Skip to main content
iMIS
Forging RFQ
Store
Contact Us
Cart
Sign in
Toggle search
Keyword search
Toggle navigation
Keyword search
Non Ferrous
Below are the titles and descriptions for non ferrous metallurgy resources.
Flow Behavior of INCOLOY 945 During High Temperature Deformation
The prime objective of the study was to examine the hot compression behavior of Alloy 945 as a function of temperature and strain rate and to compare its flow behavior with other superalloys.
Developing a phenomenological equation to predict yield strength
Developing a phenomenological equation to predict yield strength from composition and microstructure in β processed Ti-6Al-4V I. Ghamarian a,1, B.Hayesb, P.Samimi a,1, B.A.Welk c, H.L.Fraser c, P.C.Collins a,n,1 a Department of Materials Science an
The Hot Deformation Behavior of an As Cast Alloy 718 Ingot
This study was undertaken to evaluate the effects of strain, strain rate, and temperature on microstructural evolution using primary breakdown of an as-cast alloy 718 ingot.
Grain Refinement During Primary Breakdown of Alloy 718
This paper investigates grain refinement during primary breakdown of alloy 718.
Recrystallization and Grain Growth in Nickel 706 Forgings
The objective is to determine the correlation between the amount of strain and the amount of thermal energy (time and temperature) required to initiate and complete recrystallization in nickel-iron base alloy 706.
On the influence of alloy composition on the oxidation performance
A compositionally graded Ti–xAl (0 B x B 8wt%) specimen was prepared to conduct a rapid systematic investigation of the influence of composition and exposure time on the oxidation performance of the titanium-rich section of the binary Ti–Al system.
Microstructural Evolution in Microalloyed Steels
Experiments that were conducted to illustrate the effects of thermomechanical rolling of bars on the microstructures, and the influence of these microstructures on subsequent heat treatment.
Effect of Processing Variables and Die Geometry on Microstructure of Forged IN718
Effect of Processing Variables and Die Geometry on Microstructure of Forged IN718
Oxidation behavior of binary Ti-xW (0 ≤ x ≤ 30, wt%) alloys at 650◦Cas a function of W concentration
The purpose of this study is to assess the influence of the concentration of W (across a wide composition range) on the oxidation properties of Ti-xW binary compositions at 650 ◦C using a compositionally graded binary Ti-xW (0 ≤ x ≤ 30 wt%) specimen
Microstructure Evolution in INCOLOY® 945 During Hot Deformation
Microstructure Evolution in INCOLOY® 945 During Hot Deformation
The Effects of Forging on the Microstructure and Tensile Properties of Magnesium Alloys AZ31 & ZK60
In the present investigation magnesium alloys AZ31 and ZK60 have been forged using a two step forging process.
MagForge: Cost Effective Ways to Forge Magnesium
The objective of this paper is to provide SME’s with the comprehensive technology and know-how to produce cost-effective magnesium forged components.
Comparison of Single and Multiple Pass Compression Tests Used to Simulate Microstructural Evolution
The purpose of this investigation was to characterize the evolution of microstructure during single-pass compression testing and compare the results to those obtained from multiple-pass testing (5) to determine if multiplepass compression testing can
Grain Size Control in Ring-Rolled Alloy 718
This paper investigates the controllable independent variables for the processing of ring-rolled alloy 718 to determine influence on the final microstructure.
Effects of Multiple Reductions on Grain Refinement During Hot Working of Alloy 718
This paper presents the findings from a follow-on study in which multiple-pass deformation sequences simulating those of radial forging.
An Examination of Hot Deformation and Recrystallization of Alloy 167
The goal of this work is to develop a better understanding of the microstructural evolution of alloy 617 during ingot breakdown and determine the optimal processing windows for the hot rolling parameters temperature, strain, strain rate, and processi
{1}
##LOC[OK]##
{1}
##LOC[OK]##
##LOC[Cancel]##
{1}
##LOC[OK]##
##LOC[Cancel]##