyperMesh. First, the component is modeled in CATIA using various features. It is then imported into HyperMesh where any geometry errors are cleaned up. Next, the surfaces of the component are meshed, followed by meshing the entire volume. Finally, the quality of the generated mesh is checked using various metrics in HyperMesh.
This document introduces the basic steps for creating a 3D part in CATIA:
1) Start a new part file and select the xy plane to sketch in.
2) Use the sketching tools to draw 2D profiles like squares and constrain dimensions.
3) Exit the sketcher to enter the 3D environment where the 2D profile takes on an isometric orientation.
4) Use tools like pad to extrude the 2D profile into a 3D solid part.
Using skeleton models_to_achieve_top-down_assembly_designNiveditha M
Using skeleton models allows for top-down assembly design that provides a well-structured, logical design. Skeleton models define skeletal properties that can be used to define geometry of other components. The document demonstrates creating a rolling chair assembly using skeleton models, where key properties like the number of wheels or shaft diameter can be modified and the changes will propagate downwards. A skeleton model is created for the top-level assembly and each subassembly to define key surfaces that other components reference without external dependencies. This allows easy modification as the design evolves.
The document provides an overview of the key features and navigation of Autodesk360 (A360). It includes:
- The A360 dashboard which contains quick links, search, notifications, and access to projects, files, people, calendar, and more.
- How to search and find files within A360 projects and models using the search box or model structure tool.
- Details on projects, files, people, calendar, wiki, and other collaboration features.
- Instructions for uploading files, creating projects and other content, and sharing models.
The document introduces Creo Elements/ProE, a 3D CAD software developed by PTC. It discusses the history and versions of ProE, from its launch in 1988 up to the current Creo Elements/ProE 5.0. The key benefits of Creo Elements are listed as fast/accurate design, powerful tools, ease of use, simulation, and analysis capabilities. Modeling techniques covered include sketching, part design, assembly, surface modeling, sheet metal, and drafting.
The document lists prices and links for various laptops, tablets, smartphones and mobile phones from different brands including HP, Alienware, Apple, Dell, Acer, HTC, Nokia, Blackberry and Sony Ericsson. The prices range from $399 for the Turbo-X Tablet Hive to $2499 for the Apple MacBook Pro. Several Apple and Android based tablets and smartphones in addition to laptops from HP, Dell and Alienware are featured.
Avoice is a mobile app that allows users to choose audio content like music or offers to listen to while waiting for a call to be answered. This provides an untapped advertising channel for companies. The service is free for users and revenue comes from advertisers. Market analysis found potential for $25 million in daily revenue by targeting the 400 million Android users who could hear ads during the average 6 daily calls they wait on.
Este documento é um catálogo de acessórios que apresenta 4 modelos de abotoaduras de aço inox com diferentes formatos e detalhes, além de fornecer contatos de venda e informações sobre a produção do catálogo.
O documento relata uma auditoria de conformidade realizada pelo Tribunal de Contas da União para verificar a regularidade de procedimentos médicos e internações hospitalares pagos com recursos federais do SUS. O cruzamento de dados mostrou registros de procedimentos e internações relacionados a pacientes falecidos. Foram encontrados 15.747 procedimentos e 4.371 internações questionáveis. A auditoria objetiva confirmar se esses atendimentos realmente ocorreram.
This rubric outlines the criteria for evaluating a student project on the Russian Revolution, including status check, introduction, content, knowledge, design, length, and conclusion. Students will be assessed on having 50% completed by the status check, thoroughly introducing and covering the topic, demonstrating knowledge through answering questions, using creative design that engages the audience without unnecessary elements, making effective use of the 10 minute time segment, and re-presenting the key information to be learned.
This document summarizes the history and founding of the National Foodcrop Farmer's Association (NFFA) in 3 sentences:
The NFFA was founded on November 9, 1974 by farmers in Aranguez who organized to struggle for better conditions as farmers were suffering from low prices. It highlights the NFFA's advocacy over the years for issues affecting farmers like food security, land reform, infrastructure, and subsidies. The NFFA remains committed to developing the agriculture sector and ensuring lands remain for agriculture through consultation to provide hope for farmers.
The document contains a series of 40 questions asking for personal details such as name, contact information, family, interests, habits, and preferences. It requests information about the respondent's background, relationships, hobbies, likes and dislikes.
Derivatives Report - September 21, 2010Angel Broking
The document provides a summary of derivative trading activity in India for September 21, 2010. Key points include:
- Open interest for Nifty futures increased 2.71% while Minifity futures increased 1.99% as the market closed at 5980.45.
- Nifty September futures closed at a premium of 13.65 points and October futures closed at a premium of 26.85 points.
- Total open interest in the market was Rs. 2,11,074cr with stock futures open interest at Rs. 51,646cr.
- FIIs were net buyers of Rs. 1,793cr in the cash market and added long positions in index futures while forming some
This document discusses different types of job interviews and provides tips for preparing for an interview. It outlines common interview formats like face-to-face, phone, group, technical, stress, and panel interviews. The main purposes of interviews are to assess a candidate's personality, skills, abilities, motivation, and strengths/weaknesses. Good preparation includes rehearsing answers, selecting appropriate attire, researching the company, and printing resume copies. During the interview, candidates should arrive early, make eye contact, give firm handshakes, provide honest yet concise answers, and follow up with a thank you note after completing the interview. Being nervous is normal but excessive nervousness can hurt impressions, so staying calm is important.
Australian Starlet Pop Singer Aiysha Saagaraiysha saagar
Aiysha Saagar the singing diva from Australia with the ability to sing in multiple languages is here. To know more about her as a person, a singer and a brand ambassador she has created ripples.
This document provides links to resume samples, tips, and other career resources for benefits managers. It includes samples and information on chronological, functional, curriculum vitae (CV), combination, targeted, professional, new graduate, and executive resume formats. It also lists interview questions, preparation tips, and other materials useful for benefits manager interviews.
This document discusses a group and their unique features. It mentions group members and unique features but provides no details about either. In just 3 sentences it aims to convey the high-level topic and purpose but lacks essential information to understand the core content.
This document provides a tutorial on creating a basic mold project in CimatronE 8.5. The tutorial covers:
1. Starting a new mold project and placing a workpart in the layout.
2. Splitting the workpart into two sets using quick split.
3. Creating internal parting curves and faces between the split sets.
4. Defining and creating active cavity and core parts from the split sets.
5. Stitching, cutting and removing parting geometry from the active parts to complete the mold design.
This document provides a tutorial on using the Xelerate ECO Manager tool in CimatronE 8.5. It walks through two examples of Engineering Change Orders (ECOs). For the first ECO, it shows how to compare a part to the ECO, update the core and cavity parts by importing removed and added faces, and recreating parting faces. For the second ECO, it repeats these steps to incorporate the changes between the first and second ECOs. The tutorial contains over 10 steps for each ECO comparison and update.
This document provides instructions for creating a mechanism assembly in CimatronE. It describes 9 stages:
1. Early preparation which involves modifying a part to add dimensions for the mechanism.
2. Creating the assembly and adding relevant parts.
3. Defining the main part of the mechanism assembly.
4. Defining the parent/child relationships between parts to group how they are suppressed/unsuppressed.
5. Defining interchangeable parts that can replace each other in the assembly.
6. Defining catalog filtering relations to control which parts are loaded from the catalog.
7. Applying formulas to define parametric relationships between parts.
8. Saving the
This document provides instructions for creating a custom wheel design in SolidWorks. The design uses revolved features to create the wheel rim and lug nuts. Cut extrusions create the spokes by cutting away from the solid wheel rim. A circular pattern duplicates the cut features to create multiple spokes around the wheel. Dimensioning and fillets are added to complete the wheel profile.
The document provides step-by-step instructions for using SolidWorks and Mastercam software to design and machine a CO2 car. The instructions include: 1) Opening SolidWorks and creating a 3D model of the car by extruding and cutting profiles, 2) Opening the model in Mastercam, 3) Using toolpathing functions to generate cutting paths for a endmill to rough out and finish the car body, 4) Simulating and saving the G-code, 5) Rotating and regenerating the toolpaths to cut the opposite side of the car. The goal is to successfully design a car and create CNC programs to cut it out of block material.
This CIM and automation laboratory manual covers the G-Codes and M-codes for CNC Turning and Milling operations. Some concepts of Robot programming are also introduced.
This document describes defining a profile milling NC sequence in two exercises. The first exercise defines a profile sequence to machine vertical walls of a block, setting lead radius and entry/exit angles to optimize smooth entry/exit motions. The second exercise defines a "machinable area" mill surface to find an area a ball end mill could not machine, then defines a profile sequence with a smaller tool and sets a retract plane at the sequence level.
The document describes the process of creating a 3D animation of an engine. It involves 4 parts: modeling, materials and lighting, animation, and rendering. For modeling, the author creates different engine components like pistons and gears using polygonal modeling techniques. Materials are added to make the scene look photorealistic. Animation is created using expressions to animate the rotating gears and IK to animate the pistons. The animation is then rendered from frame 1 to 360 to create the final output.
This document provides instructions for creating a mold tool design in SolidWorks. It describes how to position an imported part body, apply shrinkage, check draft angles, create parting lines and shut-off surfaces, split the mold into core and cavity blocks using a parting surface and tooling split, and review how to model side cores, lifters, inserts, core pins and ejector pins. The overall aim is to teach the basic skills for designing a mold tool to plastic injection mold a food mixer part.
The document provides instructions for a hands-on exercise to create a pinion mount part in Inventor. It involves:
1) Sketching lines to create a shape and adding dimensions to fully constrain the sketch.
2) Using the Revolve feature to revolve the sketch around a central axis to create a solid part.
3) Sketching and extruding additional geometry to add an alignment feature.
4) Checking that the final part has a mass of 0.529kg.
IRJET- Modelling and Analysis of Two Wheeler Suspension SystemIRJET Journal
This document describes the modeling and analysis of a two-wheeler suspension system. It discusses the components of a typical suspension system including the shock absorber. The authors modeled a shock absorber using SOLIDWORKS and analyzed it in ANSYS under different loads and with different materials for the spring (steel, magnesium, titanium). The structural analysis showed lower displacement and stress values for titanium compared to steel and magnesium. The modified design with changes to diameter and loads also showed lower stress and displacement than the original design, indicating titanium is the best material.
Investigations of Drag and Lift Forces Over the Profiles of Car Using CFDijsrd.com
Aerodynamic characteristics of racing car are of significant interest in reducing racing accidents due to wind loading and save the fuel consumption. This work outlines the process taken to optimize the geometry of a vehicle. Vertices and edges of car were imported into GAMBIT and a computational domain is created. An unstructured triangular mesh was then applied. The goal is to obtain a better flow around the car model to lower the coefficient of drag force; the work is carried out in a ANSYS CFD FLUENT program towards a converged solution. These practices are helpful to redesign existing vehicles in order to improve handling and increase fuel efficiency. In the present work an attempt has been made by considering three models of car by varying speed of vehicle, the pressure coefficients and drag coefficients are obtained.
1. Obtain phone dimensions from online sources and add tolerances for 3D printer. Sketch inner dimensions of phone case with rounded corners using constraints and mirrors.
2. Extrude the phone case body symmetrically to desired height and shell the outside by 2mm to create a lip that holds the phone. Extrude side profiles 2mm and join them.
3. Cut away bottom of case to reduce rigidity and fillet inside edges. Sketch openings for buttons using actual dimensions rather than canvas. Customize back and sides before saving as STL file for 3D printing.
This SAP2000 tutorial provides an overview of how to model a basic concrete bent structure. It demonstrates how to define materials, sections, grids, supports, loads, and perform analysis and design. Key steps include defining a 5000 psi concrete material, rectangular and circular concrete sections, equally spaced grids, fixed supports, point loads on the cap beam, and running analysis to show bending moment results. The tutorial also shows how to model a nonprismatic cap beam and rotate local axes.
This document is intended to my personal reference when delivering training.
I thankful to Siemens Digital Industries Software.
This document is incomplete. Will update in sometime.
This document discusses a proposed computer-based wireless wheel alignment system using an accelerometer. It begins with an introduction to wheel alignment and its importance in vehicle maintenance. It then describes the key parameters that determine wheel alignment: caster, camber, toe, thrust, and ride height. The document outlines the design of the proposed system, which uses an ADXL335B accelerometer and Arduino microcontroller to measure alignment angles wirelessly. It concludes that the system could offer advantages over traditional methods like low cost, reliability, and precision, while allowing for faster alignment checks.
This document provides instructions for a tutorial on generative part stress analysis using CATIA V5. The tutorial is intended to last 45 minutes and cover part design and knowledge advisor capabilities. It describes the 7 major steps, which include designing a wheel rim, renaming parameters, adding formulas to constraints, creating user parameters and formulas, adding a rule and check, and creating design tables to compute inertia elements. It also provides information on setting up the appropriate CATIA settings and material catalog for the tutorial.
This document provides instructions for performing a wheel alignment on a vehicle with 2 front axles and 2 rear axles. The procedure involves preparing the vehicle, selecting its specifications in the alignment software, mounting sensors to each axle, taking measurements, adjusting alignment parameters as needed such as toe, caster, thrust angle and parallelism, and printing a final report.
5. Motorbike Parting Introduction
In this exercise, the parting surfaces of the motorbike part will be created and the core, cavity and sliders will be
exported.
CimatronE 8.5 Motorbike Parting 1
6. Analyze
Parting Setup
Invoke the Parting Setup wizard, select the Master Motorcycle.elt part document (located in the Tutorial
Work FilesData To Steel directory).
Set the following options:
2 Motorbike Parting CimatronE 8.5
7. Click the Preferences Editor icon and view the Part/Color/Quick_Split preferences.
The color of Quick Split sets can now be defined.
CimatronE 8.5 Motorbike Parting 3
8. Within the Preferences Editor, select Modeling/General/Quick Split Quality and verify that
'Recommended' is selected.
Click OK in the Preferences Editor and in the Parting Setup Wizard.
Split
Select the Parting / QuickSplit function from the Guide .
4 Motorbike Parting CimatronE 8.5
9. Change the arrows direction to Along Y, add vertical faces to bottom and click OK.
The following steps are redundant when using the 'High Quality' option in the Quick Split Quality preferences.
However, in this exercise the steps below are introduced to illustrate how to deal with a normal, which is pointing
in the wrong direction.
Click the Object Direction icon.
Notice the black faces on EACH side.
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10. Toggle the Auto option to Manual.
The Manual option lets you manually pick each object and flip its normal. It is useful in cases where the body
includes several lumps as it allows each lump to be flipped individually.
Pick the five black faces to invert their normals i.e. they appear white, and click OK.
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11. Check for Draft Angles.
Notice that the same faces are shown in red as undercuts.
These faces were assigned to the RED set since their face normals were inverted.
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12. Enter the QuickSplit function. Attach the marked faces to the BLUE set.
Pick the required faces and Middle Mouse Click on a blue face.
From the QuickSplit function, press the Draft Angle analysis icon. No undercuts are detected.
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13. Parting Faces
Internal
Parting Faces - Internal
Cylindrical
The two sliders will now be split.
From the Parting function, pick the New Direction option and toggle the One Direction option to Both
Directions.
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14. Pick the arrow base and select the option Cylindrical/Conic Center.
Pick one of the sliders cylindrical faces.
Click OK in the New Directions Feature Guide.
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15. Attach the rest of the sliders faces to achieve the result shown below:
Parting Curve
Create the internal parting curves.
Select Parting Curve/Internal Part. Curve.
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16. Use the default Adjoin Tolerance value of 0.1 and click OK in the Feature Guide.
Select Parting Surf/Internal.
Click OK in the Feature Guide.
All the internal islands are now closed.
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17. External
Parting Faces - External
Sweep
The external parting faces will now be created.
Select Tools/Composite.
Hide the following sets and Parting Surfaces:
When creating a composite curve on a split part, selection of the curves is made easier by displaying the
relevant faces only.
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18. Create the following composite curve:
Select the Sweep Face icon from the Parting Guide, under Parting Surf.
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19. Pick the composite curve created, and change the direction to Along X (pointing outwards).
Show the Split-03 direction.
Create the composite curve shown here and sweep a face in the -Z direction.
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20. Open the sketcher. As the sketch plane pick the face indicated below:
Rotate to plane and draw a line slanted at 1.5 degrees from the vertical direction. Use reference points
indicated by the arrows.
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21. Sweep this line in the X direction to Both Sides.
Extend
Select Solid/Merge.
Pick the two faces highlighted below:
Notice the arrow directions.
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22. Click OK.
The slider will now be closed.
Select the Blend Face icon and create the Blend face below:
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23. Pick the boundary shown here.
Extend the face as shown below:
The following step is to stitch the faces, in order to create a round. This means that the open edges will be "lost".
Therefore, before the stitch operation, the face shown here will be extended, using its smooth open edge.
Select the Extend Face icon.
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24. Pick the edge highlighted and create a Tangent Continuous extension.
Select Faces/Stitch and stitch the faces into a single object.
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25. Create the following round:
Inner area
Close the inner area below, by a Bounded Face.
Click here to see the curve selected.
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26. Create the Blend Face by picking the two edges as shown:
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27. Close the area by an additional Blend Face (with boundaries).
Create a composite curve and extend the edges shown below, using the Tangent Continuous option.
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28. Side area
Extend the edge shown here using the Natural Continuous option.
Create the composite curve.
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29. Click the Drive Face icon and create a Drive Face.
Below the drive face, create the following extend face:
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30. Create the composite curve shown below:
Create a Natural - Multi Continuous Extension, using the Manual Directions option.
The Auto Directions parameter displays all arrows on the vertices and their corresponding default directions
are calculated. The direction of the arrows can be set by right-clicking on the arrow. .One or more arrows can be
removed so that their default direction at this point will not be calculated.
The Manual Directions parameter displays only two arrows at the end vertices of each face. Side directions of
extensions on each vertex can be added.
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31. Create the Composite Curve shown here.
Select Faces/Modify/Boundary.
Pick the face as shown below, using the Keep Original option.
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32. Pick the edge indicated and create a Natural Continuous extend face using the Same Face option.
Trim the extended face using the composite curve.
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33. Flip the trimming side so that the result will be the parting face shown here.
Mirror
Create Main Planes: YZ.
As the part is symmetric we can now mirror the parting faces to the other side.
Select Edit/Copy Geometry/Mirror and pick the Parting faces.
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34. Pick the YZ main plane as the symmetry plane.
Click OK in the Feature Guide.
Bounded
Select Faces/Bounded, click the Composite Curve icon and pick the curves as shown.
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35. Press OK to confirm the composite curve and then again to create the bounded face.
Create the plane shown below:
First create the ZX plane, then select Datum/Plane/Parallel and pick the ZX plane.
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36. Trim the Parting Faces, using the plane created.
Flip the Trimming Side and click OK in the Feature Guide.
Final
Open the sketcher on the XY plane, and draw the following sketch:
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37. Sweep this curve by a delta of 500.
The newly created face will now be cut with the intersecting faces. The Faces/Trim function is normally used in
this procedure, however here the Merge function will be used as it enables the procedures completion in a single
operation.
Stitch the following faces:
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38. Merge the two objects.
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39. Notice the arrow directions.
Create a sketch on the parallel plane created in the last step.
Use the parting faces end points as references.
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40. Create composite curves (using a tolerance of 0.4 for the first face) and use them to create the three
bounded faces below:
Attach
Show all the sets. The parting faces will now be attached to their relevant sets.
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41. From the Parting Guide, click the Attach Attribute icon
Pick the faces to assign and exit.
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42. Pick the two sets (Split-01 and Slpit-02) to which the faces belong.
Click Apply in the Feature Guide.
Pick the faces to assign and the sets which they belong to.
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43. Repeat the above step on the other side of the part for Split-01and Split-04.
Pick the faces to assign and the sets they belong to.
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44. Repeat the above step on the other side of the part for Split-02and Split-04.
Below is the list of sets created and their corresponding colors:
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