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Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 12400 Rs 20 Days Access Online Training < Back Introduction of Siemens NX Siemens NX software is a flexible and powerful integrated solution that helps you deliver better products faster and more efficiently. NX delivers the next generation of design, simulation, and manufacturing solutions that enable companies to realize the value of the digital twin. Scope of Course Siemens NX Siemens NX CAD is being daily used for 3D Design & Drafting. It has simple User Interface & Multiple commands. It is user friendly. Very important 3D Modeling commands. It Supports 3D Modeling, Mold wizard, Sheet Metal, 2D Drafting, Assembly, Progressive Die tools, etc. It supports multiple export formats like, .x_t, iges, step, sldprt , etc. It has simple commands for 3D Modeling Its User interface is very simple It is user friendly & supports team PLM Career Prospects / Job Roles after Siemens NX Siemens NX is widely used in the industry to improve design quality through greater accuracy and reduce design errors. Students well versed in Siemens NX are placed in industries such as: NX Designer Session : 1 INTRODUCTION TO NX-CAD Introduction to Unigraphics NX , About NX Gateway, Getting Started NX Graphical User Interface: Title bar, Menu bar, Toolbar, Radial toolbar Selection bar, Cue and status line Resource bar, Navigators, HD3D tools Integrated browser, Palettes, Roles, Full screen View Orientation- trimetric, isometric, View commands Rotate ,Pan, Zoom in/out, Quick pick, Quick pick, categories Coordinate system Absolute coordinate system, WCS, Absolute coordinate, Work coordinate system. View triad, Multiple graphics window, Information window Keyboard accelerators, Dialog box File management: Creating new files and about templates, Opening files, Saving files Session: 2 & 3 SKETCH CREATION & EDITING TOOLS Creating Sketches: Profile, Line, Arc, Circle, Fillet, Chamfer, Rectangle, Polygon, Studio Spline, Fit spline, Ellipse, Conic. Editing sketches: Quick trim, Quick extend, Make corner, Offset curve, Pattern curve, Mirror curve, Intersection point, Derived lines Constraints: Geometric constraints, Auto constraint, Inferred constraint Dimensional constraints, Auto dimension, Continuous auto dimension Animate dimension Session 4 & 5 PART MODELING FEATURES - I Basic terminologies: Feature, Body, Solid body, Sheet, Face, Section curves, Guide curves Feature modeling concepts About Datum CSYS and Datum Planes, Changing units in NX Creating Extrude features Creating Revolve features Revolve sketch about an axis Creating Datum Features: Datum Plane Datum axis Datum CSYS Datum Point Session 6 & 7 Creating Sweep Features Blend Features Applying Chamfer Session 8 & 9 Hole: General hole Drill size holes Screw clearance holes Threaded holes Boss Pocket: Cylindrical, Rectangular, General Pad: Rectangular, General Slot: Rectangular, Ball end, U-Slot, T-Slot, Dove tail Groove: Rectangular, Ball end, U-groove Draft: From plane From edges Tangent to faces To parting edges Draw direction Variable draft points Session 10 & 11 Instance feature: Rectangular array, Circular array, Pattern face Mirror feature, Mirror body Boolean commands Session 12 & 13 Assembly Constraints Angle, Bond, Center, Concentric, Distance, Fit, Parallel, Perpendicular, Touch align Fix, Align/ Lock, Bond Creating component arrays Linear array, Circular array, Feature instance array Assembly Modeling Moving a component Creating exploded views Session 14 & 15 Introduction to drawing Inserting new sheets, Editing sheets Setting up standards, Knowing Graphical User Interface of drafting NX drafting methods Creating drafting views Base view Drawing view Projected view Orthographic view Auxiliary view Detail view Section view Simple section, Stepped section Adding dimensions Inferred Dimension Horizontal Dimension, Vertical Dimension Parallel Dimension, Perpendicular dimension, Angular dimension Cylindrical Dimension, Hole dimension, Diameter Dimension Chamfer Dimension, Radius or Radius of Curvature Dimension, Radius to Centre Session 16 & 17 Surface Modeling commands Creating extrude surface Creating revolved surface Creating ruled surface Surface using curves Surface by Through curves Surface by Through curve mesh Creating Studio surface Surface from Section Surface Surface creation by N-Sided surface Session 18 & 19 Sheet metal Design About NX Sheet Metal Preferences Creating base feature Tab Creating Bend feature Attaching flange, Attaching Contour flange, Creating Lofted flange Inserting Hem flange Apply Bend, unbend, rebend Apply Jog, Creating Sheet metal from solid Corner definition FAQs on Siemens NX Course How long is the NX training? Designing Parts in NX 40 hours This course is designed to give new users experience creating and editing parametric models using the essential NX processes. What is the course duration? The total duration of BK Engineering Certified CAD Professional – Nx CAD Course is 4 weeks. It is a part time course from Monday to Friday around 2 daily of Classroom Lecture and Lab Practice. On Saturday students can practice in the Lab. Is Siemens NX easy to learn? There is NO 'Difficulty'. We made sure that everything is easy to learn. We not only learn how to use Siemens NX but also learn different approaches for similar design scenarios. Tons of engaging animations to convey information. How long does it take to learn Siemens NX? If you are a beginner then you require around 1 month to learn the basics. Because it requires practice so with the time you will get more familiar with it. Make different diagrams every day In Siemens NX How much Siemens pay to freshers? Average Siemens Graduate Engineer Trainee (Get) salary in India is ₹ 5.1 Lakhs for less than 1 year of experience to 2 years. Graduate Engineer Trainee (Get) salary at Siemens India ranges between ₹ 3.8 Lakhs to ₹ 6.5 Lakhs. Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 20000 Rs 30 Access Online Training < Back Introduction to SOLIDWORKS API and VBA The SOLIDWORKS API (Application Programming Interface) allows you to automate and customize SOLIDWORKS using programming languages like VBA or C#. The API exposes the internals of SOLIDWORKS, enabling you to manipulate the user interface and automatically control things like part, assembly, and drawing creation. With the SOLIDWORKS API, you can significantly boost your productivity by eliminating repetitive manual steps in your design workflow. The API allows you to programmatically build components, generate drawings, set up assemblies, run simulations, and much more. Some key benefits of using the SOLIDWORKS API for automation include: Reduced manual work and fewer errors Faster design iterations Ability to link SOLIDWORKS with other applications Create custom workflows specific to your industry Automatically generate documentation like BOMs Customize the SOLIDWORKS interface Enhanced productivity and efficiency VBA (Visual Basic for Applications) is the programming language commonly used with the SOLIDWORKS API. VBA is built into SOLIDWORKS, making it easy to get started with API automation. With VBA, you can write macros that control SOLIDWORKS using simple commands like creating a new part or adding a feature. VBA is a beginner friendly language that doesn't require deep programming experience. The syntax is relatively easy to learn and many users are already familiar with VBA from Excel macros. So it's a great starting point for new API developers looking to automate their SOLIDWORKS workflow. SolidWorks API VBA Programming Course Includes Real-time Project Use cases 20 Hours of Practice SolidWorks API VBA Programming Curriculum You will be learning below modules in SolidWorks API VBA Programming Using the Macro Recorder Understanding the API Object Model Setting System Options and Document Properties Automating Part Design Automating Assembly Design Automating Drawing Development Adding Custom Properties and Attributes You will be learning below modules in SolidWorks API VBA Programming Using the Macro Recorder Understanding the API Object Model Setting System Options and Document Properties Automating Part Design Automating Assembly Design Automating Drawing Development Adding Custom Properties and Attributes Can professionals from Non-IT background learn CAD Customization Course? Yes, programming language is a catalyst to learn customization. Not to worry, BK Engineering teaches you the basic necessary aspect of programming required Can I customize the course curriculum? Yes, you can customize the course curriculum as per your requirements. Do you provide corporate trainings? Absolutely, we love to work with corporate customers. We facilitated various corporate trainings for leading MNCs on diverse PLM & CAD technologies Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 24000 Rs 25 Days Access Online Training < Back Your Instructor Bhargava Krishna Marripati ​ Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 12400 Rs 20 Days Access Online Training < Back Introduction to Ansys Ansys is the global leader in engineering simulation. It is a general-purpose software that is used to simulate interactions in all physics disciplines, including structural, vibration, fluid dynamics, heat transfer, and electromagnetics. It helps engineers solve their most complex design challenges through engineering and enables designers to build market-leading products while accounting for real-world behaviours with less prototyping. The end purpose of Ansys is to predict how product designs will behave and how manufacturing processes will operate in the real world. Scope of Course of Ansys The course teaches you to master Ansys tools for design and finite element analysis for structural analysis. You will also learn how to model advanced materials, complex environmental loadings, and industry-specific requirements. Training will be given in the following areas: Career Prospects / Job Roles After Ansys Engineering simulation is playing a growing role in science and engineering. Ansys has become a leading engineering simulation software as it boosts productivity, spurs innovation and reduces time-to-market in a wide range of industries, from cars to aircraft. Hence, the demand for Ansys skills is fast growing across the industrial segments. Students who are proficient in Ansys can gain employment in various industries, such as: Application Engineer Lead R&D Engineer Engineer - FEA (Ansys) FEA Engineer CAE Engineer Thermal Simulation Engineer Syllabus for ANSYS Workbench Courses in Hyderabad 1. Theory of FEM & CAE 1. What are the different Ways to Validate the Design? 2. What is Analytical Method, Numerical Method, Experimental Method 3. What is FEM, BEM, FVM and FDM. 4. What is CAE 5. Difference between CAD and CAE 6. Why do we carry out meshing 7. What is DOF (Degree of Freedom) 8. Type of Elements 2. 1D Meshing and Geometry Editing Theory of 1D Meshing Geometry Editing: Creating line geometry Editing line geometry Creating Cross-Section Assigning Cross-Section Creating Truss Structures. Creating Roll Cage Structures. 1D Meshing: • Cantilever beam problem • Fix-Fix beam problem • Simply Supported beam problem • Finding forces on each members of Truss structure • Free-Free run on BAJA Roll Cage 10 Industrial Projects for Practice. 3. 2D Meshing and Geometry Editing. Theory of 2D Meshing Geometry Editing: • Creating Surfaces Geometry from Line Geometry • Mid-Surface Creation • Editing 2D Surface Geometry • De-featuring 2D Surface Geometry • Converting 1D line Geometry to 2D surface geometry. • Importing and repairing Surface geometry 2D meshing: • Creating 2D Elements • Different Meshing options in ANSYS • Solving Plate with hole with and without washer • Solving plate with hole with biasing. • Quality check for 2D elements 10 Industrial Projects for Practice 4. 3D Meshing and Geometry Editing Theory of 3D Meshing Geometry Editing: • Importing and repairing Solid Geometry • Converting 1D line geometry to 3D Solid Geometry • Creating 3D Solid Geometry • Editing 3D Solid Geometry • De-featuring 3D Solid Geometry 3D Meshing Techniques • Tetra & Penta Meshing and Editing • Hexa& Pyramid Meshing and Editing • 3D Meshing using sweep command • 3D Meshing using multi Zone command • 3D elements quality check 10 Industrial Projects for Practice 5. Static Structural Analysis Theory of Static Analysis • Static Analysis on BAJA Roll Cage – Applying Forces • Static Analysis on Pressure Tank – Applying Pressure • Static Analysis on Brake Disc – Applying Temperature 5 Industrial Projects for Practice 6. Transient Structural Analysis Theory of Transient Analysis • Transient Analysis on Bridge – Force location is changing with respect to time • Transient Analysis on Bridge – Force location is changing with respect to time and adding the effects of vibration • Transient Analysis on Brake Disc – Temperature and location changing with respect to time. 5 Industrial Projects for Practice 7. Inertia Relief Theory of Inertia Relief • Inertial Relief Analysis on Industrial A-Arm Applying forces at multiple location. 5 Industrial Projects for Practice 8. Eigenvalue Buckling Analysis Theory of Buckling Analysis • Eigenvalue Buckling Analysis on Tall Building Structure – Calculating the First Buckling Load Factor. 5 Industrial Projects for Practice 9. Axi-Symmetry Analysis Theory of Axi-Symmetric Analysis • Axi-Symmetric Analysis on Industrial Pressure Valve 5 Industrial Projects for Practice 10. Modal Analysis Theory of Modal Analysis. • Modal Analysis on BAJA Roll Cage – Finding the natural frequencies and mode shapes. 5 Industrial Projects for Practice. 11. Steady-State Thermal Analysis Theory of Steady – State Thermal Analysis • Steady-State Thermal Analysis on Brake Disc – Calculating Heat flux and temperature Distribution 5 Industrial Projects for Practice 12. Transient Thermal Analysis Theory of Transient Thermal Analysis • Transient Thermal Analysis on Brake Disc – Calculating Heat flux and temperature distribution with respect to change in time and location. 5 Industrial Projects for Practice 13. Explicit Dynamic Theory of Explicit Dynamic Analysis • Front Impact Dynamic Crash Analysis on BAJA Roll Cage 5 Industrial Projects for Practice 14. CFD Theory of Computational Fluid Dynamics (CFD) • CFD – Internal Flow Analysis on Venture • CFD – External Flow Analysis on Airfoil • CFD – Mixed Flow analysis on hydraulic mixture. FAQs on Ansys Workbench Course Is this training right for me? If you are aiming to enter into core industry as CAE Engineer/Mesh Modeller/CFD Engineer or simulation Engineer, this training is needed for you. Also, if you are looking for attractive salary and career growth without layoff, this training will be helpful. What version of Ansys will I learn? We train using the latest version of ANSYS. We monitor releases of ANSYS diligently and update our training periodically to ensure you’re learning the latest version. How fast can i get my certificate? If you’ve completed online Training successfully in the allotted batch and time, we will issue the course completion certificate right away. What is the duration & fee of Ansys course? The duration of ANSYS Online Training course depends on the type of training mode you opt for, i.e., Weekday batch, Weekend batch, fast track batch, or online batch. For fee structure, you can call us at +91 7981328897. Who is my Trainer and How are they selected? Our Institution has a team of highly experienced industry experts who have sound knowledge of their domain and will assist you in the completion of your ANSYS Online Training with promised quality. Are you looking for exciting offers and Ansys course? To avail exiting offers and discount on our ANSYS training program, you can mail us at info@bk-engineering.in or call us at +91 7981328897. Work on Live Projects? The entire Ansys training has been built around Real Time Implementation You Get Hands-on Experience with Industry Projects, Hackathons & lab sessions which will help you to Build your Project Portfolio Who are the Trainers? All the instructors at BK Engineering are practitioners from the industry with minimum 8-9 yrs. of relevant IT experience. They are subject matter experts and are trained by BK Engineering for providing an awesome learning experience. Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Mechanical Engineering Courses BK Engineering offers a comprehensive Mechanical CAD training program to help professionals advance their skills and reach their full potential. Our curriculum covers industry-standard software such as Solidworks, Catia, NX, Creo, and AutoCAD, and is taught by experienced instructors with real-world experience. Whether you're looking to upskill or launch your career in mechanical design, our program is designed to provide the best mechanical CAD training in Hyderabad. Enroll today and take the first step towards a successful future in the field. Autocad Mechanical Training Autocad Mechanical Training BK Engineering Price Duration 9900 Rs 20 Days Read More Fusion 360 Training Fusion 360 Training BK Engineering Price Duration 12400 Rs 20 Days Read More Ansys Workbench Training Ansys Training BK Engineering Price Duration 12400 Rs 20 Days Read More Ansys Fluent Training Ansys Fluent Training BK Engineering Price Duration 12400 Rs 20 Days Read More Mastercam Training Mastercam Training BK Engineering Price Duration 12400 Rs 20 Days Read More Solidworks Training SolidworksTraining BK Engineering Price Duration 12400 Rs 20 Days Read More Creo Parametric Training Creo Parametric Training BK Engineering Price Duration 12400 Rs 20 Days Read More Siemens NX Training Siemens NXTraining BK Engineering Price Duration 12400 Rs 20 Days Read More Hypermesh Training Hypermesh Training BK Engineering Price Duration 12400 Rs 20 Days Read More GD&T Training GD&T Training BK Engineering Price Duration 3000 Rs 10 Days Read More CATIA Training Catia Training BK Engineering Price Duration 12400 Rs 20 Days Read More Inventor Training InventorTraining BK Engineering Price Duration 12400 Rs 20 Days Read More Python for Mechanical Training Python for Mechanical Training BK Engineering Price Duration 12400 Rs 20 Days Read More Siemens NX CAM Training Siemens NX CAM Training BK Engineering Price Duration 12400 Rs 20 Days Read More 3D Printing Training 3d Printing Training BK Engineering Price Duration 12400 Rs 20 Days Read More Mechanical CAD Blogs How to became a Mechanical Design Engineer | Mechanical Career Guide How to Become an Automobile Engineer? | Mechanical Career Guide How to use LinkedIn to get a Job As Mechanical Engineering FAQ's on Mechanical CAD Training Which CAD course is best for mechanical engineering? There are several CAD courses available for mechanical engineering students. Some of the best courses include AutoCAD, SolidWorks, CATIA, and ANSYS. ​ What is Mech CAD? Mech CAD refers to Mechanical Computer-Aided Design. It is software that is used to design and create 3D models of mechanical components and systems. ​ Are CAD skills in demand? Yes, CAD skills are in high demand in various industries such as architecture, engineering, construction, manufacturing, and product design. ​ How long is CAD course? The duration of a CAD course varies depending on the course type and level. At BK Engineering we offers courses that range from 20 to 30 days per course. ​ What is the salary of a CAD operator/ Designer? The salary of a CAD operator/ designer depends on several factors such as the industry, level of experience, and location. On average, a CAD operator in the United States can earn around $50,000 to $70,000 per year. ​ What are the highest-paid CAD jobs? The highest-paid CAD jobs include Senior Mechanical Engineer, Senior Design Engineer and Engineering Manager. ​ Is CAD a good career? Yes, CAD is a good career option for those interested in designing and with strong technical skills. It offers job stability, high demand, and good earning potential Mechanical Engineering Interview Questions At BK Engineering, we strive to provide our students with the best solutions to their problems. As a mechanical engineering firm, we are dedicated to helping our clients succeed by providing them with the insights and knowledge they need to make informed decisions. We offer a variety of services, from solutions-oriented advice to comprehensive mechanical engineering interview questions that help our clients gain a better understanding of the industry. Our team of experienced engineers are ready to help you with any problem you might have. ​ What is your experience with 3D modeling software? Sample answer: I have experience with SolidWorks, AutoCAD, and CATIA. I'm proficient in using these tools to create 3D models, assemblies, and drawings. ​ Can you explain the design process you typically follow for a new project? Sample answer: First, I gather requirements and specifications from the client or team. Then, I create a rough sketch or concept of the design, followed by a detailed CAD model. I perform simulations and analysis to ensure the design meets the necessary requirements. Finally, I create detailed drawings for manufacturing and assembly. ​ What is your experience with GD&T? Sample answer: I have a solid understanding of Geometric Dimensioning and Tolerancing (GD&T) principles and how to apply them in design. I use GD&T to specify geometric tolerances and control the variations in the manufacturing process. ​ How do you ensure that your designs are manufacturable and cost-effective? Sample answer: I collaborate closely with the manufacturing team to ensure that the design is optimized for production. I consider factors such as material selection, tolerances, and assembly processes to ensure that the design is both manufacturable and cost-effective. ​ Have you ever worked on a project with a tight deadline? How did you handle it? Sample answer: Yes, I've worked on several projects with tight deadlines. To ensure that I met the deadline, I prioritized tasks and worked efficiently. I also communicated frequently with the team and client to ensure that everyone was on the same page and that any issues were resolved quickly. ​ Can you give an example of a complex design problem you solved? Sample answer: One project involved designing a mechanism that required precise motion control. I worked closely with the electrical and controls team to ensure that the mechanism was designed to meet the required specifications. We used simulations and prototyping to optimize the design and ensure that it worked as intended. ​ How do you keep up with new developments in the industry and new design software/tools? Sample answer: I regularly read industry publications and attend conferences and seminars to stay up-to-date with the latest developments. I also enjoy experimenting with new software and tools and incorporating them into my workflow when appropriate.

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 12400 Rs 20 Days Access Online Training < Back Introduction of Autodesk Inventor Autodesk Inventor is a professional-grade 3D CAD software for mechanical engineers that offers all core CAD features, including parametric design, stress analysis, and sheet metal design. It is used to create parts, assemblies, and drawings for manufacturing and production. In addition to product design, it is also best suited for tooling creation and simulation to test a product in motion before building it. Inventor is widely preferred for creating accurate 3D models and visualisation. Scope of Course Autodesk Inventor The course covers all the functionalities of Autodesk Inventor and its best-in-class tools for manufacturing models and drawings. Upon completion of this course, you will be able to use Inventor for creating 3D models and technical drawings for mechanical engineering purposes. The training curriculum of the software will deal with: In-depth understanding of the User Interface of Autodesk Inventor Modification of Sketch using powerful tools Managing and modifying assembly efficiently Creation of Drawings using Assembly and Parts Transferring the sketch into a 3D body Combining sub-assemblies into one assembly method of adding essential annotations such as hole info, text dimension, weld info, surface info, etc. Career Prospects / Job Roles after Autodesk Inventor Autodesk Inventor is packed with more functionality, has ease of use, and provides greater support to create parts, assembly lines, and drawings straight for manufacturing and production. Its growing customer base is creating more scope for jobs and career opportunities in mechanical engineering. Students well versed in Inventor are placed as: Design Engineer (Inventor) CAD Designer (Inventor) Mechanical Design Engineer (Inventor) Plant 3D Engineer (Inventor) Syllabus for Autodesk Inventor Courses in Hyderabad SESSION 1: GETTING STARTED Introduction: Understanding parametric design, Understanding feature based concept, Basic modeling concepts, Understanding History-Based Modeling and Dependencies, Adaptivity, Orthographic Projections, File Extensions, Inventor Workflow GUI Mouse Control Functional Keys View Control: View Cube, Navigation Wheel, Pan, Zoom, Rotate, Look At, Previous View, Next View, Projections, Visual Styles, Clean Screen, Switch, Tile Window, Cascade New Work Environment: Project Files, Application Options, Document Settings, File Open Options Exercises included for practice SESSION 2: 2D SKETCHES Sketch Workflow Creating 2D Entities: Line, Circle, Ellipse, Arc, Rectangle, Polygon, Fillet, Chamfer Advanced Sketching: Spline, Equation Curve, Slot, Sketch Point, Centre Point, Text & Geometry Text, Creating 3D Entities, Sketch Dimensioning, Sketch Constraints SESSION 3: SKETCH BLOCK Modifying Sketch: Move, Copy, Rotate, Trim, Extend, Split, Scale, Stretch, Offset, Editing Spline Sketch Pattern: Rectangular, Circular, Mirror Projection Sketch Properties SESSION 4: REFERENCE PLANE Work Feature: Work Plane, Work Axis, Work Point, UCS, in line work features Part Modeling: Overview on Part Modeling, Task Performed in Part Modeling, Part Browser, Part Template Primitives Exercises included for practice SESSION 5 & 6: FEATURES Placed Features: Hole, Thread, Fillet, Chamfer, Shell, Draft Advanced Created Features: Derive, Emboss, Rib, Decal Solid Editing: Direct Edit, Combine, Split, Thicken/Offset Pattern: Rectangular, Circular, Mirror Exercises included for practice SESSION 7 & 8: PART & ASSEMBLIES Measure: Distance, Angle, Loop, Area, Region Properties Parameters Assembly Modeling Environment, Assembly Browser Assembly Components: Placements and Constraints, Assembly Relationship Error & Recovery Tools Flexible Components, Adaptive Components Working with Assembly Components: Copy Assembly Components, Assembly Components in Patterns, Move & Rotation of Assembly Components, Deleting Assembly Components Replace Components Inspection for Interference Exercises included for practice SESSION 9: SHEET METAL DESIGN Sheet Metal Defaults Sheet Metal Features: Face, Flange, Contour Flange, Lofted Flange, Contour Roll, Hem, Bend, Fold, Cut, Corner Seam, Rip, Unfold, Refold, Hole, Corner Round, Corner Chamfer, Copy Object, Punch Tool SESSION 10: DETAILING Creating Fundamental Views: Base View, Projected View, Auxiliary View, Section View, Detail View, Overlay View, Draft View Alignment, Creating Sketches in Drawing Modifying Sketches: Break View, Breakout View, Slice, Crop Creating New Sheet Annotate: Dimensioning, Arrange Dimension, Retrieve Dimension, Notes, Text, GD&T Symbols Tables, Balloon Exercises included for practice FAQs on Autodesk Inventor Course How long does it take to learn Autodesk Inventor? Six months to get up to speed and twelve months to master it. Having said that, I've been using Inventor for six years+ and I'm still learning. So my tip is – keep an open mind and keep learning. What is the training to be an inventor? There are several education requirements to become an inventor. Inventors usually study business, mechanical engineering or drafting and design. 55% of inventors hold a bachelor's degree and 16% hold a associate degree Can anyone become an inventor? An inventor needs ideas, and the vision to design a solution around those ideas. You need a broad set of skills to design the solution. You need experience with these skills to know what will work and what won't. You can save a lot of time if you can see the trouble spots in advance. Do you need math to be an inventor? A good knowledge of math is essential to becoming an inventor. Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 3000 Rs 10 Days Access Online Training < Back Introduction of GD&T GD&T is a symbolic language used by engineers to accurately define the geometry of mechanical parts. Its focus is on communicating design intent and the functions of parts. GD&T consists of dimensions, symbols, definitions, rules, and conventions that explain the functional requirements of parts or assemblies of a product or system and types of tolerances such as form, orientation, location, and so on. This language is used on engineering drawings and ensures easy communication among designers, mechanical engineers, and fabricators. Scope of Course GD&T The course teaches you the symbols and numerical values and other rules and conventions of GD&T that are used for defining the theoretically perfect geometry of parts and for prescribing the allowable variations in the forms and sizes of parts, among others. Upon completion of this course, you will be able to: Distinctions between ASME and ISO Standards Practical problem solving with real-world examples Gauging Methods and Implications Explanations and implications of using GD&T symbols Basic and Advanced GD&T Training Career Prospects / Job Roles after GD&T It is important to define and communicate the level of accuracy and precision that is required for a given part of a design to ensure the part's fit and function. GD&T is indispensable in describing the part's theoretically exact size and profile It is a standardised, international system. It eliminates the need for engineers to have many notes. Hence, mechanical engineers who are well versed in GD&T-and thus, know all the rules and symbols concerning dimensioning and tolerancing-can find it easy to get the following jobs: CAD Engineer Mechanical Design Engineer Product Manager Structural Design Engineer QC Engineer Systems Design and Analysis Engineer Syllabus for GD&T Courses in Hyderabad Session - 1 Dimensions and Drawings Workshops Session - 2 Size Tolerance Windows Philosophy Machining flowchart Necessity of dimensional tolerance Tolerance dimensioning Ways of expressing tolerance Specifying the tolerance for the assembly Tolerance vs. Manufacturing process Deviation Basic hole system Basic shaft system It grades Fits between mating parts Allowance Clearance Session - 3 GD&T System Introduction to "ASME Y14.5M-1994." The three major benefits of geometric dimensioning and tolerancing Session - 4 GD&T Rules Rule #1 Rule #2 Session - 5 GD&T Concepts Maximum Material Condition of a feature of size Least Material Condition of a feature of size Concept of virtual condition Session - 6 Concept of bonus tolerance Session - 7 Planar Datums Datum system Datum feature Datum feature simulator Datum feature symbol Coplanar datum features Datum Targets Session - 8 Modifiers and Symbols Five types of geometric characteristic symbols Fourteen geometric characteristic symbols Common modifying symbols used in geometric tolerance Identifying the parts of a feature control frame Identifying the additional symbols used in geometric tolerance FAQs on GD&T Course What is GD&T? Answer: Geometric Dimensioning and Tolerancing (GD&T) is a language used to describe the size, shape, orientation, and location of a part. It is used to communicate design intent and provide a common language for engineers and machinists to understand and interpret drawings. What are the benefits of using GD&T? Answer: Using GD&T can help reduce costs by reducing scrap and rework, reduce product development time, improve communication between designers and manufacturers, and improve product quality and reliability. How does GD&T differ from traditional dimensioning and tolerancing techniques? Answer: GD&T is a more precise and comprehensive method of communicating design intent compared to traditional dimensioning and tolerancing techniques. GD&T uses symbols to describe the desired form, orientation, and location of a part, while traditional dimensioning and tolerancing techniques use only numbers and letters. What is the difference between geometric dimensioning and tolerancing (GD&T) and feature control frames? Answer: Geometric dimensioning and tolerancing (GD&T) is a language used to communicate design intent, while a feature control frame is a visual representation of this language that communicates the specific tolerance requirements for a particular feature on a part. The feature control frame includes a symbol, tolerance value, and any applicable modifiers. What are the symbols used in GD&T? Answer: The common GD&T symbols include: form, orientation, location, runout, profile, concentricity, symmetry, circularity, cylindricity, and straightness. What is a datum reference frame (DRF)? Answer: A datum reference frame (DRF) is a three-dimensional reference frame used to define the orientation of the part's features relative to each other. It is typically used to communicate the intended orientation of a part's features as it relates to the manufacturing process. What is a positional tolerance? Answer: A positional tolerance is a tolerance that defines the allowable variation in the location of a feature with respect to a datum. It is used to control the position of a feature relative to its datum. What is maximum material condition (MMC)? Answer: Maximum material condition (MMC) is a condition in which a feature of size is at its maximum allowable tolerance. It is used to describe the condition in which a feature is at its maximum size. What is a form tolerance? Answer: A form tolerance is a tolerance that controls the form of a feature, like a straight line, an angle, or the roundness of a curve. It does not control the size or location of the feature. What is a positional tolerance? Answer: A positional tolerance is a tolerance that controls the location of a feature in relation to other features. It does not control the size or form of the feature. Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 12400 Rs 20 Days Access Online Training < Back Introduction 3D printing refers to the manufacturing process that additively forms or creates a physical object from a digital design. There are various 3D printing technologies and materials, and all are based on the same principle wherein a digital model is reshaped into a solid three-dimensional object by adding layer after layer. Scope of Course This course will demonstrate the workings of 3D printers and impart skills involved in creating a CAD model and converting it into a three-dimensional object. You will be aware of different types of 3D printing technologies such as stereolithography, selective laser sintering, and fused deposition modeling. Upon the completion of this course, students will have a solid understanding of 3D printing, its potential, and the ability to print 3D designs. Training will cover the following key aspects: Understanding the design aspects of the 3D printable file The process of a consumer-level 3D printer FDM methodology. 3D printing case studies. Materials for Consumer 3D Printing Career Prospects / Job Roles The scope of 3D printing is growing multifold thanks to the ease of design and manufacturing, less material wastage, and other promises of this additive manufacturing technology. Right from toys to buildings, many products and objects are made in part or fully using 3D printing. Advanced industries like aviation and automobiles also use 3D printing to manufacture parts and hybrids. Students well versed in 3D printing are in great demand in almost all types of industries. Some of the more popular 3D printing jobs are: 3D Printing - Designer and Creator 3D Printing Artist 3D Printing Mechanic 3D Printing Chef FAQs on 3D Printing Course What is 3D Printing? 3D printing is a process of making three dimensional solid objects from a digital file. It involves laying down successive layers of material until the entire object is created. How does 3D Printing work? 3D printing works by adding material layer by layer until the desired object is created. The process begins with a 3D model or digital design of the object. This design is then converted into a language the printer can understand and is sent to the 3D printer. The 3D printer then builds the object layer by layer using the digital design. What materials are used in 3D Printing? Common materials used in 3D printing include plastics, metals, resins, and composites. Each material has different properties that make it suitable for different types of 3D printing applications. What are the advantages of 3D Printing? 3D printing offers a number of advantages compared to traditional manufacturing methods. It is faster, more cost-effective, and allows for more complex designs that are not possible with traditional methods. Additionally, 3D printing makes it possible to produce parts on demand, reducing the need for large inventories, and can produce parts with greater precision and detail than other methods. What types of objects can be 3D printed? Almost any object can be 3D printed, from toys to jewelry to furniture to medical devices. The limitations are determined by the type of printer and material used. How long does it take to 3D print an object? The time it takes to 3D print an object depends on the size and complexity of the object, as well as the type of printer and material used. A small, simple object can take a few minutes, while a larger, more complex object can take several hours. What materials can be used in 3D printing? A variety of materials can be used in 3D printing, including plastics, metals, and even ceramics. The type of material used will depend on the type of printer and the desired outcome. Is 3D printing accurate? Yes, 3D printing is very accurate. Depending on the printer and materials used, 3D printed objects can be made with very precise measurements. How much does 3D printing cost? The cost of 3D printing depends on the type of printer and material used. Generally, 3D printing is more cost-effective than traditional manufacturing methods for small-batch production. What is the resolution of 3D printing? The resolution of 3D printing is determined by the type of printer and material used. Generally, 3D printers can produce objects with resolutions of up to 0.1mm. Is 3D printing accurate? Yes, 3D printing is very accurate. Depending on the printer and materials used, 3D printed objects can be made with very precise measurements. Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 12400 Rs 20 Days Access Online Training < Back Introduction: Python is a simple yet powerful programming language. Its simple syntax makes Python easy to learn. Also, this language integrates well with all types of programming models, such as imperative, object-oriented, and procedural. Python has efficient high-level data structures. It is used in mechanical engineering in the areas of numerical analysis, thermodynamics, and computational fluid dynamics. Scope of Course: This course teaches the language and syntax of Python and its applications in mechanical engineering. It covers the methods of writing automation scripts for CAD and using python scripts to set up and run finite element studies in Abaqus, a software application used for both the modelling and analysis of mechanical components and assemblies and visualising the results of finite element analysis. Python Basics Modules & Functions List Strings Scientific Calculations Matplotlib Free CAD Abaqus Python script Career Prospects / Job Roles: The use of Python adds tremendous value to the resumes of mechanical engineers, as employers expect their engineers to possess the knowledge of integrating mechanical engineering concepts with a computer language like Python, and to simulate and automate concepts. Automotive Aeronautical Syllabus for Python for Mechanical Courses in Hyderabad Session1: Introduction Introduction to Python Programming Installation Procedure Edit Window Session 2: Python Basics Comments, Data Types Variables & Operations Standard Functions Decision Making & Repetitive Tasks Exercises included for Practice Session 3: Modules & Functions Modules User Functions User Module Exception Handling Exercises included for Practice Session 4: List Methods Strings as Lists Tuples Dictionary Exercises included for Practice Session 5: Strings String Literals Double Quotes, Escape Characters Raw Strings, Triple Quotes Indexing & Slicing strings In and not in & Methods startswith () and ends withCDD Essentialjoin () and split () rjust (), ljust (), and center () strip (), rstrip (), and lstrip () Exercises included for Practice Session6: Scientific Calculations Numpy Arrays SciPy Pandas Exercises included for Practice Session7&8: Matplotlib Types of Plots Image Functions, Axis Functions & Figure Functions Simple Plot PyLabModule, Object Oriented Interface Figure Class, Axes Class Multiplots, Subplots(), subplot2grid() Grids, Formating Axes, Settings Limits Trick & Trick Labels, Twin Axes Bar Plot, Pie Chart, Scatter Plot 3D Plotting, 3D Scatter Plot, 3D Contour Plot, 3D Wireframe Plot, 3D Surface Plot Working with Text, Put the Legend at various position Heatmap calendar using Numpy and Matplotlib Exercises included for Practice Session9: Free CAD Writing Python code Modules Part Scripting Modify shapes Boolean operations Explore shapes Edge analysis Use a selection Loading and saving Macros Exercises included for Practice Session 10: Abacus Python Abacus Scripting Replay Files Macros Abaqus PDE FAQs on Python for Mechanical Course Will this course help me learn Python? This course on the BK Engineering platform best way to learn the Python language. What is the duration of this Python course? The duration of this online certification course is two months. What is the mode of this online learning program? The mode of this certification course is online. How can students clear their doubts? The doubt solving procedure is extremely easy. You get access to a professional engineer who can help you with doubts clarification via telephone or email support. Can I take this certification course for free? No, you cannot take this certification course for free. Does the BK Engineering platform provide job guidance? Yes, the BK Engineering platform provides job guidance to its post-graduate program students. How can I get a refund for this online certification course? To know about the refund policy, you must get in touch with the enquiry desk at the BK Engineering platform. When can I start this certification course? You can begin this certification course as soon as you pay the enrolment fee. What are the career prospects after completing the Python course in Hyderabad with BK Engineering? After successful completion of the Python online course in Hyderabad, you may apply for several opportunities such as— Python Developer Solver Developer Why should I choose the Python course in Hyderabad with BK Engineering? BK Engineering’s course is one of the best ways to learn Python as it teaches you all the versions of this open-source programming language while giving you practical work experience. You will also become competent in crucial concepts, data types and basic operators What are the prerequisites for taking up the Python course in Hyderabad with BK Engineering? The Python for mechanical engineers course is suitable for students who have a background in mechanical, automotive, and aerospace engineering. What is the expected salary range after completing a Python course in Hyderabad with BK Engineering? According to data revealed on Ambition Box, the average salary of a Python Developer in India ranges from ₹2.0 Lakhs to ₹8.4 Lakhs, with an average annual salary of ₹4.3 Lakhs. However, the figure may vary depending on experience and expertise. What are the benefits of choosing to do the Python course in Hyderabad with BK Engineering? Pursuing a course at BK Engineering would offer many benefits to you. Industry-oriented curriculum. Hands-on experience in solving industry projects. Email and forum support from the technical support team to clear your doubts. A certificate of completion for all participants and a merit certificate for the top 5% of the scorers. What is the program fee for the Python course in Hyderabad with BK Engineering? BK Engineering offers Rs,12400 for the Python course in Hyderabad: Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 12400 Rs 20 Days Access Online Training < Back Introduction of Mastercam Computer-aided manufacturing (CAM) software is being introduced under Mastercam. Mastercam offers solutions for the manufacturing of components that are both complex and precise. It is the CAM software that has been used by the majority of the leading manufacturers in the automotive and aerospace industries, making it the most widely used software in the world. Mastercam has been utilised in the designing process as well as the programming of CNC machines. Mastercam generates G code and M code. Mastercam is a piece of software used for various CNC machine programming tasks, assisting users in producing mechanical drawings and 3D models. Scope of Course Students will investigate the functions of the tools, workflow processes, and critical aspects covered in this course. The Lathe and Multi-axis Configurations for Manufacturing topics can be covered in the Mastercam course. In addition to this, you will be able to Make use of the Mastercam 2021 interface for an overall view. Handle basic commands in the appropriate manner. Creating NC codes Create a 2D wireframe and a 3D model Roughing and Finishing (2D and 3D Milling). Analyze various types to assess parts and moulds. Career Prospects / Job Roles after Mastercam Mastercam's most advanced CAM software addresses challenging productivity demands in various industries, ranging from aerospace and automotive to education and energy. For the following reasons, anyone with experience using Mastercam has a better chance of finding work quickly: Machine Operator / Machinist Instrumentation and Tool Room Engineer Production Manager / Supervisor Foreman / Technician Syllabus for Mastercam Courses in Hyderabad Session - 1 Manufacturing process Manufacturing concepts Manufacturing types CNC machines NC codes Activity1: Study & document various conventional and nonconventional manufacturing process Session - 2 Mastercam fundamentals Features of Mastercam GUI of Mastercam Creating geometries Creating 2D profile Session - 3 Creating/Importing 3D models Session - 4 Milling - 2D: Hole making Activity2: Study and document the different parameters control the milling operations in CNC machines Session - 5 Milling - 2D Creating counter mill Creating drill Creating pockets Creating area Creating slot mill Session - 6 Milling - 2D Creating engrave mill Creating sweep milling Creating revolved cut Creating lofted cut Creating ruled cut Session - 7 Milling - 2D Creating dynamic mill Creating dynamic face mill Creating dynamic counter mill Activity3: Difference tools used in milling Session - 8 Milling 3D Roughing Optirough Pocket Area rough Session - 9 Milling 3D Finishing Finishing using waterline Finishing using scallop Session - 10 Milling 3D Hybrid finishing Raster finishing FAQs on Mastercam Course What is Mastercam? Answer: Mastercam is a computer-aided design (CAD) and computer-aided manufacturing (CAM) software package designed to help users create and program CNC parts. It is one of the most widely used CAD/CAM systems in the world. What platforms does Mastercam run on? Answer: Mastercam runs on Windows 7 and Windows 10 operating systems. Can I use Mastercam for 2D and 3D work? Answer: Yes, Mastercam is capable of both 2D and 3D programming. What type of files can Mastercam open? Answer: Mastercam can open .dwg, .dxf, .igs, .stp, and .stl files. Does Mastercam have a free trial? Answer: Yes, Mastercam offers a free 30-day trial of its software. How much does Mastercam cost? Answer: The cost of Mastercam varies depending on the version and number of licenses purchased. Does Mastercam have any add-ons or plug-ins? Answer: Yes, there are several add-ons and plug-ins available with Mastercam. These include Mastercam X-Tools, Advanced Turning and Dynamic Milling, as well as the Mastercam Solids Modeling package. You can check out the full list of plug-ins and add-ons available at the Mastercam website. What types of CAD files can I open in Mastercam? Answer: Mastercam can open a variety of CAD files, including .dxf, .iges, .stl, .ipt, .step, and .sldprt. Is there a student version of Mastercam? Answer: Yes, there is a student version of Mastercam available. The student version is limited in its functionality but still allows students to learn the basics of the software and gain valuable experience. What is the difference between Mastercam and Mastercam X? Answer: Mastercam X is the latest version of the software, which includes many new features and enhancements. Mastercam is the previous version, which will still work with all existing CAD files but may be missing some of the newer features. Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 12400 Rs 20 Days Access Online Training < Back Introduction of CATIA: CATIA is a parametric three-dimensional application software used for product design. It offers a complete engineering toolset within a single working environment. A multi-platform 3D software which seamlessly creates solids, surfaces and sheet metal using a single interface. CATIA unites 3D parametric features with 2D tools and also addresses every design-to-manufacturing process. CATIA is used in a variety of industries throughout the world. These include Aerospace, Appliances, Architecture, Automotive, Construction, Consumer Goods, Electronics, Medical, Furniture, Machinery, Plastics, and Shipbuilding. Scope of Course CATIA: The proficient course in CATIA teaches you how to create solids, surfaces, assemblies, drawings, and sheetmetal parts with CATIA. You will also learn about the software's powerful parametric modelling tools, photorealistic rendering tools, and advanced functionality for surface models. Training will be given in the following key skills: Understand and use of capabilities of CATIA Kinematics Work on the functions followed in the Kinematics Workbench Define the mechanism using an existing assembly Simulate the mechanism Perform analysis of kinematics Analyse the mechanism for clashes Formulate the sequence of multiple mechanism Career Prospects / Job Roles after CATIA: CATIA is widely used in the industry to improve design quality through greater accuracy and reduce design errors. Students well versed in CATIA are placed in industries such as: CATIA DesignerDesign Engineer - CATIAMechanical Design Engineer - CATIACATIA Modeler3D modeler Syllabus for CATIA Courses in Hyderabad Session 1: Introduction: What is CATIA V5, Design Intent, System Requirements, Getting Started, Understand the CATIA Interface, Workbenches, Menus and Toolbars, Finding Tools, Specification Tree, Compass, Graphic Properties, Understanding View Manipulation: Fly mode, Fit All In, Pan, Rotate, Zoom In, Zoom Out, Normal View, Multi Understanding Standard Toolbar: New, Open, Save, Save Management, Print, Cut, Copy, Paste, Undo, Redo Session 2: Introduction to Sketcher Entering Sketcher Workbench: Basic Sketching, Positioned Sketching Profile Creation Using: Profile, Predefined Profile, Circle, Spline, Conic, Line, Point, Axis Understanding Sketch Tools Creating Construction/ Standard Element Applying Geometrical/ Dimensional Constraints Understanding User Selection Filter toolbar Understanding Visualization Toolbar Cut part by Sketch Plane 3D Element visualization 2D Element visualization Diagnostics Dimensional Constraints Geometrical Constraints Sketch Workflow Session 3: Editing Profile using: Corner, Chamfer, Relimitations, Transformation, 3D Geometry Understanding Constraints: Constraints, Constraint Creation, Contact Constraint, Fix together, Auto Constraint, Animate Constraint, Edit Multi – Constraint Introduction to Part Design Creating Sketch-Based Features: Pad Definition, Drafted Filleted Pad Definition, Pocket Definition, Drafted Filleted Pocket, Shaft Definition, Groove Definition, Hole Definition Creating Reference Element: Plane Definition Session 4: Creating Sketch-based Feature: Rib Definition, Slot Definition, Stiffener Definition, Solid Combine Definition Applying Dress-Up Features: Edge Fillet Definition, Variable Fillet Definition, Chordal Fillet Definition, Face-Face Fillet Definition, Tritangent Fillet Definition, Chamfer Definition Session 5: Creating Sketch-Based Features: Multi-Sections Solid Definition, Removed Multi-Section Solid Applying Dress-up Features: Draft Definition, Draft Reflect Line Definition, Variable Angle Draft Definition, Shell Definition, Thickness Definition, Thread/Tap Definition, Remove/Replace Face Definition Creating Surface-Based Features: Split Definition, Thick Surface Definition, Close Surface Definition, Sew Surface Definition Session 6: Creating Reference Element: Point Definition, Line Definition Creating Transformation Features: Transformation Definition, Rotation Definition, Symmetry Definition, Axis to Axis Definition, Mirror Definition, Pattern – Rectangular/ Circular Pattern Definition, Scale Definition. Session 7: Introduction to Assembly Design: Understanding Top Down & Bottom Up Approach Understanding Product Structure Tools: New Component, New Product, New Part, Existing Component, Existing Component with Positioning Understanding Constraints Toolbar: Coincidence Constraints, Contact Constraints, Offset Constraints, Angle Session 8: Introduction to Sheet metal Design: Understanding Sheet metal Parameters Understanding Views Toolbar: Fold/Unfold, Multi viewer, Views Management Creating Walls: Wall, Wall on Edge, Extrusion, Swept Walls- Flange, Hem, Tear Drop, User Flange Creating Rolled Walls: Hopper, Free from Surface, Rolled Wall Understanding Bending Operations: Bend / Conical Bend, Bend from Flat, Unfolding/ Folding, Point or Curve Recognize Definition Session 9: Wireframe and Surface Design, Introduction to Surface Design Understanding Wireframe Toolbar: Point, Point and Planes Repetition, Line, Axis, Polyline, Plane, Planes Creating Surfaces: Extruded Surface Definition, Revolution Surface Definition, Sphere Surface Definition Trim & Split Definition Creating Surfaces: Cylinder Surface Definition, Offset Surface Definition, Fill Surface Definition, Multi-Sections Creating Sweep Surface: Swept Surface Definition using profile type - Explicit, Line, Circle, Conic Session 10: Introduction to Drafting Creating New Drawing File Creating Projection Views: Front view, Un folded view, View from 3D, Projection, Auxiliary, Isometric, Advanced Front view Creating Sectional Views: Offset Section view, Aligned Section view, Offset Section Cut, Aligned Section Cut Creating Details Views: Detail, Sketched Detail Profile, Quick Detail, Sketched Quick Detail Profile Creating Dimensions Using: Dimensions, Chained Dimensions, Cumulated Dimensions, Stacked Dimensions, FAQs on Catia Course Why Should I Learn CATIA Course At BK ENGINEERING? CATIA Course in BK ENGINEERING is designed & conducted by CATIA experts with 8+ years of experience in the CATIA domain Only institution in India with the right blend of theory & practical sessions In-depth Course coverage for 40+ Hours More than 5,00 + students trust BK ENGINEERING Affordable fees keeping students and IT working professionals in mind Course timings designed to suit working professionals and students Interview tips and training Resume building support Real-time projects and case studies What are the modes of training offered for this CATIA Course? We offer this course in “Class Room, One to One Training, Fast Track, Customized Training & Online Training” mode. Through this way you won’t mess anything in your real-life schedule. Can I Access the Course Material in Online? Yes We Provide Lifetime Access for Student’s Portal Study Materials, Videos & Top MNC Interview Question. Will I Be Given Sufficient Practical Training In CATIA ? Our courseware is designed to give a hands-on approach to the students in CATIA . The course is made up of theoretical classes that teach the basics of each module followed by high-intensity practical sessions reflecting the current challenges and needs of the industry that will demand the students’ time and commitment. Work On Live Projects? The entire CATIA training has been built around Real Time Implementation You Get Hands-on Experience with Industry Projects, Hackathons & lab sessions which will help you to Build your Project Portfolio. Looking for better Discount Price? Call now: +91 7981328897 and know the exciting offers available for you! What Will Be The Size Of A CATIA Batch At BK ENGINEERING? We at BK ENGINEERING believe in giving individual attention to students so that they will be in a position to clarify all the doubts that arise in complex and difficult topics. Therefore, we restrict the size of each CATIA batch to 5 or 6 members. What if I miss one (or) more class? No worries. BK ENGINEERING assure that no one misses single lectures topics. We will reschedule the classes as per your convenience within the stipulated course duration with all such possibilities. If required you can even attend that topic with any other batches. Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. Related Mechanical Courses Identifying the most important CAD software for the industry and the career, and getting trained professionally in the software are the fundamental requirements for engineering professionals. Solidworks Catia Ansys More Courses from BK Enineering Mechanical CADD AutoCAD, Catia, Creo, Ansys, Solidedge, Inventor, Fusion 360, Solidworks, Hypermesh, NX, GD& T Read More Digital Marketing Social Media Marketing, Facebook Marketing, Google Ads, Search Enginer Optimization, Instagram Marketing Read More Data Analytics Advanced Excel, Tableau, Power BI, SQL, Python Read More

Home Autocad Solidworks CATIA Creo NX Ansys Hypermesh Fusion 360 Price Duration 12400 Rs 20 Days Access Online Training < Back Introduction To Solidworks Training Solidworks is a 3D modeling, parametric application software. It improves visualization, collaboration, and innovation, besides improving efficiencies in every downstream function of the product development process. It has both parametric and direct modelling capabilities. SolidWorks is known for its user-friendly GUI with quick-to-understand features that come in handy for design development. Scope of Solidworks Course The course teaches you how to use SolidWorks for planning, visual ideation, modeling, feasibility assessment, and prototyping. You will learn how to design and build mechanical, electrical, and software elements in your design. Training will be given in the following skills: Sketch creation & editing tools Part modeling & editing features Assembly modeling Surface modeling Sheet metal design Weldment design Drawing views & annotations Career Prospects / Job Roles (After Learning Solidworks) Solidworks has a large community of users, and employers frequently seek candidates with SolidWorks experience. Students well versed in SolidWorks are placed as: SolidWorks Design Engineer SolidWorks Application Engineer PDM Application Engineer Project Engineer - SolidWorks Design Engineer(Mechanical) Solidworks Training Demo Syllabus for Solidworks Training in Hyderabad Session 1: Introduction to CAD, CAE, PDM Introduction to Solidworks Features of SolidWorks Various products available in SolidWorks for Product Design, Simulation, Communication SolidWorks Graphical User Interface: Feature manager design tree, Callouts, Handles, Confirmation corner, mouse buttons, keyboard shortcuts, Command Manager, Hardware and Software requirements, SolidWorks Task Scheduler, SolidWorks Rx Session 2: Sketch Entities: Inference line, Centerline line, Line, Circle, Arc, Ellipse, Rectangle, Slots, Polygon, Parabola, Ellipse, Partial Ellipse, Spline, Spline tools, Spline on surface, Equation driven curve, Points, Text, Construction geometry, Snap, grid Session 3: Sketch Tools: Fillet, Chamfer, Offset, Convert entities, Trim, Extend, Split, Jog, Mirror, Dynamic Mirror, Move, Copy, Rotate, Scale, Stretch, Sketch pattern Make path, Close Sketch To Model, Sketch picture, Check Sketch for Feature, Area hatch/Fill Blocks: Make block, Edit block, Insert block, Add/Remove Entities, Rebuild, Save, Explode Relations: Adding Sketch Relation, Automatic relations Dimensioning: Smart, Horizontal, Vertical, Ordinate, Horizontal ordinate, Vertical ordinate, Align ordinate, Fully define sketch Sketch Diagnosis, SketchXpert, 3D Sketching, Rapid Sketch Session 4: Part Modeling Tools Creating reference planes Creating Extrude features: Direction1, Direction2, From option, Thin feature, Applying draft, Selecting contours Creating Revolve features: Selecting Axis, Thin features, Selecting contours Creating Swept features: Selecting, Profile and Path, Orientation/twist type, Path Alignment, Guide Curves, Start/End tangency, Thin feature Session 5: Creating Loft features: Selecting Profiles, Guide curves, Start/End Constraints, Centerline parameters, Sketch tools, Close loft. Selecting geometries: Selection Manager, Multiple Body concepts Creating Reference: Points, axis, coordinates Session 6: Creating curves Split curve, Project curve, Composite curve, Curve through points, Helix and Spiral Creating Fillet features Inserting Hole types Session 7: Creating Chamfer Creating Shell, Creating Rib Creating Pattern: Linear pattern, Circular pattern, Sketch driven pattern, Curve driven pattern, Table driven pattern, Fill pattern, mirror Session 8: Assembly Modeling Tools Introduction to Assembly Modeling & Approaches: Top down and Bottom up approach Applying Standard Mates: Coincident, Parallel, Perpendicular, Tangent, Concentric, Lock, Distance, Angle Session 9: Generating Drawing Views Introduction To Angle Of Projection Generating Views: Generating Model View, Projected Views, Inserting Standard 3 View View creation relative to model, Inserting predefined views, empty views, Auxiliary Views, Detailed Views, Crop view, Broken –Out Section, Broken Views, Section View, Aligned Section View, Alternate Position View, Working assembly specific view, Drawing properties, Manipulating views Session 10: Sheet Metal Design Concepts in Sheet metal design bend allowance bend deduction, K-factor Inserting Base Flange, Sheet Metal Tab, Edge Flange, Miter Flange, Hem, Jog Creating Break Corner/Corner Trim, Closed Corners, Rip Inserting Sketched Bend, Fold/Unfold, Forming Tools FAQs about the Solidworks Course in Hyderabad 1. Who can take up this Solidworks course? Students and graduates of mechanical engineering can take up this Solidworks course with a certificate. 2. Who is eligible to take the Solidworks online course? The SolidWorks online course is suitable for mechanical engineering students and graduates who wish to obtain a certificate. 3. Do I receive a certificate after completing the Solidworks course? Yes, upon completion of the SolidWorks course, you will receive a course completion certificate. The top 5% scorers will also receive a merit certificate in addition to the course completion certificate. 4. How can I get help with any doubts during the Solidworks course? You can avail email and forum support to get your queries cleared. 5. Who has developed the Solidworks course? Industry experts with experience in this domain have designed the online Solidworks course to make it relevant to the industry. 6. Do I need to work on any projects to complete the SolidWorks online course? Yes, you will have to work on two industry-relevant projects during the duration of the SolidWorks certification course. 7. Who can take up this Solidworks course from BK Engineering? Students and graduates of mechanical engineering can take up this Solidworks course with a certificate. 8. Is this SolidWorks course an online or a offline program by BK Engineering? This Solidworks course is taught both online and offline 9. What is the duration of this Solidwork course by BK Engineering? This is a 20 days program offered by BK Engineering. 10. Who has designed this Solidworks course by BK Engineering? Industry experts in this domain have designed this online Solidworks course to make this course industry-relevant, provided by BK Engineering. 11. Do I need to work on projects for completing this Solidworks online course by BK Engineering? Yes, you will work on two industry-relevant courses during the duration of this Solidworks certification course offered by BK Engineering. Your Instructor Bhargava Krishna Marripati Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few. If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering. 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