Based on Immune Genetic Algorithm of Alloy Heat Research

Shu Zhang; Lei Meng

doi:10.4028/www.scientific.net/AMR.503-504.301

Paper Titles

Aloe Fiber and Pure Yarn Research on Performance
p.284

Analysis of Cyanazine and Atrazine in Cucumber by Pseudo Imprinted Solid-Phase Extraction Coupled with Liquid Chromatography
p.289

Analysis of Heat Dissipation and the Energy Conservation in Cast Iron Dryer Head of Paper Machine
p.293

Application of Orthogonal Test in Numerical Simulation of Aluminum Sheet Forming
p.297

Based on Immune Genetic Algorithm of Alloy Heat Research
p.301

Bending of Thermoviscoelastic Functionally Graded Materials Beams
p.305

The Wearability Test and Comprehensive Evaluation of Knitted Fabric Made of Luminous Fiber
p.309

Case Study for Test Tool of Chloride in Swimming Pool with Method of Effective Evaluation of Multiprocess Performance Analysis
p.314

CO₂ Capture by Polyethylenimine-Silica Mesoporous Hybrid
p.318

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 503-504Based on Immune Genetic Algorithm of Alloy Heat...

Based on Immune Genetic Algorithm of Alloy Heat Research

Abstract:

In this paper single crystal alloys [111] orientation on tensile stress creep performance testing and organization was observed, on the high temperature and low stress conditions, combining with the creep characteristics of SEM observation, organizational morphology constructed raft shape g in 3d space ordered phase mode of existence of; Study the single crystal alloys [111] orientation in high-temperature creep of tensile stress during directional coarsening regularity, and using the finite element method, this paper analyzes the monocrystal [111] orientation in ni-based alloy cubic / two-phase interface von Mises stress distribution and the lattice strain energy change rule, through the immune genetic algorithm analysis [111] orientation of single crystal alloy phase of evolution rule ordered .