在由EU(EuropeanUnion)通过TMR(TrainingandMobilityofResearchers)进行“晶状固体中的相变”项目规划中,柏林工业大学热动力学专业开发了一种自适应机翼样品.它由一个可弯曲的基板和一个空气动力外壳组成.该自适应机翼的重要组成部分是集成到结构中的传感器和致动器.在这种情况下,电阻应变片用于测量机翼的形状,而由形状记忆线材制成的致动器组件则起调节结构的“金属肌肉”作用.利用相应的调整算法,可以获得大量不同要求的形状. At the European Union (EUUnion) “Phase Transformation in a Crystalline Solid by TMR (Training and Mobility ofResearchers)” project, Thermodynamics at the Technical University of Berlin developed an adaptive wing sample consisting of a flexible Base plate and an aerodynamic shell An important part of the adaptive wing is the sensor and actuator integrated into the structure In this case the strain gage is used to measure the shape of the wing while the shape memory Actuator components made of wire serve as the “metal muscle” of the adjustment structure, and a large number of differently shaped shapes can be obtained with corresponding adjustment algorithms.