T. Hennige scite author profile

The microstructure of three specimens of the martensitic steel X22CrMoV12-1 which had been subjected to long-term cyclic creep at 873 K with intermittent phases of unloading (stress ratio R = 0) and compression (R = -1) was quantified by electron microscopy with regard to carbides, dislocations and pores. The laws of time dependent coarsening of carbides and strain controlled growth of subgrains found for monotonic creep hold also for cyclic creep. The longer time it takes cyclic creep to reach a given strain leads to a growth advantage of carbides compared to monotonic creep. The microstructural model of plastic deformation previously developed for monotonic creep on X20 (22)CrMoV12-1 allows to calculate the cyclic creep acceleration due to this advantage in carbide growth. Mikrostruktur und Verformungsgeschwindigkeit wah rend langzeitigem zyklischen Kriechen des martensitischen Stahles X22CrMoV12-1. Die Mikrostruktur dreier Proben des martensitischen Stahles X22CrMoV12-1, die langzeitigem zyklischen Kriechen bei 873 K mit Entlastungs-(Sparmunqsverhaltnrs R = 0) und Druckphasen (R = -1) unterworfen worden waren, wurde elektronenmikroskopisch auf Carbide, Versetzungen und Poren untersucht. Die fOr monotones Kriechen gefundenen Gesetze der zeitabhanqlqen Carbidverqroberunq und des dehnungskontrollierten Subkornwachstums bleiben auch fOr zyklisches Kriechen gOltig. Der srhohte Zeitbedarf, der bei zyklischem Kriechen bis zu gegebener Dehnung erforderlich ist, fOhrt zu einem Wachstumsvorsprung der Carbide im Vergleich zu monotonem Kriechen. Das fOr monotones Kriechen von X20(22)CrMoV12-1 entwickelte mikrostrukturelle Modell der plastischen Verformung erlaubt, die aus dem Wachstumsvorsprung der Carbide folgende zyklische Kriechbeschleunigung zu berechnen.

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Symmetrical laser forming

Magee¹,

Watkins²,

Hennige³

1999

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T. Hennige

Development of irradiation strategies for 3D-laser forming

Laser forming of aluminium and aluminium alloys — microstructural investigation

On the working accuracy of laser bending

Microstructure and deformation rate during long‐term cyclic creep of the martensitic steel X22CrMoV12‐1

Symmetrical laser forming

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