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    • Thermomechanics
      • Introduction
      • Chapter 1: Basics
        • 1.1 Temperature, heat and heat capacity
        • 1.2 Heat transfer
          • Conduction
          • Convection
          • Radiation
          • Thermal contact conduction
          • Overview of thermal couplings
        • 1.3 Principles of thermal deformation
        • 1.4 Thermo-mechanical beam equations
          • Problem 1: Fixed-free beam
          • Problem 2: Fixed-guided-in-Y beam
          • Problem 3: Fixed-fixed beam
          • Problem 4: Fixed-guided-in-X beam
          • Problem 5: Fixed-simple supported beam
          • Problem 6: Simple supported-guided-in-X beam
          • Problem 7: Simple supported beam
      • Chapter 2: In depth
        • 2.2 Conduction in Gasses
        • 2.4 Thermal radiation
          • 2.4.1 Basics
          • 2.4.2 Radiative exchange
          • 2.4.3 Gebhart method
            • 2.4.3.1 Near black surfaces
            • 2.4.3.2 Two surfaces facing each other
            • 2.4.3.3 Numerical example
          • 2.4.4 Net-radiation method
            • 2.4.4.1 Numerical example
          • 2.4.5 References
      • Chapter 3: Thermomechanical design
        • 3.1 Material selection
        • 3.2 Geometry
        • 3.3 Design principles
        • 3.4 Passive thermal conditioning
        • 3.5 Active thermal conditioning
        • 3.6 Compensation
        • 3.7 Summary
        • 3.8 References
      • Chapter 4: Thermo-mechanical modeling
        • 4.1 Important variables
        • 4.2 Lumped capacitance modeling
        • 4.3 Advanced hand calculations
      • Chapter 5: Measurement
        • 5.1 Contactless temperature sensors
        • 5.2 Contact sensors
          • 5.2.1 Thermocouples
          • 5.2.2 Resistance thermometers PTC
          • 5.2.3 Resistance thermometers PRT
          • 5.2.4 PTC thermistor (alias posistor)
          • 5.2.5 Resistance thermometers NTC
          • 5.2.6 Semiconductor temperature sensors
          • 5.2.7 Other types of contact sensors
      • Chapter 6: Calculators
        • Lump Mass model – steady state
        • Lump Mass model – transient
        • Radiation
        • Gas conduction
        • Thermal deformation
      • About
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Home Course Opto-mechanical System Design 2026- Form

Course Optomechanical System Design 2026

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3 Days Course Opto-Mechanical System Design
Date: 16, 17 and 18 March 2026
Location: Eindhoven
Max. participants: 25
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Where the registrant is unable to attend, and is not in a position to transfer his/her place to another person, then the following refund arrangements apply: A) Registrations cancelled more than 60 days before the event will be refunded 80% of the registration fees. B) Registrations cancelled less than 60 but more than 30 days before the event will be refunded 50% of the registration fees. C) Registrations cancelled less than 30 days before the event will not be eligible for a refund.
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