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Determine the liquidus temperature, soli- dus temperature, and freezing range for the following NiO-MgO ceramic compositions (a) NiO-30 mo% MgO; (b) NiO-45 moľ"% Mg0; (c) NiO-60 mol% MgO; and (d) NiO-85 mo% MgO. [See Figure 10-8(b).] 2800 2600- 2400 - 2200 - (Ni, Mg)0 2000 NiO 20 40 60 80 Mgo Mole percent Mgo (b) Figure 10-8(b) The equilibrium phase diagram for the NiO-MgO system. (Repeated for Problems 10-44, 10-50, 10-53, 10-57, and 10-71.) Temperature ("C)

Determine the liquidus temperature, soli- dus temperature, and freezing range for the following NiO-MgO ceramic compositions (a) NiO-30 mo% MgO; (b) NiO-45 moľ"% Mg0; (c) NiO-60 mol% MgO; and (d) NiO-85 mo% MgO. [See Figure 10-8(b).] 2800 2600- 2400 - 2200 - (Ni, Mg)0 2000 NiO 20 40 60 80 Mgo Mole percent Mgo (b) Figure 10-8(b) The equilibrium phase diagram for the NiO-MgO system. (Repeated for Problems 10-44, 10-50, 10-53, 10-57, and 10-71.) Temperature ("C)

Introduction to Chemical Engineering Thermodynamics
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Determine the liquidus temperature, soli- dus temperature, and freezing range for the following NiO-MgO ceramic compositions (a) NiO-30 mo% MgO; (b) NiO-45 moľ"% Mg0; (c) NiO-60 mol% MgO; and (d) NiO-85 mo% MgO. [See Figure 10-8(b).] 2800 2600- 2400 - 2200 - (Ni, Mg)0 2000 NiO 20 40 60 80 Mgo Mole percent Mgo (b) Figure 10-8(b) The equilibrium phase diagram for the NiO-MgO system. (Repeated for Problems 10-44, 10-50, 10-53, 10-57, and 10-71.) Temperature ("C)
Transcribed Image Text:Determine the liquidus temperature, soli- dus temperature, and freezing range for the following NiO-MgO ceramic compositions (a) NiO-30 mo% MgO; (b) NiO-45 moľ"% Mg0; (c) NiO-60 mol% MgO; and (d) NiO-85 mo% MgO. [See Figure 10-8(b).] 2800 2600- 2400 - 2200 - (Ni, Mg)0 2000 NiO 20 40 60 80 Mgo Mole percent Mgo (b) Figure 10-8(b) The equilibrium phase diagram for the NiO-MgO system. (Repeated for Problems 10-44, 10-50, 10-53, 10-57, and 10-71.) Temperature ("C)
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