CREEP OF DISPERSION STRENGTHENED ALLOYS CONTROLLED BY JOG NUCLEATION

A. PICHLER; E. ARZT

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CREEP OF DISPERSION STRENGTHENED ALLOYS CONTROLLED BY JOG NUCLEATION

机译：缓动成核控制的弥散强化合金的蠕变

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The creep behavior of dispersion strengthened materials is generally characterized by unusually high activation energies and stress exponents. In this paper we propose a model in which jog nucleation in the particle-matrix interface is assumed to control dislocation climb and, thus, the creep rate. This approach results in a new creep equation without adjustable parameters which reproduces the high stress exponents and activation energies. Experimental creep data for Al alloys can be described just as well as by the earlier "detachment model". Because of the different physical basis, new implications for alloy design may be expected.

机译：分散增强材料的蠕变行为通常以异常高的活化能和应力指数为特征。在本文中，我们提出了一个模型，在该模型中，假定粒子-矩阵界面中的点动成核可控制位错爬升，从而控制蠕变速率。这种方法导致了一个新的无可调整参数的蠕变方程，该方程再现了高应力指数和活化能。铝合金的实验蠕变数据可以通过早期的“分离模型”进行描述。由于物理基础的不同，可能会对合金设计产生新的影响。

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《Acta Materialia》 |1996年第7期|p.2751-2758|共8页
作者
A. PICHLER; E. ARZT;
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正文语种 eng
中图分类一般性问题;冶炼原料及矿石预处理;金属材料;
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1. Modelling creep controlled by the glide of jogged screw dislocations in TiAl and Ti-based alloys [J] . Karthikeyan S, Moon JH, Viswanathan GB, Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum . 2004,第0期

机译：在TiAl和Ti基合金中建模由缓动螺钉位错的滑动控制的蠕变
2. High-temperature creep deformation in FeCrAl-oxide dispersion strengthened alloy cladding [J] . S. Ukai, S. Kato, T. Furukawa, Materials Science and Engineering . 2020,第Sepa9期

机译：Fecral氧化物分散中的高温蠕变变形强化合金包层
3. Compressive creep behavior of an oxide-dispersion-strengthened CoCrFeMnNi high-entropy alloy [J] . Ferdinand Dobeš, Hynek Hadraba, Zdeněk Chlup, Materials Science and Engineering . 2018,第AUGa8期

机译：氧化物弥散强化的CoCrFeMnNi高熵合金的压缩蠕变行为
4. IRRADIATION CREEP AND SWELLING FROM 400°C TO 600°C OF THE OXIDE DISPERSION STRENGTHENED FERRITIC ALLOY MA957 [C] . R.J. Kurtz, M.L. Hamilton, F.A. Garner, IEA workshop on reduced activation ferritic/martensitic steels . 2001

机译：从400℃至600℃的氧化物分散的照射蠕变和膨胀强化铁素体合金MA957
5. Processing of Oxide Dispersion Strengthened Alloys via Mechanical Alloying and Spark Plasma Sintering [D] . Pasebani, Somayeh 2014

机译：机械合金化和火花等离子烧结工艺处理氧化物弥散强化合金
6. Fundamental Improvement of Creep Resistance of New-Generation Nano-Oxide Strengthened Alloys via Hot Rotary Swaging Consolidation [O] . Jiří Svoboda, Lenka Kunčická, Natália Luptáková, 2020

机译：通过热旋转型型型型旋转固结的新一代纳米氧化物强化合金的抗蠕变性的基本改善
7. Creep fracture processes of oxide dispersion strengthened mechanically alloyed inconel alloy ma 754 [O] . C. Yen, T. E. Howson, F. Cosandey, 1983

机译：氧化物分散体的蠕变断裂过程强化机械合金化的Inconel合金MA 754
8. High temperature deformation of dispersion strengthened nickel alloys. 1 - The influence of initial structure on tensile and creep deformation of TD nickel. 2 - The effect of matrix stacking fault energy on creep of Ni-Cr-ThO2 alloys Final report, 9 Feb. 1967 - 9 Feb. 1968 [R] . Clauer, A. H., Wilcox, B. A. 1968

机译：分散强化镍合金的高温变形。 1 - 初始结构对TD镍拉伸和蠕变变形的影响。 2 - 基体堆垛层错能量对Ni-Cr-ThO2合金蠕变的影响最终报告，1967年2月9日 - 1968年2月9日

CREEP OF DISPERSION STRENGTHENED ALLOYS CONTROLLED BY JOG NUCLEATION

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