E. D. Grosser scite author profile

E. D. Grosser

5Publications

11Citation Statements Received

8Citation Statements Given

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INTRASOFT International (Luxembourg), Friedrich-Ebert-Stiftung e.V.

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Determination of J‐integral R‐curves for Hastelloy X and inconel 617 up to 1223 K using the potential drop technique

Krompholz

Grosser²,

Ewert³

1982

Materialwissenschaft Werkst

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For Hastelloy X (T = 308 K and T = 1223 K) and for Inconel 617 (T = 308 K, and 1223 K) the J-integral R-curves have been determined. For Hastelloy X at 308 K the multispecimen technique has been compared with the single specimen method using the potential drop technique. At 1223 K Hastelloy X delivered a low J,-integral value. Inconel 617 showed a smooth increase in Jo with increasing temperature, up to 998 K; above this temperature even for large loadline displacements only blunting behaviour has been observed. The same tendency has been found for the evaluation of the tearing modulus. With increasing temperature the tearing modulus increases. In the temperature range from 998 K to 1223 K the tearing modulus increases by about one order of magnitude. For both alloys the onset of stable crack growth in most cases is earlier than the load maximum is reached in the load versus load-line displacement curves. Bestimmung von J-Integral R-Kurven fur Hastelloy X und inconel617 bis zu 1223 K unter Anwendung des PotentialsondenverfahrensFur Hastelloy X (T = 308 K und T = 1223 K) und fur Inconel 617 (T = 308 K, 473 K, 673 K, 873 K, 973 K , 998 K, 1023 K , 1048 K, 1073 K, 1173 K und 1223 K) wurden die J-Integral R-Kurven bestimmt. Zusatzlich wurde fur Hastelloy X bei 308 K die Mehrprobenmethode mit der Einprobenmethode unter Verwendung des Potentialsondenverfahrens verglichen. Bei 1223 K lieferte Hastelloy X einen niedrigen J,-Wert. Inconel 617 zeigte bis 998 K keine ausgepragte Temperalurabhangigkeit des Jo-Wertes; oberhalb dieser Temperatur wurde selbst bei groRen Lastpunktverschiebungen nur noch eine Rifispitzenabstumpfung gefunden. Dieselbe Tcndenz wurde bei der Auswertung des "Tearing Modulus" beohachtet; mit Zunahme der Temperatur steigt der ,,Tearing Modulus". Im Temperaturbereich zwischen 998 K und 1223 K erhoht sich der Tearing-Modulus um nahezu eine GroBenordnung. Bei beiden Legierungen liegt der Einsatz des stabilen RiRwachstums haufig vor dem Punkt, in dem die Last ihr Maximum in den Kurven der Last als Funktion der Lastpunktverschiebung erreicht.

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Creep crack growth behaviour in air and sodium for an unstabilized austenitic stainless steel and assessment of evaluation concepts

Krompholz¹,

Huthmann²,

Grosser³

et al. 1982

Engineering Fracture Mechanics

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PAPER 41 CORROSION AND CREEP BEHAVIOUR OF FERRITIC Cr-ALLOYED STEELS IN SODIUM

Menken¹,

Grosser²,

Hessen³

1978

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Rißwachstum bei metallischen Legierungen. Anwendung und Grenzen des Potentialsondenverfahrens

Krompholz

Grosser

Ewert

1980

Materialwissenschaft Werkst

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Werkstoffmechanische Beziehungen für die inelastische Festigkeitsanalyse am Beispiel des austenitischen Werkstoffs X 6 CrNi 18 11 (DIN 1.4948)

Stark

Gomm

Grosser

et al. 1983

Materialwissenschaft Werkst

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The design analysis of high temperature components requires stressstrain relations for structural materials under consideration. These are to be based on quantitative descriptions of the mechanical behaviour under the conditions of operation. Average stress-strain relations for the time-independent and timedependent material behavior are derived for a representative product form of the stainless steel X 6 CrNi 18 11 by means of the actual data from a set of tensile and creep experiments. The actual data at temperatures of 20 "C and 550 "C are compared with the derived average constitutive relations. The results are discussed and compared with literature data for the corresponding American steel AISI 304 ss and the Japanese steel SUS 304, resp.

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E. D. Grosser

Determination of J‐integral R‐curves for Hastelloy X and inconel 617 up to 1223 K using the potential drop technique

Creep crack growth behaviour in air and sodium for an unstabilized austenitic stainless steel and assessment of evaluation concepts

PAPER 41 CORROSION AND CREEP BEHAVIOUR OF FERRITIC Cr-ALLOYED STEELS IN SODIUM

Rißwachstum bei metallischen Legierungen. Anwendung und Grenzen des Potentialsondenverfahrens

Werkstoffmechanische Beziehungen für die inelastische Festigkeitsanalyse am Beispiel des austenitischen Werkstoffs X 6 CrNi 18 11 (DIN 1.4948)

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