论文信息 - Experimental deformation of a synthetic dunite at high temperature and pressure. I. Mechanical behavior, optical microstructure and deformation mechanism - 字舞流文

Experimental deformation of a synthetic dunite at high temperature and pressure. I. Mechanical behavior, optical microstructure and deformation mechanism

D. Zeuch | H. Green

[1] D. Zeuch,et al. Experimental deformation of a synthetic dunite at high temperature and pressure. II. Transmission electron microscopy , 1984 .

[2] S. Kirby. Rheology of the lithosphere , 1983 .

[3] D. Zeuch. On the inter-relationship between grain size sensitive creep and dynamic recrystallization of olivine , 1983 .

[4] J. Blacic,et al. Deformation of single‐crystal clinopyroxenes: 2. Dislocation‐controlled flow processes in Hedenbergite , 1983 .

[5] B. Hobbs. Constraints on the mechanism of deformation of olivine imposed by defect chemistry , 1983 .

[6] J. Blacic,et al. Deformation of single‐crystal clinopyroxenes: 1. Mechanical twinning in diopside and hedenbergite , 1982 .

[7] D. Zeuch. Ductile faulting, dynamic recrystallization and grain-size-sensitive flow of olivine , 1982 .

[8] Prame Chopra,et al. The experimental deformation of dunite , 1981 .

[9] M. Darot,et al. High‐temperature creep of forsterite single crystals , 1981 .

[10] P. Vaughan. A reevaluation of the flow data for olivine , 1981 .

[11] P. Vaughan,et al. Creep mechanism in Mg2GeO4: Effects of a phase transition , 1981 .

[12] N. Carter,et al. Stress dependence of recrystallized-grain and subgrain size in olivine , 1980 .

[13] N. Carter,et al. Rheology of the upper mantle: Inferences from peridotite xenoliths , 1980 .

[14] J. Poirier,et al. Dynamic recrystallization during creep of single‐crystalline halite: An experimental study , 1979 .

[15] C. Froidevaux,et al. Transient and steady-state creep of pure forsterite at low stress , 1979 .

[16] Y. Guéguen. High temperature olivine creep: Evidence for control by edge dislocations , 1979 .

[17] C. Goetze,et al. Creep of olivine during hot-pressing , 1978 .

[18] C. Sellars,et al. Limits of applicability of the recrystallized grain size geopiezometer , 1978 .

[19] J. Poirier,et al. Splitting of dislocations in olivine, cross-slip-controlled creep and mantle rheology , 1978 .

[20] C. M. Sellars. Recrystallization of metals during hot deformation , 1978, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[21] C. Goetze. The mechanisms of creep in olivine , 1978, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[22] W. Durham,et al. Plastic flow of oriented single crystals of olivine: 1. Mechanical data , 1977 .

[23] W. Durham,et al. Plastic flow of oriented single crystals of olivine: 2. Observations and interpretations of the dislocation structures , 1977 .

[24] R. L. Post. High-temperature creep of Mt. Burnet Dunite , 1977 .

[25] J. Boland. Deformation mechanisms in alpine-type ultramafic rocks from new zealand , 1977 .

[26] A. Nicolas,et al. Deformation-Induced Recrystallization Due to Progressive Misorientation of Subgrains, with Special Reference to Mantle Peridotites , 1975, The Journal of Geology.

[27] D. Kohlstedt,et al. Low-stress high-temperature creep in olivine single crystals , 1974 .

[28] D. Kohlstedt,et al. Laboratory study of dislocation climb and diffusion in olivine , 1973 .

[29] C. Raleigh,et al. Mechanisms of high-temperature, solid-state flow in minerals and ceramics and their bearing on the creep behavior of the mantle , 1973 .

[30] G. Glover,et al. Recovery and recrystallization during high temperature deformation of α-iron , 1973 .

[31] B. Hobbs,et al. Dislocations associated with optical features in naturally-deformed olivine , 1971 .

[32] N. Carter,et al. Syntectonic Recrystallization of Olivine and Modes of Flow in the Upper Mantle , 1970 .

[33] N. Carter,et al. High Temperature Flow of Dunite and Peridotite , 1970 .

[34] C. Raleigh. Mechanisms of plastic deformation of olivine , 1968 .

[35] C. Sellars,et al. On the mechanism of hot deformation , 1966 .

[36] E. Roedder. Liquid CO2 inclusions in olivine-bearing nodules and phenocrysts from Basalts , 1965 .

[37] S. Karato,et al. Dynamic Recrystallization and High-Temperature Rheology of Olivine , 1982 .

[38] 日本学術振興会,et al. High-Pressure Research in Geophysics , 1982 .

[39] D. Zeuch,et al. Experimental deformation of an «anhydrous » synthetic dunite , 1979 .

[40] J. Poirier,et al. Deformation induced recrystallization of minerals , 1979 .

[41] R. Twiss. Theory and applicability of a recrystallized grain size paleopiezometer , 1977 .

[42] Douglas A. Anderson,et al. Stress in the lithosphere: Inferences from steady state flow of rocks , 1977 .

[43] J. Jonas,et al. Recovery and Recrystallization during High Temperature Deformation , 1975 .

[44] Amiya K. Mukherjee,et al. High-Temperature Creep , 1975 .

[45] A. Nicolas,et al. CLASSIFICATION OF TEXTURES AND FABRICS OF PERIDOTITE XENOLITHS FROM SOUTH AFRICAN KIMBERLITES , 1975 .

[46] A. Nicolas,et al. Textures and Fabrics of Upper-Mantle Peridotites as Illustrated by Xenoliths from Basalts , 1975 .

[47] R. Lagneborg. Dislocation Mechanisms in Creep , 1972 .

[48] John J. Jonas,et al. Strength and structure under hot-working conditions , 1969 .

[49] J. E. Dorn,et al. CORRELATIONS BETWEEN HIGH-TEMPERATURE CREEP BEHAVIOR AND STRUCTURE. , 1969 .

[50] J. E. Dorn,et al. EXPERIMENTAL CORRELATIONS FOR HIGH-TEMPERATURE CREEP. , 1968 .

[51] Frank Garofalo,et al. Fundamentals of creep and creep-rupture in metals , 1965 .