We just did some assumption for explanation. You need to ask to manufacturer for the same.

Yes..You can add damping details if you may have.

Pin ball create contacts between two bodies which are at some distance apart. You can define the respective distance as a pinball radius.

The Campbell diagram may vary with respective geometry, loading & BC. It is simple exercise you can simulate and crosscheck, let us know if you found any deficiency.

Welcome ! You will get this values from respective bearing manufacturers.

Thanks! I think for bearings only.

@@graspengineering9249 hi, dear sir! i did an analysis following your instructions for a vertical axis turbine rotor with multiple blades and applied stiffness and damping values. The analysis was done at 100 rpm, 250 rpm and 525.5 rpm for rotational velocity (converted into rad/s). Compared to your analysis the material was aircraft grade aluminum and the rotation speed is very low. I obtained many stability values of 0 and only 1 unstable mode at negative stability and negative damping ratio value. (there was no mass imbalance as well) However, what bothers me is that the Campbell diagram shows no critical speed in this range also shows only one unstable mode. Please let me know if this scenario is possible or if there is any problem. Thank you for your kindness!

To avoid rigid body motion, we kept Rz as zero. We already reply to this question, Please check below reply to the comments.

You can follow the same approach. Model bearing on 3D shaft define contact connection or bolted connection between shaft and impeller.

Please do read reply to comments on this video. It you will not constraint the Z movement then it will show rigid body motion. It is consider as worst case which might be the case of bearing lock scenario.

Bearing is created in different plane (X-Y) while the constraint is given in axial direction. We will get results only when we restrict the few DOF.

Check the boundary conditions, it should be similar to your actual site condition. You might need to lock few more dof to reduce the deformations.

Split the edges

Kindly check if the model is constrained properly or not. If you are getting first six modes zero means model is not constrained. But 7th mode onward you should have some values. Stable unstable modes are based on your inputs, geometry, etc.

@@graspengineering9249 the central shaft of the turbine is hollow. I have placed bearings on both ends and 0 REMOTE displacement constraints in axial direction. I added stiffness as well as damping for bearings.

It is excitation line. It may come from unbalance that is synchronous with the rotational velocity or from any asynchronous excitation.

Welcome. You can analyze in similar way. Model both the rotor and apply realistic BS & loads.

I think, we used by default material which is structural steel as a material. Results should vary if material changes.

You need to check setting and define controls as per your convenience.

Thanks. Your question is not clear but whatever the stiffness values you may have, you can define it in respective direction only.

Excitation frequency is nothing the frequency of equipment of the system, for present case rotational frequency of impeller. Suppose if you have motor with base frame assembly, in that case the motor have some frequency that is nothing but excitation frequency, while base frame have some natural frequency which might me lower or upper than excitation frequency.

Go to here that it is useful for you.

You can model shaft with line and then assign cross section. When you split lines, you will get vertices.

Hello, The stiffness characteristics K11, K22, K12, and K21, and damping characteristics C11, C22, C12, and C21 are used to model four spring-damper sets in a plane of a rotating shaft. If you have only two damper then only enter two values. If no damping then put zero or else keep as aluminium as possible, like 0.01 to 0.05

In FEA we need to constrained to get the effect of applied loads, hence to see the effect of z direction motion at the center, we constrained rotz at ends, it is like bearing lock phenomena.

Elaborate more

@@graspengineering9249 sir, the plate which welded at bottom of supporting legs of structure, also known as base plate Why we dont weld supporting leg directly to existing structure like stiffner(beam) .

Any resources like pdfs ,book for learning design of supporting frame for different equipments like, H.E ,pump, tanks etc

Pressure vessels are subjected to high pressure and high temperature and direct support is avoid due to high temp gradient. You can refer pressure vessel standard, TEMA standards for saddle design.

You might asking about gyroscopic couple, A reaction moment appears called gyroscopic moment with axis perpendicular to both the spin axis and the precession axis (perpendicular to spin axis).

You can create first sketch on plane, then line from sketch and then create cross section and asigned that crosssection to the line.

You can do as suggested or else you can draw a line in design modular ( by creating coordinate system & sketch) then create cross section and assign this cross section to the line & then split line at the center in order to create contact with impeller.

Refering to some research paper, Campbell diagram show two curves for a single mode diverging up and converging down. But the Campbell diagram shown in figure showing only one line for each mode.

Hello ! Ansys is analysis software where you can validate your design. Based on your inputs & requirements, you can model that in Design Modeler or Spaceclaim. Please refer our separate playlist for CAD work on channel page.

Yes, sure. We will try to upload this geometry on our blogpost like other geometry..www.graspengineering.com/category/design/fea-cad-geometry/

@@graspengineering9249 I would also be interested in the file in order to understand and practise the topic even more. Have you been able to upload them yet?

Hello ! You can define this varying bearing stiffness to accommodate its effect in simulation.

Why do you want to separate ?

@@graspengineering9249 Thank u for replying.. :) my model is very simple, disk attached to a cantilever shaft.. i need disk and shaft to be rotating and bearing to be non- rotating...Bearing on the other side of the disk...how can i do? m very new to ansys.. imgur.com/a/pfGtQGX. I also want to represent my shaft into 1 D like u have done in the video.. is it possible to do if i have imported my model from Solidwork??

instability is mainly due to self excitation vibration of rotating structure. eg. bearing characteristics loss & oil seals damage in compressor. We can study this instability by regular monitoring, sensitivity study, etc.

Impeller is subjected to rotation hence we need apply respective rotational velocity. Natural frequency will affect due applied rotational velocity and BC input.

im no expert but i know that without rotational velocity its only a modal analysis but if you input rotational speed then it becomes a rotodynamic analysis which is the point of this video. without rotational speed, you cant get the campbell diagram.

2D rotation means ? You can do 2D, 3D and axisymmetric analysis.

We are expert in FE analysis of rotor dynamics but not in subject, but we suggest go for any handbook.

Will upload soon on our blopost.

We did assumption of bearing stiffness for explanation purpose only. You can refer from ANSYS help or you can refer bearing manufacturer catalogs for stiffness. Rotordynamic equation consist of standard mass, stiffness, damping and rotordynamic term as skew symetric matrices which captures the gyroscopic effect induced by rotational angular velocity, The Coriolis command or effect activates this gyroscopic damping matrix.

@@graspengineering9249 so that means if a system doesn't have the coriolis effect, it's useless to see the campbell diagram ? if not , why ansys provide the diagram only once we turn on coriolis effet ?

Their is option in modal analysis setting for Campbell diagram to turn on and off. You can choose as per your preference, set yes to see Campbell diagram.

@@graspengineering9249 Thank you very much :) Subscribed

@@trungnghiale8286 Welcome !

Yes. But if you are looking stresses due to torque/moment, you can use static analysis.

I am looking for stresses developed due to centrifugal forces only.. Then?

Then do static only. It will automatically consider centrifugal force for rotation.

This geometry is used for explanation purpose only. It does not model with exact dimensions.

No. We didn't received any requirement for XL rotor (rotating machinery analysis Inc) rotor-dynamics.

@@graspengineering9249 Do you have a video showing how to find (or calculate) the bearings properties? Like stifness and damping...

@@viniciusgajo1884 No...We haven't yet created videos on bearing simulation.

Hello, It is latest version (19.0)

@@graspengineering9249 can u help me i have to solve a multi disc system rotating on a common shaft i have to find out its 5 critical speed

@@sarojchaudhary1921 You can perform the model analysis and find out the Campbell diagram, which will give you critical speeds.

Thanks & welcome !

Welcome ! We will try to write the blogpost (our our blog) on this topic and will explain all detail information.

Thank you! Sure

We are applying rotation in z hence need to constrained it neither it will show rigid body motion.

but don't we want it to have rotational motion in z? we give it three velocity of rotation!

We are not restricting z motion at impeller. We r providing at shaft ends. We are assuming that ends are constrained in vertical and horizontal directions.

ok，I get it ，thank you so much!

@@graspengineering9249 so the bearing connection helps constrain the ends in vertical and horizontal directions, right? so for me , just need to contrain the translation in Z. why did you contrain the rotational motion too ? and also, what is the difference between displacement and remote displacement option if you didn't change the coordinates of your scope gepmetry ? Thank you in advance for your help

Hello ! 1. When a rotating structure vibrates at its resonant frequency, points on the spin axis undergo an orbital motion, called whirling. When rotar rotates on whirl orbit, it might be stable forward or backward whirl. Kindly check wether it is forward or backward in your case. 2. Yes it is possible to obtain same frequency for different speed, eg. Variable speed equipment (Compressor). 3. If you keep free in Z axis then their will not be stresses. We are doing as bearing lock scenario. In FEA we need to constrain in order to avoid rigid body motion.

@@graspengineering9249Sir, Thanks for replying :) Understood now. That cleared a lot of things. Btw, I would like to know how to perform *modal analysis* of an axisymmetric shaft. I tried to do analysis for an axisymmtric shaft and compared my results with 3D shaft of same dimensions and the results had huge variation(Shaft dimensions were: Length=1000mm, inner radius= 10mm, thickness=20mm. Boundary condition was FIXED SUPPORT at the either ends of the shaft). In 3D, my first natural frequency was 206hz and in 2D axisymmetric (in X-Y plane ) it was 2506hz. I have changed the behaviour type to Axisymmetric but still I'm unable to match the results. I would like to know what have I missed. Kindly, can you make a video of the same or provide solution through any other channel?

In reality, shaft will not rotate freely. Rotor is doing some work like compressing the air, machining any part, giving speed to water in case of pump etc. while doing work, the rotor system is experiencing resistance towards its free rotation. Which is called torque load on rotor system. Hence we need to fix the rotation DoF to simulate reality.

Iam impressed on your explanations.. Your teaching is awesome.. I loved your teaching methods, with detailed explanation..

Thank you Punnet for appriciation... We are not on udemy but we are working on breakthrough coarse, you can subscribe for that once completed.

@@graspengineering9249 Can you Share that Subscription link....? And I already subscribed your KZbin channel long back..

@@graspengineering9249 I Want your Course documents for practice if possible u can contact me @puneet.nelwale@gmail.com

Thank you

Hello, for rotor dynamic you can apply different rotational velocity & plot them together with graph & in static simulation you can apply different moments & plot them against time/load cases. But you can not plot moments vs angle of rotation.

Hello Gaurav, Greetings ! You can create 1D or 3D shaft model in design modular. Create coordinate at the center of impeller, do sketching of circle and extrude in required direction. Then create contact in mechanical between Rotar & Shaft at centre region.

@@graspengineering9249 thax sir

@@GAURAVRANA-yt2cv Welcome !

confluence.cornell.edu/display/SIMULATION/Cantilever+Beam+-+Geometry

Hello, Thanks for appreciations. 1. Hypermesh with radioss is used mostly in automobile domain. Radioss is used limited in the industry. 2. Hypermesh WIth ANSYS. ANSYS is used Widely and more frequently in most of domain. I think 2nd option is quite better for more opportunities. But instead of doing course try to learn from online free tutorials. Most of courses will cover only beginning parts.

@@graspengineering9249 Grasp Engineering Thanx alot for clearing, the IFS academy in Pune I locked as option, a 4 months diploma they are offering me for 60k, would like to share its course content with you for reviewing. May I know your mail id plz!

@@rajatgupta5984 The coarse is only better option if they are giving 100 % placement, neither better try to learn online and get job in small firm and then in big organisations. The courses only covered basics level.

@@graspengineering9249  Introduction to Finite Element Analysis  What is Finite Element Analysis?  History of FEA  Analytical and numerical FEA  Necessity of FEA  Advantages and Limitation  Discretization and other approximation in FEA  Necessity of Meshing  Convergence and mesh Refinement  Human Error, Sources and detection, common mistake,  Mesh Refinement, Mesh Convergence, Mesh Transition  CAD Clean Up using ANSYS Design Modeler  Navigate within the graphical user interface  Create, modify and/or cleanup their geometry in preparation for their analyses  Generate 2-D sketches and convert them into 2-D or 3-D models  Modify 2-D and 3-D geometry  Import existing CAD geometry into ANSYS DesignModeler  Create line bodies and their cross sections in preparation for FE beam analysis  Repair:  Automatically Finding Faults  Generating the Repair Feature  Viewing Faults/Results  Repair Context Menu Options  Repair Feature Types  Create surface bodies in preparation for FE shell analysis  Model assemblies  Utilize parameters  CAD Clean Up using ANSYS SpaceClaim (70 Hrs.)  Import Procedure  Importing External CAD Files into SpaceClaim Direct Modeler (SCDM) using ANSYS Workbench  Importing SpaceClaim Geometry into DesignModeler  Starting SpaceClaim before ANSYS Workbench  Starting ANSYS Workbench before SpaceClaim  Importing SpaceClaim Geometry into Mechanical APDL  Create a new geometry from scratch in ANSYS SpaceClaim  Repair an imported geometry in ANSYS SpaceClaim  Extract the fluid volume from solid bodies  Create and edit an enclosure around a body  Create spot welds for an FEA analysis in ANSYS Mechanical  Using the Midsurface tool to simplify the thin models and mesh with shell elements  Extracting then beams using Beam Extract tool  Create Named Selections and parameters in ANSYS SpaceClaim  Import the geometry to ANSYS Workbench with the Named Selections and the Parameter  Finite Element Modeling using Hypermesh (70 Hrs.) Introduction to FEA, Introduction to Hypermesh, Geometry Clean-up, Shell Meshing, 3D Solid Meshing, 1D Meshing and Connectors, Analysis Setup and Loading, Exporting and Solving, Introduction to HyperView. Case Study & Tool Test: Student has to complete any one live project case study and submit report of the same followed by Tool Test. Expert Lectures / Seminars on use of Hypermesh in CAE Industry.  Finite Element Analysis using ANSYS Mechanical APDL & ANSYS Workbench ANSYS Mechanical APDL: Before you start using ANSYS, Selection Logic, Solid Modeling, Meshing, Material Properties, Boundary Conditions, Solvers, Post-processing, Introduction to Non-Linear Analysis, Static Structural Analysis, Modal Analysis, Thermal Analysis, Tips & Tricks. ANSYS Workbench: Introduction to ANSYS Workbench, Mechanical Basics, General Preprocessing, Meshing in Mechanical, Static Structural Analysis, Modal Analysis, Thermal Analysis, Results and Postprocessing. Types of Analysis:  Static Structural Analysis  Modal Analysis  Harmonic Analysis  Transient Dynamic Analysis  Random Vibration Analysis  Spectrum Analysis  Introduction to Fatigue Analysis  Non Linear and Contact Analysis ANSYS Mechanical APDL using TUI (TEXT USER INTERFACE)  Modeling using TUI  Geometry clean-up using TUI  Component Creation using TUI  Element type selection  Material property creation  Assigning material properties  Meshing control, sizing, map mesh, free mesh using TUI  Creating weld using TUI  Applying boundary condition using TUI  Solver setting using TUI  Post processing result using TUI  Macro Basics - Creating a Macro - Macro with Arguments - Branching - Looping - General guidelines - Workshop Case Study & Tool Test: Student has to complete any one live project case study and submit report of the same followed by Tool Test. Expert Lectures / Seminars on use of ANSYS in CAE Industry.  Soft Skills Training Résumé writing, Aptitude Test, Technical Test, Group Discussion Techniques, Interview techniques, Communication & Presentation Skills, Personality Development.

@@rajatgupta5984 They are covering most of basics but ask for placement too.

Welcome ! It is quite simple model, we do not have ANSYS model of it. We usually upload CAD Models at our blogpost: www.graspengineering.com/category/design/fea-cad-geometry/

@@graspengineering9249 Kindly upload the CAD geometry. It is not available either. Thankyou

You will get from manufacturing catalogue. Check bearing specifications you are using.

Can help me? How can I find the stiffness characteristics and damping characteristics of my bearing (K11, K22, K12, K21, C11, C22, C12, C21) from the manufacture catalog ?

We might refer impeller from Grabcad library and just model 1D shaft in Design modeler. Please check our blog post for CAD model. We will try to upload here... www.graspengineering.com/category/design/fea-cad-geometry/

Please kindly refer Part1, you will find detail introduction.

You are welcome!

You're most welcome