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  2. ansys software

    hi, Have a e-learning which will be very useful and easy to learn on our own....i too learn creo in E-learning only now working as a R&D engineer in Engineering Design field at turbo energy pvt ltd, Chennai
  3. ansys software

    hey friends I know creo software very well , but now my interest is to learn ansys software . how it is possible , Please tell me.
  4. Two stroke &four stroke

    Hello engineer, good day to you. Please what causes 2 strokes petrol engine that has just been ringed to be offing even though every parts are brand new including the fuel carburetor? Hello engineer, good day to you. Please what causes 2 strokes petrol engine that has just been ringed to be offing even though every parts are brand new including the fuel carburetor?
  5. How do you differentiate between 'design' and 'drafting'?

    between desaign and drafting? Drafting is spesific for drawing cipil, elecrical and mecahinical engineering in the form 2D or 3D image. while desaign is a combination of mathematical analysis process, chemical physics, so that the results of the design can be in accordance with the expected performance, both strength, deflection and geometric, in order to facilitate the next process such as drafting and productions.
  6. want to learn cad cam

    https://youtu.be/VIxrlpjtHN4 for Catia learning
  7. Catia learning within a month

    Follow the link To reach
  8. Hi, Hello mam,

     I am Kabilan from india, I am a Mechanical engineer completed my degree in lst academic batch (may-2017), Now am working as a R&D engineer at Turbo Energy pvt ltd, i am in ENgineering Design field, we use Creo Parametric 3.0 software for design purpose, i need a link or a PDF format to learn about creo parametric 3.0

    Thank you,

     Best Regards.

    kabilan kamaraj.

     

  9. Telescopic High mast (Mechanical Issue)

    We are doing an Telescopic High mast which is movable mast in vertical directions . by hand winch, pulleys, & rope the mechanism works . and rectangle tubes will move along them . to carry some more weight on upper side . the problem is while its moving upwards its struck and comes downwards. and again goes upwards, this kind of problems occurred .. for some idea ill share some image links.. Any KNOWLEDGE OF IDEA to solve this issue are accepted PLEASE REPLY IF U READ THIS .. https://goo.gl/images/hkvfM2 https://goo.gl/images/px6WvA https://goo.gl/images/CAKV3n
  10. Hi Guys,

    I am conducting a manufacturing process knowledge survey 

    manufacturing process survey

    Would appreciate your participation

     

    Senthil J Prakash

  11. Hey what's up, I have an invention idea that I'd like to pitch to an engineer. Im looking for a local nyc engineer/student who would like to collaborate with me and help me design and produce my product. As of right now, I know that my idea has slim to no competitors and currently does not have anything like it out on the market now. The market for my product is wide open and will be produced fairly cheaply. I'm looking for someone who would be willing to work for a percentage in the company/idea. I'm asking everyone to be willing to sign a NDA prior. Not being a douchebag. Just a guy with an idea.
  12. Hi everyone, I am an electrical enginner with very little knowledge about the usage of gears and how to calculate the torque and gear ratio, so I am looking for help here. I have the following problem at work. A long circular tube (3 meters) is placed vertically and inside it about 30 cm from the top openning there is a half of a disc attached to a metal rode. I want to rotate the semicircle precisely with a stepper motor, the idea is to have a gear placed at the shaft of the motor, which rotates a bigger gear, which the semicircle is attached to by a rode. The picture I uploaded illustrates the setup of the motor and gears I want to use. Just try to imagine a rode being attached to the bigger gear and at the end of the rode there is a semicircle. Now the real question, the semicircle with the rode weigh about 500 grams, I have no idea how to choose the right torque for the motor and how to calculate the number of teeth and size of the gears I want to use to be able to rotate the object. Thanks in advance
  13. -YouTube; * Atypical New • GEARTURBINE / Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Thrust Way Type - Non Waste Looses Featured Project Development - State of the Art - Novel InFlow Tech: 1-Gearturbine, RotaryTurbo: |/ ·1; Rotary-Turbo-InFlow Tech / - GEARTURBINE PROJECT Have the similar basic system of the Aeolipilie Heron Steam Turbine device from Alexandria 10-70 AD * With Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Way Power Type - Non Waste Looses *8X/Y Thermodynamic CYCLE Way Steps. 4 Turbos, Higher efficient percent. No blade erosion by sand & very low heat target signature Pat:197187IMPI MX Dic1991 Atypical Motor Engine Type. *Wordpress Blog State of the Art Novel InFlow Gearturbine Imploturbocompressor
  14. Featured Project Development - State of the Art Novel InFlowTech; 1Gearturbine RotaryTurbo 2Imploturbocompressor One Compression Step: *Wordpress Blog State of the Art Novel InFlow Gearturbine Imploturbocompressor *1-GEARTURBINE PROJECT Rotary-Turbo-InFlow Tech Atypical InFlow Thermodynamic Technology Proposal Submission Novel Fueled Motor Engine Type *1-GEARTURBINE BEHANCE Images Gallery Portafolio State of the art Innovative concept Top system Higher efficient percent.*Power by bar, for Air-Planes, Sea-Boats, Land-Transport & Dynamic Power-Plant Generation. -Have similar system of the Aeolipile Heron Steam device from Alexandria 10-70 AD. -New Form-Function Motor-Engine Device. Next Step, Epic Design Change, Broken-Seal Revelation. -Desirable Power-Plant Innovation. -YouTube; * Atypical New • GEARTURBINE / Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Thrust Way Type - Non Waste Looses YouTube; * Atypical New • GEARTURBINE / Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Thrust Way Type - Non Waste Looses -This innovative concept consists of hull and core where are held all 8 Steps of the work-flow which make the concept functional. The core has several gears and turbines which are responsible for these 8 steps (5 of them are dedicated to the turbo stages). The first step is fuel compression, followed by 2 cold turbo levels. The fourth step is where the fuel starts burning – combustion stage, which creates thrust for the next, 5th step – thrust step, which provides power to the planetary gears and turbines and moves the system. This step is followed by two hot turbo steps and the circle is enclosed by the final 8th step – bigger turbine. All this motion in a retrodynamic circumstance effect, wich is plus higher RPM speed by self motion. The Reaction at front of the action. 8-X/Y Thermodynamic CYCLE - Way Steps: 1)1-Compression / bigger 2)2-Turbo 1 cold 3)2-Turbo 2 cold 4)2-Combustion - circular motion flames / opposites 5)2-Thrust - single turbo & planetary gears / ying yang 6)2-Turbo 2 hot 7)2-Turbo 1 hot 8)1-Turbine / bigger -With Retrodynamic Dextrogiro vs Levogiro Phenomenon Effect. / Rotor-RPM VS InFlow / front to front; "Collision-Interaction Type" - inflow vs blades-gear-move. Technical unique dynamic innovative motion mode. [Retrodynamic Reaction = When the inflow have more velocity the rotor have more RPM Acceleration, with high (XY Position) Momentum] Which the internal flow (and rotor) duplicate its speed, when activated being in a rotor (and inflow) with [inverse] opposite Turns. The Reaction at front of the action. A very strong Novel torque power concept. -Non waste parasitic looses for; friction, cooling, lubrication & combustion. -Shape-Mass + Rotary-Motion = Inertia-Dynamic / Form-Function Wide [Flat] Cylindrical shape + positive dynamic rotary mass = continue Inertia positive tendency motion. Kinetic Rotating Mass. Tendency of matter to continue to move. Like a Free-Wheel. -Combustion 2Two continue circular [Rockets] flames. [ying yang] opposite one to the other. – With 2TWO very long distance INFLOW [inside propulsion] CONDUITS. -4 TURBOS Rotary Total Thrust-Power Regeneration Power System. -Mechanical direct 2two [Small] Planetary Gears at polar position. -Like the Ying Yang Symbol/Concept. -The Mechanical Gear Power Thrust Point Wide out the Rotor circumference were have much more lever [HIGH Torque] POWER THRUST. -No blade erosion by sand & very low heat target signature profile. -3 points of power thrust; 1-flow way, 2-gear, 3-turbine. *Patent; Dic. 1991 IMPI Mexico #197187 All Rights Reserved. Carlos Barrera. *2-IMPLOTURBOCOMPRESSOR; One Moving Part System Excellence Design - The InFlow Interaction comes from Macro-Flow and goes to Micro-Flow by Implossion - Only One Compression Step; Inflow, Compression and outflow at one simple circular dynamic motion Concept. *2-IMPLOTURBOCOMPRESSOR BEHANCE Images Gallery Portafolio ·“Excellence in Design" because is only one moving part. Only one unique compression step. Inflow and out flow at the same one system, This invention by its nature a logic and simple conception in the dynamics flow mechanics area. The invention is a wing made of one piece in a rotating motion, contained in a pair cavity system connected by implocavity, and interacting dynamically with a flow, that passes internally "Imploded" through its simple mechanism. This flow can be gas (air) or liquid (water). And have two different applications, in two different form-function; this one can be received (using the dynamic flow passage, as a receiver). Or it can be generated (with a power plant, generating a propulsion). An example cut be, as a Bike needs a chain to work from motor to wheel. And for the Imploturbocompressor application, cut be as; in a circumstance at the engine, as an A-activate flow, and with a a tube flow conduit going to the wheel as a B-receiving-flow the work use. To see a Imploturbocompressor animation, is posible on a simple way, just to check the Hurricane Satellite view, and is the same implo inflow way nature. And when the flow that is received and that is intended to be used at best, must no necessarily by a exhausting or rejection gas, but must be a dynamic passing gas or liquid flow with the only intention to count it or to measure it. This could be possible at the passing and interacting period when it passes inside its simple mechanism. This can be in any point of the work flow trajectory. In case the flow that is received is a water falling by gravity, and a dynamo is placed on the rotary bar, the Imploturbocompressor can profit an be obtained by generating? electricity such as obtained by the pelton well, like I say before. The "Imploturbocompressor", is a good option to pump water, or a gas flow, and all kinds of pipes lines dynamic moves. Or only receive the air-liquid flow, in order to measure its passage with a counter placed on the bar, because when this flow passes through the simple mechanism of a rotating wing made of only one piece it interacts within the implocavities system. And this flow can be air wind, with the difference of can have an horizontal work position, and that particle technical circumstances make an easy way for urban building work new use application, and have wind flow from all the sides 180 grades view. The aforementioned information about this invention refers to technical applications, such as a dynamic flow receiver. (whether being gas or liquid). With the appropriate power plant and the appropriate dimensioning and number of RPM this invention is also feasible to generate an atmospheric air propulsion and the auto-propulsion of an aircraft. Being an effective and very simple system that implodes and compresses the atmospheric air permits the creation of a new concept of propulsion for aircrafts, due to its simple mechanism and innovative nature. At the place of the aircraft were the system appears and the manner how the propulsion direction can be oriented with a vectorial flow (no lobster tail) with I call "yo-yo system" (middle cut (at the shell) to move, one side loose), guided and balanced is feasible to create a new concept of TOVL-vertical take-off landing, Because the exhaust propulsion can going out radial in all the 360 vectorial positions, going out direct all the time in all the vectors direction. With his rotor cover for an better furtive fly, like going down of a bridge for example. Likewise, with the due form and dimensioning, and considering the liquid density and the due revolutions for this element there could be generated a propulsion (water) in order to move an aquatic ship, whether on surface or under water. Also can be a good option to pump liquid combustion for a rocket propulsion. Making a metaphoric comparison with the intention to expose it more clearly for a better comprehension of this innovative technical detail, it would be similar to the trajectory and motion of a dynamic flow compared with a rope (extended) that passes through the system would have now a knot (without obstructing the flow), so the complete way of the flow at the imploturbocompresor system have three direct ways and between make two different turns; direct way (entrance) - turn - direct way (implocavity) - turn - direct way (exit), all this in a 1 simple circular move system concept. Its prudent to mention that the curves and the inclinations of the blades of a rotating wing made of this invention, is conferred by its shape and function a structural rigidity allowing it to conduct and alter appropriately the dynamic flow passing through its system.
  15. Featured Project Development - State of the Art - Novel InFlow Tech: 1-Gearturbine, RotaryTurbo, 2Imploturbocompressor, One Compression Step: |/ ·1; Rotary-Turbo-InFlow Tech / - GEARTURBINE PROJECT Have the similar basic system of the Aeolipilie Heron Steam Turbine device from Alexandria 10-70 AD * With Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Way Power Type - Non Waste Looses *8X/Y Thermodynamic CYCLE Way Steps. 4 Turbos, Higher efficient percent. No blade erosion by sand & very low heat target signature Pat:197187IMPI MX Dic1991 Atypical Motor Engine Type. |/·2; Imploturbocompressor; Implo-Ducted, One Moving Part System Excellence Design - The InFlow Interaction comes from Macro-Flow and goes to Micro-Flow by Implossion - Only One Compression Step; Inflow, Compression and outflow at one simple circular dynamic motion / New Concept. To see a Imploturbocompressor animation, is possible on a simple way, just to check an Hurricane Satellite view, and is the same implo inflow way nature.

    *Wordpress Blog State of the Art Novel InFlow Gearturbine Imploturbocompressor

  16. Version 1.0.0

    0 downloads

    |/ ·1; Rotary-Turbo-InFlow Tech / - GEARTURBINE PROJECT Have the similar basic system of the Aeolipilie Heron Steam Turbine device from Alexandria 10-70 AD * With Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Way Power Type - Non Waste Looses *8X/Y Thermodynamic CYCLE Way Steps. 4 Turbos, Higher efficient percent. No blade erosion by sand & very low heat target signature Pat:197187IMPI MX Dic1991 Atypical Motor Engine Type. |/·2; Imploturbocompressor; Implo-Ducted, One Moving Part System Excellence Design - The InFlow Interaction comes from Macro-Flow and goes to Micro-Flow by Implossion - Only One Compression Step; Inflow, Compression and outflow at one simple circular dynamic motion / New Concept. To see a Imploturbocompressor animation, is possible on a simple way, just to check an Hurricane Satellite view, and is the same implo inflow way nature. *Wordpress Blog State of the Art Novel InFlow Gearturbine Imploturbocompressor
  17. Version 1.0.0

    0 downloads

    |/ ·1; Rotary-Turbo-InFlow Tech / - GEARTURBINE PROJECT Have the similar basic system of the Aeolipilie Heron Steam Turbine device from Alexandria 10-70 AD * With Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Way Power Type - Non Waste Looses *8X/Y Thermodynamic CYCLE Way Steps. 4 Turbos, Higher efficient percent. No blade erosion by sand & very low heat target signature Pat:197187IMPI MX Dic1991 Atypical Motor Engine Type. |/·2; Imploturbocompressor; Implo-Ducted, One Moving Part System Excellence Design - The InFlow Interaction comes from Macro-Flow and goes to Micro-Flow by Implossion - Only One Compression Step; Inflow, Compression and outflow at one simple circular dynamic motion / New Concept. To see a Imploturbocompressor animation, is possible on a simple way, just to check an Hurricane Satellite view, and is the same implo inflow way nature. *Wordpress Blog State of the Art Novel InFlow Gearturbine Imploturbocompressor. http://stateoftheartnovelinflowtech.blogspot.mx/
  18. How to know maximum torque?

    hello everyone, i'm new here . i want to ask about diesel engine. i have project about diesel engine dual fuel biogas-diesel, and i use braking to get the torque, and i have the result. and the question how to ensure that it is the maximum torque? what equations should i input? thank you master.
  19. Book Required

    https://drive.google.com/open?id=0B9bpsTYXP4ceaGttcWo1ek04d1
  20. Books required

    Hope it will help..... UPDATED mechanical all subjects ebooks-1.pdf
  21. Mass Inertia calculation of planetary gearbox

    Thanks for the reply Sir. This gearbox has motor input with speed 6000 RPM. Ring/internal gear tube of gearbox is stationery. What is CM, dot & term? Moreover, should I also calculate radius of gyration for each component. For example, planet gears rotating on their axis or should I consider them with arm rotating on arm axis? Plz help.
  22. As a starting point, you must know the MMOI for each individual component; without that, you cannot begin. Assuming that the individual component MMOI values are known, do a kinematic analysis of the planetary train to determine the velocity of the CM of each component. The use that information to formulate the kinetic energy of the entire system, all moving according to the kinematic relations. You will have to choose some rotation as a reference value, usually either the input or output rotation. The kinetic energy will have the form T = (1/2) theta-dot^2 (term1+term2+...+termlast) where theta is the reference rotation. The sum of terms indicated is the effective MMOI for the gear train. DrD
  23. Does anybody know the formula to calculate mass Inertia of planetary gearbox? It's 32mm size gearbox with 3 stage, 100 ratio, 175gm weight, 6000 input speed & can take a load of 4.5 Mm at output shaft.plz help.
  24. Does anybody know the formula to calculate mass Inertia of planetary gearbox? It's 32mm size gearbox with 3 stage, 100 ratio, 175gm weight, 6000 input speed & can take a load of 4.5 Mm at output shaft.plz help.
  25. I would like to learn from other engineers who had actual experience working inside a power plant. I specifically want to know what are the most common problems encountered during operation, problems like, leakage, machine failure, etc.
  26. Does anybody know the formula to calculate mass Inertia of planetary gearbox? It's 32mm size gearbox with 3 stage, 100 ratio, 175gm weight, 6000 input speed & can take a load of 4.5 Mm at output shaft.plz help.
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