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Metallurg

The application of eddy currents in non destructive testing was very developed during the recent years. Adding to the defects characterization, actual studies deal with the metallurgical evaluation of materials. Surface processing allow to increase the material endurance and consequently its life duration. [Pg.290]

To define a steel, it would be necessary to know its chemical composition, its physicochemical constitution, its metallurgical state (aimealed, hammered) and other parameters (superficial and chemical processing,. ..). The set of structural characters of a metallic alloy is consequently function of the chemical composition, the elaboration processing, the thermal processing, the temperature, etc. [Pg.290]

The Direct Current Potential Drop Method for Testing of Powder Metallurgical Parts. [Pg.381]

The Direct Current Potential Drop method (DCPD) has been evaluated for non destructive testing of uniaxially produced Powder Metallurgical (P/M) parts. The aim is to adapt DCPD to be functional as an ndt tool during production of parts. Defects can occur at different stages in the production cycle which means that DCPD has to be performed on components in different states and searching for different defects. [Pg.381]

F. F. Apian and D. W. Fuerstenau, in Froth Flotation, D. W. Fuerstenau, ed., American Institute of Mining and Metallurgical Engineering, New York, 1962. [Pg.427]

The determination of silicon is commonly encountered in metallurgical and mining laboratories responsible for the analysis of ores, slags, and alloys. The volatilization gravimetric method, which is appropriate for samples containing high concentrations of silicon, was described earlier in Method 8.2. [Pg.259]

See other pages where Metallurg is mentioned: [Pg.34]    [Pg.81]    [Pg.81]    [Pg.110]    [Pg.178]    [Pg.296]    [Pg.322]    [Pg.791]    [Pg.966]    [Pg.969]    [Pg.160]    [Pg.426]    [Pg.494]    [Pg.188]    [Pg.357]    [Pg.56]    [Pg.173]    [Pg.191]    [Pg.194]    [Pg.206]    [Pg.207]    [Pg.140]    [Pg.113]    [Pg.32]    [Pg.184]    [Pg.238]    [Pg.609]    [Pg.609]    [Pg.756]    [Pg.807]    [Pg.874]    [Pg.887]    [Pg.889]    [Pg.924]    [Pg.1072]    [Pg.89]    [Pg.341]    [Pg.344]    [Pg.345]    [Pg.346]    [Pg.346]    [Pg.346]    [Pg.347]    [Pg.349]   


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Acid plants metallurgical sulfuric

Adhesion mechanisms metallurgical bonding

American Institute of Mining Metallurgical, and Petroleum

American Institute of Mining and Metallurgical Engineers

And metallurgical influence

Assumption in H2SO4 making calculations metallurgical acid plants

Binary Metallurgical Systems

Bonds metallurgical

Boron metallurgical

CHEMICAL AND METALLURGICAL

Chemical and Metallurgical Engineering

Chemical and Metallurgical Industry

Cleaning, metallurgical offgas

Condensation of H2O from gas metallurgical offgas

Corrosion metallurgical aspects

Corrosion of magnesium (Mg) alloys and metallurgical influence

Dust concentrations, metallurgical offgas

Electro-Metallurgical

Electrochemical and Metallurgical Industry

Electronics metallurgical properties

Electronics metallurgical reactions

Emission metallurgical

Extraction metallurgic

Failures metallurgical

Fansteel Metallurgical Corp

Ferrosilicon and Metallurgical Grade Silicon

Flowsheets metallurgical offgas treatment

Gas compositions, industrial metallurgical offgas

Georgius Agricola - A Renewer Of Mining And Metallurgical Technique

Hydrogen metallurgical reductant

Industrial data metallurgical offgas treatment

Kidd Metallurgical Division

Ladle metallurgical furnace

Magnesium alloys metallurgically influenced

Mercury removal from metallurgical

Mercury removal from metallurgical Dowa process

Mercury removal from metallurgical offgas

Metallurg Inc

Metallurgical Abstracts

Metallurgical Laboratory at the

Metallurgical Laboratory at the University of Chicago

Metallurgical Laboratory. University

Metallurgical Laboratory. University Chicago

Metallurgical Offgas Cooling and Cleaning

Metallurgical Problems of Welding

Metallurgical Processes

Metallurgical Project

Metallurgical Research Laboratory

Metallurgical Si

Metallurgical Tempers

Metallurgical Uses

Metallurgical and mechanical

Metallurgical and mechanical properties

Metallurgical and mechanical properties of components

Metallurgical applications

Metallurgical aspects of iron and steel

Metallurgical attachment

Metallurgical behaviors

Metallurgical behaviors corrosion

Metallurgical carbon

Metallurgical classification

Metallurgical coatings

Metallurgical coke

Metallurgical complex

Metallurgical development

Metallurgical dust

Metallurgical effects

Metallurgical effects, review

Metallurgical engineering

Metallurgical extraction

Metallurgical identification

Metallurgical industry

Metallurgical laboratory

Metallurgical laboratory of the university

Metallurgical offgas

Metallurgical offgas H2O condensation from

Metallurgical offgas after all gas treatment

Metallurgical offgas after electrostatic precipitation

Metallurgical offgas condensation

Metallurgical offgas cooling

Metallurgical offgas dust contents

Metallurgical offgas dust from gas

Metallurgical offgas electrostatic precipitation

Metallurgical offgas gas compositions

Metallurgical offgas in waste heat boiler

Metallurgical offgas precipitation

Metallurgical offgas precipitation mechanism

Metallurgical offgas scrubbing

Metallurgical offgas sulfuric acid

Metallurgical offgas waste acid product from

Metallurgical operations/techniques

Metallurgical professional societies

Metallurgical properties

Metallurgical refurbishment

Metallurgical repair

Metallurgical research and development

Metallurgical sector

Metallurgical silicon

Metallurgical slags

Metallurgical structure

Metallurgical sulfuric acid plants production costs

Metallurgical testing

Metallurgical use

Metallurgical variability

Metallurgical variability Subject

Metallurgical-grade limestone

Metallurgically influenced corrosion

Metallurgically influenced corrosion pitting

Metallurgy metallurgical processes

Metallurgy, metallurgical

Mining and Metallurgical

Modeling Gas-Liquid Flow in Metallurgical Operations

Offgas, metallurgical dehydration

Offgas, metallurgical heat recovery

Offgas, metallurgical mercury removal

Offgas, metallurgical removal

Offgas, metallurgical sulfur burning

Offgas, metallurgical temperatures

Offgas, metallurgical water

Powder metallurgical

Powder metallurgical methods

SO3 concentrations in industrial gases metallurgical furnace offgas

SVM Applied to Chemical and Metallurgical Technology

Samples metallurgical

Scrubbing metallurgical gas dust and impurity removal

Scrubbing metallurgical gas industrial data

Selecting a Metallurgical Temper

Silicon metallurgical grade

Stainless steels metallurgical factors

Steels metallurgical effects

Strength metallurgical factors

Stress corrosion cracking metallurgical factors

Sulfuric acid from metallurgical offgas

Systems of metallurgical slags

Temperatures, industrial metallurgical gas

Titanium, Zirconium and Tantalum—Astro Metallurgical

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