Atomic Force Microscopy and X-Ray Photoelectron Spectroscopy Study on the Surface and Interface States of Liq and ITO Films
p.566
p.566
Preparation on Low-Temperature Resistance Nitrile-Butadiene Rubber Coat-Metal Sealing Gasket
p.572
p.572
Tribological Properties of Pb-Sn-CNTs Composite Coatings
p.580
p.580
Magnetic Induction Effect of Amorphous Ribbon Modified by Rare-Earth
p.587
p.587
A Meso-Scale Simulation on the Effects of Temperature and Strain Rate on the Tensile Mechanical Behavior of Pure Titanium
p.592
p.592
Fabrication and Growth Mechanism of Star-Shaped Gold Nanoparticles via Seed-Mediated Growth Method
p.600
p.600
Improved Computation Formula of Thermal Conductivity of Fibrous Porous Materials
p.605
p.605
The Operation Characteristics of Biohydrogen Production in Continuous Stirred Tank Reactor with Molasses
p.613
p.613
Thickening Mechanism of Crystalline Polyester Involved in Low Pressure Sheet Molding Compounds
p.619
p.619
A Meso-Scale Simulation on the Effects of Temperature and Strain Rate on the Tensile Mechanical Behavior of Pure Titanium
Abstract:
A FEA model, based on the crystal plasticity theory, was established to study the mechanical behavior of titanium, and the microstructure evolution during deformation. Simulation on the dynamic tension of a commercially pure polycrystalline titanium at different strain rates and temperatures showed that the model can well describe the stress-strain behavior of titanium, the simulated results also revealed the contribution of different slip systems to the deformation of titanium, and the grain reorientation evolution caused by the crystallographic slipping.
You might also be interested in these eBooks
Info:
Periodical:
Advanced Materials Research (Volumes 152-153)
Pages:
592-599
Citation:
Online since:
October 2010
Authors:
Keywords:
Price:
Permissions: