Conference Tools for MS&T22: Materials Science & Technology

Help

About this Abstract
Meeting	MS&T22: Materials Science & Technology
Symposium	Innovative Process Design and Processing for Advanced Structural Materials
Presentation Title	K--8: Effect of Heat Treatment in 9% Ni Steels on Cryogenic Impact Toughness
Author(s)	Younghoon Kim, Eunji Song, Sohyeon Lee, Minho Park, Hyunbo Shim, Ju-Young Kim
On-Site Speaker (Planned)	Sohyeon Lee
Abstract Scope	Recently, the application of alternative energy is expanding due to the reinforcement of eco-friendly policies so, the demand for the development of cryogenic materials that can be used for storage/transportation of eco-friendly fuels is increasing. In cryogenic temperature, material becomes brittle because of ductile to brittle transition (DBTT). Therefore, cryogenic material should have good cryogenic toughness. Retained austenite (RA) play an important role in affecting cryogenic toughness. Since the microstructure and mechanical properties are affected by the heat treatment, it is necessary to understand the effect of the heat process. In this study, we analyze the microstructure and mechanical property of 9 % Ni steels which are produced by QT (Quenching and tempering) process and QLT (L: lamellarizing) process, respectively. We compare volume fraction, morphology and distribution of RA. Also, we compare mechanical property by using indentation size effect of nanoindentation. This work was supported by Hyundai Steel.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A New Method for Measurement of Flow Stresses at High Strain Rates and Temperatures for Improved Simulation of Friction Stir Welding

A Study on Migrating Boundary Induced Plasticity Using Molecular Dynamics Simulation for Pure Iron

Atomic-scale Unique Interface Observation of η/Al in Al-Zn-Mg Alloy

Co-design of 3D Printing, Parts and Microstructure

Effects of Electric Current on the Plastic Deformation Behavior of Pure Copper, Iron, and Titanium

Electric Current-induced Phenomena in Materials

Enhancement of Mechanical Properties in Nanoporous Gold

Improvement of Mechanical Properties of Metallic Materials by Multilayered Structure

K--8: Effect of Heat Treatment in 9% Ni Steels on Cryogenic Impact Toughness

K-12: Improvement of Structural Stability and Characterization of Nanoscale Defects in Amorphous Alumina Thin Film

K-13: Integrated Welding and Thermal Processing for Ferritic/Martensitic Steels

K-14: MatILDa® - Application of a User-oriented Material Database

K-15: Porous Silicon Carbide (SiC) for Composite Core Sandwich Structures

K-16: Solid-state Bulk Joining of Dissimilar Metal Alloys by Electrically Assisted Pressure Joining

K-17: Study on the Behavior of Fine Particles by the Vibration of the Medium with Polluted Air Inside the Rigid Housing

K-18: The Friction and Product Quality in Dry Metal Forming with Volatile Media

K-2: Automated Process Design for Heat Shrink Casing of Welded Parts of Buried District Heating Pipe

K-4: Development of a Gradient Structural Material Using Electrically Assisted Pressure Joining of Fe-Mn-Al-C Lightweight Steels

K-5: Development of a Self-heated Composite Tool for Out of Autoclave and Out of Oven Cure of Thin Ply Composite Structures

K-6: Development of Highly Stretchable and Impermeable Encapsulation by Applying Wavy-structure to Thermally Grown Silicon Dioxide

K-7: Discontinuous Yielding Behavior Due to Twinning Accompanied by Abnormal Grain Growth in Fine-grained Copper

K-9: Enhanced Flaw-tolerance of Nanoporous Gold with Grain Boundary Plasticity

Manufacture of Advanced 3D Composites Using a New 3D Weaving Technique and Their Design Using a Neural Network

Mechanical Properties and Reliability of Nanolayered Stretchable Interconnect with Nanocrystalline Copper and Ternary Metallic Glass

Mechanisms Driving Defect Formation in High Power Laser Welding of Nickel Alloys

Microstructure-based Fatigue Life Modeling Methodology for Ferritic-pearlitic Hypo-eutectoid Steels

Modern Supercomputing for Accelerating the Design of High-temperature Aluminum Alloys

Monte Carlo Simulations for Microstructure Evolution via Diffusion

Novel Solid-State Metal Powder Fabrication Process for Feedstock of Metal Matrix Composites Additive Manufacturing

On the Micromechanical Response of a Mild Steel during Abrupt Strain Path Changes (SPCs)

Recent Nanoindentation Studies on Innovative Process Design for Advanced Structural Materials

Residual Stress in Steel H-beam Produced by Hot-rolling and QST Investigated by Instrumented Indentation Testing

Structural Evolution during Nanostructuring and Heating of an Additive-manufactured Stainless Steel Examined by X-ray and In-situ Neutron Diffraction Analyses

Uniaxial Tensile Behavior After Baking Treatment in a Low Carbon Steel Accompanying Inhomogeneous Plastic Yielding

Virtual Thermo-mechanical Process Design of Metallic Materials by Integrating Crystal Plasticity and Phase Field Model

Questions about ProgramMaster? Contact programming@programmaster.org