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Platinum Metals Rev., 1966, 10, (4), 161

Subject Index to Volume 10

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Anodic Protection, of austenitic stainless steel, a 152
of carbon steel, a 152
Battery, miniature, for NASA132
Catalysis, bonding of adsorbed species87
Catalysts, for HNO, production, a 110
Iridium, Adams’, hydrogenation of aromatic nitro-compounds by, a 151
complex, hydrogenation of C2H4, C2H2, a 71
complexes, isomerisation of cyclooctadienes, a 72
complexes, isomerisation of octenes, a 72
Ir/zeolite, hydrogenation of C6H6, a 149
Iridium-Platinum, Adams’, hydrogenation of aromatic nitro-compounds by, a 151
Palladium, black, effect of pH during hydrogenation on, a 150
black, hydrogenation of dienes, a 34
black, magnetic susceptibility of, a 112
complexes, CO addition to cyclo-octa-1,5-diene, a 71
exploded wire, a 35
hydroformylation of olefins, a 112
salts, oxidation of olefins by, a 151
wire, sponge, H2-D2 exchange, a 112
PdCl2, carbonylation of allene-PdCl2 
complexes, a 71
carbonylation of butadiene and isoprene complexes, a 35
carbonylation of 1,5,9,-cyclododecatriene, a 112
carbonylation of cyclooctadienes, a 112
carbonylation of cyclopropane, a 35
carbonylation of diphenylacetylene, a 112
carbonylation of propargyl chloride, a 112
complexes, reaction with nucleophiles, a 151
copolymerisation of CO and norbornadiene, a 71
coupling with aromatic compounds, a 71
cyclooctadiene complex, reaction with ethyl malonate, a 35
decarbonylation of acyl chloride and aldehyde, a 71
hydroformylation of olefins, a 112
isocyanate preparation90
oxidation of butene-1, a 112
oxidation of olefins by, a 151
oxidation of C3H6, a 71
reaction of π-allyl-PdCl2 with nucleophiles, a 71
PdCl2/CuCl2, oxidation of C2H4, a 35
oxidation of C2H4, a 35
Palladium-Gold, CH4-D2 exchange, a 112
Pd/Al2O3, conversions of dicyclohexyl, dicyclohexylmethane, a 111
hydrogenation of C2H2, a 113
hydrogenation of C2H4, C3H6, a 150
hydrogenolysis of cyclic hydrocarbons, a 70
oxidation of CO on, a 150
oxidation of CH4 on, a 113
preparation of organosilanols, a 113
Pd/BaSO4, effect of pH during hydrogenation on, a 150
hydrogenation of dimethylethynylcarbinol, a 113
reduction of aliphatic nitro-compounds, a 113
Pd/C, carbonylation of propargyl alcohols, a 112
conversions of diethylamine, a 34
hydrogenation of dimethylethynylcarbinol, a 113
oxidation of HCOOH, a 34
Pd distribution on, a 149
preparation of organosilanols, a 113
reduction of aliphatic nitro-compounds, a 113
Pd/polyethyleneterephthalate, reduction of C6H5NO2, nitrophenol, a 113
Pd/SiO2, hydrogenation of dimethylethynylcarbinol, a 113
Pd/zeolite, isomerisation of n -hexane, a 113
isomerisation of hydrocarbons, a 149
Palladium-Ruthenium, CH4-D2 exchange on, a 33
Platinum, black, effect of light, a 71
black, hydrogenation of dienes, a 34
black, oxidation of C2H5OH, a 70
complexes, isomerisation of cyclooctadienes, a 72
exploded wire, a 35
film structure, a 110
films, oxidation of CO on, a 149
foil, H2O2 decomposition, a 70
gauze, NH3 oxidation, a 70, 149
H2-O2 reaction on60
isomerisation of paraffins, a 150
oxidation of H2 on, a 33
reactions of silacyclobutanes, a 34
reforming, a 69
reforming, high octane petrol by, a 69
salts, oxidation of olefins by, a 151
Platinum-Iridium, Adams’, hydrogenation of aromatic nitro-compounds, a 151
Platinum Metal Oxides, activity10
Platinum Metals, chemisorbed species in9
decomposition of H2O2, a 113
hydrogenation of terminal acetylenes, a 34
supported, for liquid-phase reactions122
supported, review of144
Pt/Aerosil, oxidation of CO on, a 149
Pt/Al2O3, alkali, activated, dehydrocyclisation of n -C6H14 on, a 150
butane adsorption on, a 111
conversions dicyclohexyl, dicyclohexylmethane, a 111
conversion of hydrocarbons on spent and reactivated, a 150
conversion of organophosphate vapour on, a 150
dehydrogenation of cyclohexane, isopropyl alcohol, a 33
dehydrogenation of methylcyclohexane, a 33
effect of Na, a 33
effect of Na, aromatisation of n -hexane, a 69
hydrogenation of C6H6, a 33
hydrogenolysis of cyclic hydrocarbons, a 70
isomerisation of n -pentane, a 33
isomerisation of n -pentane, activation by air, H2, a 111
Pt distribution on, a 149
reforming, in E. Germany, a 33
reforming of petroleum fractions, a 111
regeneration of, a 110
surface diffusion of n -C4H10, a 149
Pt/C, conversions of diethylamine, a 34
conversion of 1,4-endomethylenespiro-(5,5)-undecane, a 70
conversion of cis -8-methylhydrindane, a 70
hydrogenation of 2-methyl-5-acetylfuran, a 70
hydrogenolysis of cyclopentane hydrocarbons, a 150
Pt/SiO2, activity for H2-D2 exchange, a 34
activity for hydrogenation of hexene-l, a 34
activity in H2O2 decomposition, a 34
alkali-activated, dehydrocyclisation of n -C8H14 on, a 150
aromatisation of n -hexane, a 111
effect of light, a 71
hydrogenation of C6H6, a 112
loss of activity, a 34
petroleum reforming, in Czechoslovakia, a 111
Pt/SiO2-Al2O3, isomerisation of paraffins, a 111
isomerisation of n -pentane, a 70, 111
Pt/zeolite, isomerisation of hydrocarbons, a 149
PtO2, reduction of aliphatic nitro-compounds, a 113
Platinum-Rhodium, gauze, NH3 oxidation, a 70
CH4-D2 exchange on, a 33
Rhodium, black, hydrogenation of dienes, a 34
complexes, decarbonylation of aldehyde, a 71
Rhodium, 
complexes, hydrogenation of C2H4, C2H2, a 71
complexes, isomerisation of cyclooctadienes, a 72
complexes, isomerisation of olefins by, a 151
complexes, polymerisation of butadiene-1,3 by, a 151
salts, polymerisation of butadiene, a 72
RhCl3, hydrogenation of aldehydes, a 114
olefin-to-olefin addition65
polymerisation of butadiene-1,3 by, a 151
Rh chloro complexes, hydrogenation of maleic acid, a 114
Rh hydroxide, black, hydrogenation of aniline, a 114
black, hydrogenation of organic compounds, a 113
Rh/Al2O3, crotonic condensation of butyraldehyde by, a 151
hydrogenation of C2H4, C3H6, a 150
Rh/clay, hydrocondensation and hydropolymerisation by, a 35
Rh/zeolite, hydrogenation of C6H6, a 149
Rhodium-Platinum, gauze, NH3 oxidation, a 70
CH4-D2 exchange on, a 33
Ruthenium, complexes, hydrogenation of olefins and acetylenes, a 72
RuCl3, D2-H2O exchange, a 114
Ru hydroxide, black, hydrogenation of aniline, a 114
black, hydrogenation of organic compounds, a 113
Ru/Al2O3, hydrogenation of CO, CO2, a 35
Ru/C, hydrogenation of aromatic acids, a 35
hydrogenation of aromatic compounds, a 35
hydrogenation of furan compounds, a 151
hydrogenation of N-containing heterocyclic compounds, a 152
preparation of organosilanols, a 113
Ru/SiO2, hydrogenation of aromatic compounds, a 35
hydrogenation of N-containing heterocyclic compounds, a 152
RuO2, hydrogenation of aromatic compounds, a 35, 72, 151, 152
oxidation of sugars, a 72
RuO4, oxidation of carbohydrate derivatives by, a 151
Ruthenium-Palladium, CH4-D2 exchange on, a 33
Cathodic Protection, platinised Ti anodes48, 152
platinised Ti anodes, for ships, a 73
platinised Ti anodes, in brackish water, a 152
Pt microelectrodes in Pb anodes, a 73
Coatings, Rh, vapour deposition of13
Corrosion, in paper-making machines48
Pd-Ti, a 114
Pt, a 148
Rh, in HCl, a 68
Ru, a 148
Crucibles, IrM 8
Deuteration of, C2H4, C3H6, a 150
Deuterium, exchange with H2, a 34, 112
exchange with CH4, a 33, 112
exchange with H2O, a 114
separation, a 148
Diffusion, T2 enrichment by Pd, a 33
Diffusion Tubes, H/D separation through, a 148
Electrical Contacts, noble metal base, a 152
3rd International Symposium on133
wear and friction of2, 107
Electrodeposition of, Iridium, deposits, a 32
from aqueous electrolytes59
from chloride electrolytes, a 149
Iridium-Rhodium, from chloride electrolytes, a 149
mixed deposits, of Pt, Pd with Ru, a 69
Palladium, from alkaline electrolytes, a 32
physical properties, a 110
Platinum, on Ni, Mo, a 149
on Ti, Ta, a 32
Platinum Metals, review, a 149
Platinum-Rhodium, from cis -dinitrodiamino electrolytes, a 32
from HCl electrolyte, a 32
Rhodium, crack-free, a 110
from sulphate electrolytes, a 149
slip-ring surfaces, a 32
Rhodium-Iridium, from chloride electrolytes, a 149
Rhodium-Platinum, from cis -dinitrodiamino electrolytes, a 32
from HCl electrolyte, a 32
Ruthenium, slip-ring surfaces, a 32
Electrodes, Palladium, adsorption of CO, a 109
bright, O2 overvoltage on, a 68
H/D separation using, a 148
H2 diffusion in, a 72
oxidation of CH3OH, HCOOH on, a 110
oxidation of organic substances, a 32
H2O electrolysis with19
Palladium-Hydrogen, preparation and properties, a 31
Palladium-Ruthenium, oxidation of CH3OH, HCOOH on, a 110
Palladium-Silver, H/D separation using, a 148
H2 diffusion in127
Platinised Paper, in fuel cells, a 36
Platinised Ta, platinising of, a 32
Platinised Ti, anodes, in brackish water, a 152
anodes, in cathodic protection, a 152
anodes, in cathodic protection of ships, a 73
platinising of, a 32
Platinum, anodic polarisation of, a 148
black, B4C-supported, in fuel cells, a 114
black, H2 determination in inert gases, a 32
black, in fuel cells, a 114
cathodes, anodic protection with, a 152
influence of ac, a 148
in miniature battery132
microelectrodes, in Pb anodes, a 73
HNO3-passivated, a 31
oxidation of H2 on, a 109
porous graphite support, a 31
surface state of86
synthesis of dimethyl ethers, a 31
synthesis of methyl esters of α, β-unsaturated carboxylic acids, a 110
Platinum-Gold, oxidation of CH3OH, a 31
Platinum Metals, blacks, in fuel cells93
oxidation of H2, CH3OH135
Pt/Ta, in fuel cells, a 72
Platinum-Rhodium, reduction of O2 on, a 148
surface in electrocatalysis, a 68
Platinum-Ruthenium, reduction of O2 on, a 148
Platinum-Titanium, activated, in fuel cells139
Platinum-Titanium-Tantalum, activated, in fuel cells139
Rhodium, adsorption properties, a 68
oxidation, a 31
Rhodium-Platinum, reduction of O2 on, a 148
surface in electrocatalysis, a 68
Ruthenium, adsorption properties, a 68
anodic corrosion of, a 148
anodic dissolution of, a 68
oxidation of CH3OH, HCOOH on, a 110
passivation of, a 149
Ruthenium-Palladium, oxidation of CH3OH, HCOOH on, a 110
Ruthenium-Platinum, reduction of O2 on, a 148
Fuel Cells, Pd-H diffusion electrode, a 72
platinised paper electrodes, a 36
Pt-Ti, Pt-Ti-Ta electrodes in139
Pt/B4C electrodes, a 114
C3H8-air, Pt metals in93
C3H8-O2, a 114
Teflon-bonded Pt/Ta electrodes, a 72
Furnace, Pt-wound, in semiconductor manufacture53
Rh-Pt wound, for oxide studies, a 32
Glass, industry, design of Pt linings for,78
use of Pt in, a 152
melting furnaces, control of131
oxide semiconductors, a 152
storage of radioactive residues, a 73
tubing, two-ply131
vertical drawing furnace for, temperature in, a 153
viscosity of, a 73
wetting of Pt and Pt alloys54
Guyton de Morveau, Pt apparatus by24
Hydrogenation of, C2H2, a 113
aldehydes, a 114
aniline, a 114
aromatic compounds, a 35, 72, 151
C6H8, a 33, 112, 149
CO and CO2, a 35
cyclohexene, a 71
dienes, a 34
dimethylethynylcarbinol, a 113
C2H4, C2H2, a 71
C2H4, C3H6, a 150
furan compounds, a 151
hept-l-ene and hex-l-yne, a 72
hexene-l, a 34
maleic acid, a 114
2-methyl-5-acetylfuran, a 70
C6H5NO2, nitrophenol, a 113
N-containing heterocyclic compounds, a 152
organic compounds, a 113
terminal acetylenes, a 34
Hydrogen Diffusion, H/D separation by, a 148
in H2O electrolysis cathode19
in Pd, a 146
in Ag-Pd, a 146
in Ag-Pd foil electrode127
Iridium, deformation of single crystals, a 67
in electrical contacts, a 107
in oxide glass semiconductors, a 152
mechanical properties and corrosion resistance of, a 147
vaporisation of, a 109
Iridium Alloys, with T3B7 structure, a 68
Iridium-Bismuth, crystal structure, a 67
Iridium-Boron, properties8
Iridium-Hafnium, superconductivity in, a 109
Iridium-Iron, transformations in, a 147
Iridium-Lanthanum, emission properties of, a 147
Iridium-Molybdenum, ordered phases, a 108
Iridium-Niobium, superconductivity in, a 109
Iridium-Phosphorus, properties8
Iridium-Silicon, properties8
Iridium-Tellurium, superconductivity in, a 68
Iridium-Thorium, emission properties of, a 147
Iridium-Tungsten, mechanical properties of, a 147
ordered phases, a 108
Iridium-Uranium, structure, a 67
Iridium-Vanadium, superconductivity in, a 109
Iridium-Zirconium, mechanical properties of, a 147
Iridium Chloride, crystal structure, a 31
vapour, a 109
Iridium Oxide, dissociation of, a 148
vapour, a 109
Iridium Oxychloride, vapour, a 109
Isocyanates, production of90
Leak detector, for hydrocarbons, a 69
Magnets, Co-Pt, effect of high temperatures on84
Osmium, properties and compounds, a 30
Osmium Alloys, with T3B7 structure, a 68
Osmium-Lanthanum, emission properties of, a 147
Osmium-Molybdenum-Tungsten, constitution, a 30
Osmium-Tantalum, lattice parameters, a 30
Osmium-Thorium, emission properties of, a 147
Osmium-Tungsten-Molybdenum, constitution, a 30
Osmium-Uranium, structure, a 67
Osmium-Vanadium, constitution, a 147
Osmium Oxides31, 68
Oxidation of, NH3, a 149
butene-1, a 112
carbohydrate derivatives, a 151
CO, a 149, 150
Cr-Ru, a 147
C2H5OH, a 70
C2H4, a 35
HCOOH, with radiation, a 34
HCOOH and HCHO, a 32
hydrocarbons, a 72
H2, a 33, 109
H2, CH3OH135
Ir, a 109
CH4, a 113
CH3OH, a 31
CH3OH, HCOOH, a 110
olefins, a 151
Pt, a 29
Rh, a 31
sugars, a 72
Oxygen, production by H2O electrolysis19
Palladium, diffusion of H2 in, a 146
diffusion of T2 in, a 33
electronic properties of, a 145
magnetic properties of, a 112
recovery of atomic defects, a 66
Palladium Alloys, Palladium-Arsenic, crystal structure, a 30
Palladium-Antimony, crystal structure, a 30
Palladium-Cobalt, electronic properties of, a 145
Pd activity in, a 29
Palladium-Cobalt-Silicon, structure of amorphous phase, a 30
Palladium-Copper, diffusion of H2 in, a 108
recovery of atomic defects, a 66
Palladium-Copper-Gold, structure of, a 146
Palladium-Copper-Nickel, lattice parameters, a 30
Palladium-Gold, absorption of H2 by, a 29
heats of formation, a 29, 108
ordered structure, a 67
parahydrogen conversion on, a 146
Palladium-Gold-Copper, structure of, a 146
Palladium-Hydrogen, absorption isotherms of H2, a 67
constitution20
deformation and hardening, a 67
diffusion of H2 in, a 146
electrical resistance of, a 146
specific heat of, a 146
Palladium-Iron, electronic properties of, a 145
magnetic properties of, a 107
Palladium-Iron-Platinum, magnetic properties of, a 107
Palladium-Iron-Silicon, structure of amorphous phase, a 30
Palladium-Mercury, crystal structure, a 30
Palladium-Nickel, electronic properties of, a 145
Pd activity in, a 29
Palladium-Nickel-Copper, lattice parameters, a 30
Palladium-Nickel-Silicon, structure of amorphous phase, a 30
Palladium-Platinum, crystal structures, a 29
thermocouple sheaths128
Palladium-Platinum-Iron, magnetic properties of, a 107
Palladium-Rare Earths, structure and valency, a 30
Palladium-Rhodium, electrical properties, a 67
galvanomagnetic properties, a 66
Palladium-Ruthenium, magnetic properties, a 29
Palladium-Selenium, superconductivity in, a 68
Palladium-Silicon, structure of amorphous phase, a 30
Palladium-Silicon-Cobalt, structure of amorphous phase, a 30
Palladium-Silicon-Iron, structure of amorphous phase, a 30
Palladium-Silicon-Nickel, structure of amorphous phase, a 30
Palladium-Silver, deformation of, a 145
diffusion of H2 in, a 146
electrical properties, a 67
foil, in diffusion-sorption pump, a 69
galvanomagnetic properties, a 66
H2 absorption in, a 107
in electrical contacts, a 107
low temperature transport properties of, a 108
parahydrogen conversion on, a 146
Palladium-Tellurium, superconductivity in, a 68
Palladium-Titanium, corrosion resistance of, a 114, 152
Palladium Complexes, carbonylation of, a 148
sulphato complexes, a 109
Palladium Fluoride Complexes, a 31
Petroleum Refining, hydrocracking, a 110
Petroleum Reforming, aromatics production, a 111
high octane petrol production by, a 111
in Czechoslovakia, a 111
in E. Germany, a 33
Platforming, in Puerto Rico, aromatics production47
optimisation of, a 69
with hydrocracking, a 110
Platinum, apparatus by Guyton de Morveau24
emissivity of, a 107
formation of PtO291
in glass industry, a 152
in rotating cylinder viscometer, a 73
linings for glass industry78
malleable, produced by Wollaston101
mandrel, for two-ply glass tubing131
melting point of, effect of pressure on, a 145
mining at Rustenburg, production expanded52
oxidation of, a 29, 66
sheet, recrystallisation, a 66
strain gauge element, a 33
surface structures, a 29
thermal conductivity and diffusivity, a 66
thermal conductivity and electrical resistivity132
wetting by H2O, a 66
wire, in hydrocarbon-leak-detector, a 69
Platinum Alloys, Platinum-Antimony, crystal structure, a 30
Platinum-Arsenic, crystal structure, a 30
Platinum-Bismuth, crystal structure, a 30
Platinum-Cobalt, electrical resistivity and Curie point of, a 145
magnetic moments of, a 107
magnetic properties of, a 107, 145
magnetic properties of, at high temperatures84
Platinum-Copper, deformation of, a 145
thermodynamic properties, a 29
Platinum-Gold, fracture of, a 145
Platinum-Gold-Rhenium, formation of, a 145
Platinum-Iron, magnetic moments, a 66
magnetic properties of, a 145
Platinum-Iron-Palladium, magnetic properties of, a 107
Platinum-Lanthanum, emission properties of, a 147
Platinum-Manganese-Rhodium, magnetic properties of, a 146
Platinum-Nickel, Pt activity in, a 29
Platinum-Niobium, superconductivity in, a 109
Platinum-Palladium, crystal structures, a 29
thermocouple sheaths128
Platinum-Palladium-Iron, magnetic properties of, a 107
Platinum-Phosphorus, crystal structure, a 30
Platinum-Plutonium, physical properties of, a 145
Platinum-Rhenium-Gold, formation of, a 145
Platinum-Rhodium, furnace element for oxide studies, a 32
thermoelectric properties, a 29
Platinum-Rhodium-Gold, wetting by glass54
Platinum-Rhodium-Manganese, magnetic properties of, a 146
Platinum-Tantalum, superconductivity in, a 109
Platinum-Tellurium, superconductivity in, a 68
Platinum-Thorium, emission properties of, a 147
Platinum-Tungsten, strain gauge element, a 33
Platinum Complexes, carbonylation of, a 148
carbonyl derivatives, a 68
Platinum Fluoride Complexes, a 31
Platinum Hexafluoride, reactions with N oxides and fluorides, a 147
Platinum Metals, coordination chemistry of140
elastic and plastic properties14
electronic properties, a 66
electronic structure and alloying of94
in electrical contacts, a 152
wear and friction2
Platinum Sulphide, PtS phase, a 148
Platinum Sulphohalides, a 109
Pumping, diffusion-sorption, through Ag-Pd foil, a 69
Radioactive Residues, disposal as glass, a 73
Resistance Thermometers, Pt, accuracy, a 36
Pt, at 630−900°C, a 153
Pt, calibration on IPTS scale, a 36
Pt, recent advances42
Pt, 12–273.15°K reference table, a 115
Rhodium, in electrical contacts, a 107
vapour deposition of13
Rhodium Alloys, Rhodium-Hafnium, superconductivity in, a 109
Rhodium-Iron, magnetic properties of, a 108
thin films, magnetic and electrical properties of, a 108
transformation in, a 146
Rhodium-Manganese, transformation in, a 146
Rhodium-Manganese-Platinum, magnetic properties of, a 146
Rhodium-Molybdenum, ordered phases, a 108
Rhodium-Niobium, superconductivity in, a 109
Rhodium-Platinum, furnace element for oxide studies, a 32
thermoelectric properties, a 29
Rhodium-Platinum-Gold, wetting by glass54
Rhodium-Platinum-Manganese, magnetic properties of, a 146
Rhodium-Tantalum, superconductivity in, a 109
Rhodium-Tellurium, crystal structure of, a 108
Rhodium-Titanium, constitution of, a 146
Rhodium-Tungsten, ordered phases, a 108
Rhodium-Uranium, structure, a 67
Rhodium Complexes, π-allylic derivatives, a 68
Rhodium Sulphate, electrolytes, a 149
green disulphate, a 109
Rhodium Sulphate Complexes, a 68, 148
Rustenburg Mines, production expanded52
Ruthenium, dissolving of, a 68
electrical and thermal conductivities of, a 147
in electrical contacts, a 107
zone refining of crystals, a 30
Ruthenium Alloys, Ruthenium-Aluminium, crystal structure, a 109, 147
Ruthenium-Chromium, ductility of, a 109
oxidation of, a 147
Ruthenium-Iron, phase changes under pressure, a 30
Ruthenium-Niobium, constitution, a 67
Ruthenium-Niobium-Tantalum, constitution and properties, a 108
Ruthenium-Palladium, magnetic properties, a 29
Ruthenium-Tantalum, constitution, a 67
Ruthenium-Tantalum-Niobium, constitution and properties, a 108
Ruthenium Compounds, oxide hydrates, chlorides, oxide chlorides, a 31
Ruthenium Dioxide, structure of, a 109
Ruthenium Tetroxide, structure of, a 68
Semiconductors, diffusion heat treatment of53
oxide glass, a 152
Slip-rings, Rh and Ru surfaces, a 32
Space Vehicles, O2 for19
Strain Gauges, Pt/W-Pt, a 33
Temperature Measurement, in industry, small thermometers42
thermodynamic and IPTS scales, a 36
Thermocouples, Platinum:Rhodium-Platinum, 
in FINGAL process, a 73
of 50kV emission microscope cathode, a 36
pressure dependence, a 114, 115
S-type, sinker assembly, a 153
Platinum:Ruthenium-Platinum, properties of, a 115
Rhodium-Platinum:Rhodium-Platinum, “forty-twenty” reference tables, a 73
in furnace for oxide studies, a 32
in glass furnaces128
in vertical glass drawing furnace, a 153
Tritium, enrichment, a 33
Viscometer, rotating cylinder, for glass, a 73
Werner, Alfred140
Wollaston, William Hyde101

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