J.L. Waring scite author profile

Selected mixtures in 69 binary systems involving Ab03, Ga20 a, CrZ0 3, Fe20 a, SczOa, In20 3, Y20 3, and the rare earth oxides were stud ied by X-ray diffraction techniques after heat treatment at various temperatures. A plot of the radii of the A +3 cations versus the radii of B+3 cations shows the regions of stability for the different structure types found for Ithe double oxides of the trivalent cations. The following structure types were encoun tered: A, B, and C-type rare earth oxide; corundum, beta gall ia; kappa alum ina; garnet; perovskite; and several types which could not be d efinite ly re lated to known structures. The majority of A+3 B+3 0 3 compounds have the perovskite structure. Several phases, including (1-x)Fez0 3·xAh03 ., and (1-x) Fe,03·xGa20 3 ." appear to have structures s imi lar to kappa alumina. Solid solution dcfin itely occurs in many of t he garnet type compounds which contain gailia. Based on the data collected in this survey, the s ubsolidu s phase equi libria re lationships of 79 binary systems were drawn.

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Phase equilibria as related to crystal structure in the system niobium pentoxide-tungsten trioxide

Roth¹,

Waring²

1966

J. RES. NATL. BUR. STAN. SECT. A.

134

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Phase equilibrium relations in the binary system bismuth sesquioxide-niobium pentoxide

Roth¹,

Waring²

1962

J. RES. NATL. BUR. STAN. SECT. A.

135

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T~e phase eq ui libr. iu m diag ram fo r th c binary sy ste m bis mu t h sesq uioxide-niobium pentoxlde has been cO llsLru cted from obse rvaL iolls of fu sion characteristics a nd X-ray diffracbon data. In t he syste m fi ve blila ry compounds were obse rved wi t h Bi20 3 :NbzOs ratios of .5: 3, 1 : 1. 4: D, 1: 5, a nd 1 : 6. The 1: 1 co mpo und was fou nd to Lransform irreversibl y (Ill la borator y t une) from t he ort horh ombic bis l11u totantali tc typc st ruc t ure to a tricli nic fo rm at about 1,020 °C and me lt congrue ntl y at J ,24 . 5 °C. The 5:3 com pound melts in congru e nt ly at 1,193 °C t he 4: 9 at 1,183 °C a nd the 1: 6 at 1,242 °C. The J : 5 co mpou nd h as a max imum t e mpe rat ure of stab ili ty at 1,095 °C alld Liw 4:9 a nd J: 6 co mpound have minimum te mperatures o~ st~b ili~y at 1,070 °C and 1, 002 °C res pectivc ly. Nb20 s was found to ?ntcr m to sohd solu tIOn In BI20 ,! up t? about 23 .5 mo le pc rce nt Nb20 s. The me lting p oint I S lllcreased and the monoc linic-cub ic phasc t ra ns form ation tem perat ure is decreased . A morphotropIC phase change OCC UlTS at about 19.5 mole pe rccnt NbzOs from the cubic to a p se udocu bic st ru cture .

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Effect of oxide additions on polymorphism of tantalum pentoxide (system Ta2O5-TiO2)

Waring¹,

Roth²

1968

J. RES. NATL. BUR. STAN. SECT. A.

100

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The phase eq uilibrium re lation ships of th e Ti02·Ta20 , system were determined in air. An equi· molar co mpound , TiTa2O" was found to me lt congru ently at about 1662 °e and have a monoclinic unit cell a = 20.297 A, b = 3.804 A, c = 11 .831 A, f3 = 120°14', apparently isostnictural with TiNb20,.In addition, two othe r compound s are postulated to occ ur at about Ti02:49Ta20 , and Ti02: 7Ta20 s and to dissociate at about 1230 and 1190 °e, respec tively. Ti02 apparently accepts a maximum of 9 mole pe rce nt T a20s in solid solution at 1630 0c. Two eutecti cs occ ur in the syste m at 54 mole perce nt Ta20, and 1650 °e and 31 mole percent TazOs and 1630 0c.

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Immiscibility and the System Lanthanum Oxide–Boric Oxide

Levin

Robbins

Waring

1961

Journal of the American Ceramic Society

101

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The phase equilibrium diagram for the system Laz03-Bz03 has been determined experimentally. The compounds Laz03.3Bz03 and Laz03.-BzO3 melt congruently at 1141" f 5°C. and 1660" f 15"C., respectively. At 1488' f SOC., Laz03.-Bz03 inverts from the aragonite-type structure to a high-temperature form. Trilanthanum borate, 3LaZO3.BZO3, melts incongruently at 1 3 8 6 O f 5OC. to give liquid and La208. No solid solutions exist in the system. A region of liquid immiscibility exists in the system and extends at 1136' f 5°C. from almost pure B 2 0 3 to 21.5 mole ' % La203. The eiperimental value for the extent of immiscibility agrees with that calculated from theoretical considerations. A second method for estimating immiscibility in the system is demonstrated, which requires experimentally only the determination of t h e index of refraction of the modifier-rich liquid. FVinciples governing immiscibility are discussed.

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J.L. Waring

Solid state reactions involving oxides of trivalent cations

Phase equilibria as related to crystal structure in the system niobium pentoxide-tungsten trioxide

Phase equilibrium relations in the binary system bismuth sesquioxide-niobium pentoxide

Effect of oxide additions on polymorphism of tantalum pentoxide (system Ta2O5-TiO2)

Immiscibility and the System Lanthanum Oxide–Boric Oxide

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