Some selected topics in creep cavitationDELPH, T. J.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2002, Vol 33, Num 2, pp 383-390, issn 1073-5623Article

A new experimental approach to multiaxial creep and creep fatigueMAILE, K; THELEN, D; SHENG, S et al.Journal of nuclear materials. 1990, Vol 171, Num 1, pp 108-112, issn 0022-3115Article

Creep theories compared by means of high sensitivity tensile creep data = Vergleich von Kriechtheorien durch hochempfindliche Kriechdaten von ZugversuchenSALIM, A.Res mechanica. 1987, Vol 20, Num 4, pp 343-359, issn 0143-0084Article

Influence of boundary conditions on the finite element creep stress and strain analysis of a double shear specimen for isotropic creep conditionsYUE, Z. F; PROBST-HEIN, M; EGGELER, G et al.Materialwissenschaft und Werkstofftechnik. 2002, Vol 33, Num 7, pp 404-409, issn 0933-5137Article

Ueber die Mechanismen des Porenwachstums in kriechbeanspruchten Werkstoffen = On the mechanisms of cavity growth in creeping materialsARZT, E.Zeitschrift für Metallkunde. 1984, Vol 75, Num 3, pp 206-212, issn 0044-3093Article

A dynamic percolation approach to the Andrade creep = Une méthode d'infiltration dynamique relative au fluage d'Andrade = Eine dynamische Perkolationsmethode fuer das Andrade-KriechenSCHOENHALS, A; DONTH, E.Physica status solidi. B. Basic research. 1984, Vol 124, Num 2, pp 515-524, issn 0370-1972Article

Transient creep in iron at low stresses and homologous temperatures 0.40-0.54 = Uebergangskriechen in Eisen bei niedrigen Spannungen und homologen Temperaturen zwischen 0,40 und 0,54NOVOTNY, J; FIALA, J; CADEK, J et al.Acta metallurgica. 1983, Vol 31, Num 10, pp 1697-1703, issn 0001-6160Article

Dynamic internal friction during high-temperature deformation in aluminum single crystals with different orientationsCAI, B; ZHOU, H; ZHANG, P et al.Physica status solidi. A. Applied research. 1999, Vol 172, Num 1, pp 63-70, issn 0031-8965Article

Estimation of elastic follow-up behavior on 18Cr-8Ni steel using simplified inelastic analysisKOBAYASHI, K. I; SAITOH, Y; UDOGUCHI, T et al.Journal of pressure vessel technology. 1994, Vol 116, Num 2, pp 136-140, issn 0094-9930Conference Paper

Analysis of bulging in continuous cast slabs by bending theory of continuous beamYOSHII, A; KIHARA, S.Transactions of the Iron and Steel institute of Japan. 1986, Vol 26, Num 10, pp 891-894, issn 0021-1583Conference Paper

The influence of creep strain during ageing upon the magnitude of the strain ageing response = Influence de la déformation de fluage pendant le vieillissement sur l'amplitude de la réponse au vieillissement par déformationHARISHKUMAR VISHRAM; SMITH, I. O.Scripta metallurgica. 1984, Vol 18, Num 10, pp 1111-1115, issn 0036-9748Article

Evaluation of component creep behaviour by means of a threshold approachXU, H; MAILE, K; ROOS, E et al.Steel research. 1999, Vol 70, Num 2, pp 67-70, issn 0177-4832Article

Einfluss des Kriechens auf das Ausscheidungsgefuege bei Langzeitbeanspruchung - Untersuchungen an einer Fe-Cu-Modellegierung = Influence of creep on the precipitate structure under conditions of long-term creep - investigation of a Fe-Cu model alloySCHULZE, O; SAUTHOFF, G.Zeitschrift für Metallkunde. 1983, Vol 74, Num 8, pp 504-512, issn 0044-3093Article

Characterization of creep deformation mechanism and evaluation of dislocation mobility of Modified 9Cr-1Mo steel by stress change testHAYAKAWA, Hiroyuki; TERADA, Daisuke; YOSHIDA, Fuyuki et al.Nippon Kinzoku Gakkaishi (1952). 2003, Vol 67, Num 1, pp 22-26, issn 0021-4876, 5 p.Article

Observation and interpretation of some microstructural features of low stress creepMCNEE, K. R; GREENWOOD, G. W; JONES, H et al.Scripta materialia. 2002, Vol 47, Num 9, pp 619-623, issn 1359-6462Article

Harper-Dorn creep and specimen sizeNES, E; BLUM, W; EISENLOHR, P et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2002, Vol 33, Num 2, pp 305-310, issn 1073-5623Article

An overview of power-law creep in polycrystalline β-titaniumSCHUH, C; DUNAND, D. C.Scripta materialia. 2001, Vol 45, Num 12, pp 1415-1421, issn 1359-6462Article

A viscoplastic constitutive model to represent the material behaviour during hot rolling of steelFARRUGIA, D. C. J; ZHOU, M; INGHAM, P. M et al.Journal de physique. IV. 1999, Vol 9, Num 9, pp 73-81, issn 1155-4339Conference Paper

Role of interfacial sliding on the longitudinal creep response of continuous fiber reinforced metal-matrix compositesNAGARAJAN, R; DUTTA, I; FUNN, J. V et al.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 1999, Vol 259, Num 2, pp 237-252, issn 0921-5093Conference Paper

Creep deformation of induction pressure welded 2.25Cr-Mo steelAHILA, S; RAMAKRISHNA IYER, S; RADHAKRISHNAN, V. M et al.International journal of pressure vessels and piping. 1994, Vol 57, Num 3, pp 327-330, issn 0308-0161Article

Local strain hardening and nonuniformity of plastic deformation = Durcissement local et irrégularité de la déformation plastique = Lokale Verfestigung und Ungleichmaessigkeit der plastischen VerformungESTRIN, Y; KUBIN, L.P.Acta metallurgica. 1986, Vol 34, Num 12, pp 2455-2464, issn 0001-6160Article

Solid solution hardening of Ce-Zn single crystals at 1.5, 2.8 and 4.2 K = Mischkristallhaertung von Ce-Zn-Einkristallen bei 1,5, 2,8 und 4,2 KNAVRATIL, V; HAMERSKY, M; LUKAC, P et al.Physica status solidi. A. Applied research. 1983, Vol 78, Num 2, pp 633-638, issn 0031-8965Article

A Method to Identify Steady Creep Strain from Indentation Creep Using a New Reference Area of IndentationTAKITA, Atsuko; SASAKI, Katsuhiko; OHGUCHI, Ken-Ichi et al.Journal of electronic materials. 2014, Vol 43, Num 7, pp 2530-2539, issn 0361-5235, 10 p.Article

Role of applied uniaxial stress during creep testing on precipitation in Mg-Nd alloysCHOUDHURI, Deep; DENDGE, Nilesh; NAG, Soumya et al.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 2014, Vol 612, pp 140-152, issn 0921-5093, 13 p.Article

Evaluation of creep-fatigue life based on fracture energy for modified 9Cr―1Mo steelNAGAE, Yuji.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 2013, Vol 560, pp 752-758, issn 0921-5093, 7 p.Article