Microstructure Properties and Fracture Behaviors of Tungsten Alloys

Wei Dong Song; Hai Yan Liu; Jian Guo Ning

doi:10.4028/www.scientific.net/MSF.567-568.417

Paper Titles

Fatigue Striations and Fissures in 2024-T3 Aluminum Alloy
p.397

Cyclic Stress in 316L Austenitic Stainless Steel at Low Temperatures
p.401

Estimate of Stress in the Channel of Persistent Slip Bands Based on Dislocation Dynamics
p.405

Effect of Absorbed Hydrogen on the Near Threshold Fatigue Crack Growth Behavior of Short Crack
p.409

The Effect of Lüders' Flow on Brittle Fracture Initiation in Pearlitic Steel
p.413

Microstructure Properties and Fracture Behaviors of Tungsten Alloys
p.417

Multiscale 2D Rectangular and 3D Rhombic Gratings Created by Self-Organization of Crystal Structure Defects under Constrained Cyclic Deformation and Fracture
p.421

Propagation Behaviour of Microstructurally Short Fatigue Cracks in the High-Cycle- and Very-High-Cycle Fatigue Regimes
p.425

Dislocation Structures in Nickel Based Superalloy Inconel 792-5A Fatigued at Room Temperature and 700°C
p.429

HomeMaterials Science ForumMaterials Science Forum Vols. 567-568Microstructure Properties and Fracture Behaviors...

Microstructure Properties and Fracture Behaviors of Tungsten Alloys

Abstract:

The plate impact experiments have been conducted to investigate the dynamic behavior of 91W-6.3Ni-2.7Fe with three kinds grain sizes of 1− 3μm, 10 −15μmand 30 − 40μm . The stress-time history curves at different Lagrangian positions were obtained for tungsten alloys at different impact velocities. Lagrangian analysis technique was adopted to discuss the mechanical properties of the tungsten alloys under high strain rate. SEM was introduced to analyze the microstructure properties of tungsten alloys. The influence of grain size on the dynamic behavior of tungsten alloys under high strain rate was obtained and the stress-strain curves ( 4 5 1 10 ~ 10 s− ) of the tungsten alloys were given.