Dressel Technologies LLC

Ladle Skull Melting Energy
Technical Articles
Use of DRI in EAF's
Part I: Qualities and Storage of Direct Reduced Iron
Part II: Feeding and Melting of Direct Reduced Iron
Part III: Slag Practices and Oxygen/Carbon Injection when Melting Direct Reduced Iron
Part IV: Direct Reduced Iron Process Effects
and Applications
Question and Answer Articles
Negative Strip
Mold Powder Deposits
Steel Liquidus Temperature
Tundish Mixing Model
EAF Cooling Boil Reactions
Pinholes and Blowholes (1)
Meltshop Expansion Modeling
Phosphorous Removal
Tundish Metering Nozzle Diameter
Alloy Additions
Quality Indices: Ca, Cp and Cpk
Billet Rhomboidity
Mold Oil Lubrication
Nitrogen Removal
Solidus Temperature
Calcium Wire Injection
Flying Tundish Change
Hydrogen Testing
Acid Linings and Stainless Steel
Mold Taper for Rounds
Silica Tundish Board Life
Inert Electrode Shielding
Resulfurized Billet Round Cracks
High Carbon Billet Startup Breakouts
Billet Laps
Billet Straightness
BOF Oxygen Consumption
Doloma Refractories
Alloy Melting Principles
S.E.N. Clogging
EMS Intensity
Ladle Stirring Hookup
Pinholes and Blowholes (2)
Mould Lead
White Slag
Silicon Killed Steel Nozzle Clogging
Ladle Shell Insulation
Pinholes and Blowholes (3)
Melting
Ladle Metallurgy
 Casting
Refractories
Quality Measures