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Lecture number 2 Thermal & Mechanical Models. Automated Analysis for Non-Failure Operation

www.asonika.com. Lecture number 2 Thermal & Mechanical Models. Automated Analysis for Non-Failure Operation. www.asonika.com. MODELS of THERMAL PROCESSES (ASONIKA- T and ASONIKA-TM). λ - f actor of heat conductivity of a material; - s pecific capacity; Т – t emperature;

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Lecture number 2 Thermal & Mechanical Models. Automated Analysis for Non-Failure Operation

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  1. www.asonika.com Lecture number 2 Thermal & Mechanical Models. Automated Analysis for Non-Failure Operation

  2. www.asonika.com MODELS of THERMAL PROCESSES (ASONIKA-T and ASONIKA-TM) λ - factor of heat conductivity of a material; - specific capacity; Т – temperature; – specific thermal capacity of a material; - material density; - time

  3. www.asonika.com The firm body conditionally broken into elementary volumes by orthogonal planes (a) and the allocated set of elementary volumes along an axis X (b)

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  5. www.asonika.com Fragment of the electric scheme, modelling the non-stationary heat transfer processes through elementary volume

  6. www.asonika.com Theme 1: Main principles of construction of thermal models Roller1_ASONIKA-T.avi

  7. www.asonika.com Theme 2: Construction of model of thermal processes of a payment with a heater capacity P on one of the parties for a stationary thermal mode Roller2_ASONIKA-T.avi

  8. www.asonika.com Theme 3: Construction of model of thermal processes of a payment with a heater capacity P on one of the parties for a non-stationary thermal mode Roller3_ASONIKA-T.avi

  9. www.asonika.com Theme 4: Construction of model of thermal processes of the transistor Roller4_ASONIKA-T.avi

  10. www.asonika.com Theme 5: Construction of model of thermal processes of the transistor established on a radiator Roller5_ASONIKA-T.avi

  11. www.asonika.com Theme 6: Construction of model of thermal processes of the tight block Roller6_ASONIKA-T.avi

  12. www.asonika.com Theme 7: Automatic construction of thermal models in a subsystem ASONIKA-T on an example of the block of cassette type Roller7_ASONIKA-T.avi

  13. - vector of central movings; - Matrixes of weights, viscous dispersion of energy and rigidity accordingly; - vector of external influences. www.asonika.com MODELS of MECHANICAL PROCESSES (ASONIKA-M) For the decision of the given problem the method of final elements is used.

  14. www.asonika.com ASONIKA-M Subsystem of the analysis of volumetric constructions of electronic equipment on mechanical influences

  15. www.asonika.com Theme 1: The basic possibilities of subsystem ASONIKA-M Roller1_ASONIKA-M.avi

  16. www.asonika.com Theme 2: Input of the initial data Roller2_ASONIKA-M.avi

  17. www.asonika.com Theme 3: Calculation and the analysis of results Roller3_ASONIKA-M.avi

  18. www.asonika.com MODELS for analysis and firmness maintenance to mechanical influences of electronic designs, established on vibration isolators(ASONIKA-V- Subsystem of the analysis and maintenance of stability to mechanical influences of electronic equipment, established on vibration isolators)

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  28. www.asonika.com MODELS of MECHANICAL PROCESSES (ASONIKA-TM – Subsystem of the analysis of volumetric constructions of electronic equipment on mechanical influences )

  29. www.asonika.com - complex deflection of the printed-circuit board in a point with coordinatesx, yat the moment of timet - complex deflection printing the weight of printed-circuit board having on unit of the area in a point with coordinates - complex cylindrical rigidity of printed-circuit boardon axes x and y

  30. www.asonika.com , h - thickness of the printed-circuit board -complex modules of elasticity of a material of the printing payments on axes of coordinates x, y and at an angle 45 degrees to axes ,

  31. www.asonika.com - Factors of Puassona of a material of the printed-circuit board on axes and at an angle 45 degrees to axes accordingly (the direction of axes also is combined with a direction of parties printed-circuit board); - the complex external force raising fluctuations, having on unit of area printed-circuit board in a point with coordinates at the moment of time t. , ,

  32. www.asonika.com The sketch of printed-circuit board with the put grid ,

  33. www.asonika.com Mechanical model of printed-circuit board ,

  34. www.asonika.com ASONIKA-ТM Subsystem of the analysis of constructions of printed board assemblies on thermal and mechanical influences

  35. www.asonika.com MENTOR GRAPHICS - ASONIKA-ТM

  36. www.asonika.com Theme 1: The basic possibilities of subsystem ASONIKA-TM Roller1_ASONIKA-TM.avi

  37. www.asonika.com Theme 2: Input of the initial data Roller2_ASONIKA-TM.avi

  38. www.asonika.com Theme 3: Calculation and the analysis of results Roller3_ASONIKA-TM.avi

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