Anodic Protection, of carbon steel, a | 37 |
Brazing, Pd in ceramic-to-metal seals, a | 33 |
Brazing, Pd in ceramic-to-metal seals, a | 33 |
Brazing Alloys, containing Pd, a | 33 |
Calorimeter, differential, high temperature, a | 110 |
Catalysis, Third International Congress | 131 |
Catalysts, | |
Adams’, hydrogenation of dihydrolanosteryl and dihydroagnosteryl acetates, a | 111 |
IrCl3, isomerisation of olefins, a | 151 |
Ir/C, hydrogenolysis of 1,2-dimethylcyclopentanes, a | 36 |
Os/Al2O3, hydrogenation and deuteration | 60 |
Os/C, Hydrogenolysis of 1,2-dimethylcyclopentanes, a | 36 |
Palladium, black, decomposition of O3, a | 112 |
black, effect of ultrasonics, a | 112 |
black, hydrogenation of dienes, a | 151 |
black, hydrogenation of pentynes, a | 34 |
black, hydrogenation of piperylene isomers, a | 34 |
black, isomerisation of hexenes, a | 35 |
conversion of methylpentenes, a | 151 |
films, fission of C-halogen bond, a | 75 |
films, oxidation of olefins, a | 112 |
Raney-type, promotion by B, a | 112 |
PdCl2, activation, a | 151 |
formation of ethyl-3-butenoate, a | 75 |
formation of methyl ethyl ketone, a | 76 |
interaction with C2H2, a | 113 |
isomerisation of olefins, a | 75 |
oxidation of alcohols, a | 35 |
PdCl2/CuCl2, conversion of α-olefins, a | 112 |
oxidation of olefins, a | 35 |
oxidation of propylene, a | 35 |
Pd-Au, hydrogenation of quinone, a | 75 |
Pd/Al2O3, deactivation, a | 113 |
deuteration of butyne and butadienes, a | 75 |
deuteration of dialkylacetylenes, a | 75 |
hydrogenation of furans, a | 34 |
Pd/C, formation of 2,2'-bipyridyI | 76 |
hydrogenation of aryl nitro groups,inhibitors, a | 35 |
hydrogenation of furans, a | 34 |
hydrogenation of nitrocyclohexane, a | 151 |
hydrogenation of olefins, a | 113 |
hydrogenolysis of 1,2-dimethylcyclopentanes, a | 36 |
isomerisation of hexenes, a | 35 |
isomerisation of olefins, a | 151 |
Pd/oxide supports, for hydrogenation, a | 113 |
Pd/SiO2, dehydrogenation of cyclohexane, a | 112 |
Palladium-Platinum, activity, a | 113 |
Palladium-Rhodium, activity, a | 113 |
Pd-Ag/SiO2, dehydrogenation of cyclohexane, a | 113 |
Platinum, adsorption of H2, a | 75 |
aromatisation of gasoline, a | 111 |
black, activity, a | 75 |
black, decomposition of O3, a | 112 |
black, desorption of H2, a | 150 |
black, effect of ultrasonics, a | 112 |
black, hydrogenation of dienes, a | 34 |
black, hydrogenation of pentynes, a | 34 |
black, hydrogenation of piperylene isomers, a | 34 |
black, reduction of nitrobenzene, a | 150 |
conversion of methylpentenes, a | 151 |
decomposition of NH3, a | 111 |
duofunctional, in petroleum refining | 2 |
films, dehydration of cyclohexadiene-1,3 | 34 |
films, fission of C-halogen bond, a | 75 |
films, oxidation of olefins, a | 112 |
isomerisation of hexenes, a | 150 |
Raney-type, promotion by B, a | 112 |
synthesis of HCN, a | 110 |
Platinum Metals, activation energy, a | 32 |
borides of, a | 36 |
complexes, isomerisation of olefins, a | 151 |
hydrogenation of soybean oil, a | 152 |
olefin complexes | 92 |
reacted with NaBH4, a | 36 |
Pt/Al2o3, active surfaces, a | 74 |
chemisorption of C2H4, a | 149 |
conversion of 1,1-dimethylcyclohexane, a | 151 |
desorption of H2, a | 150 |
effect of H2O, a | 74 |
H2-D2 exchange, a | 111 |
hydrogenolysis of cyclopentanes, a | 150 |
hydrogenolysis of C2H6, | 111 |
migration of H atoms, a | 110 |
reactions of C9 aromatics, a | 149 |
Pt/C, conversion of n -amylbenzene, a | 151 |
conversion of 1,1- dimethylcyclohexane, a | 151 |
conversion of spiro-(5,6)-dodecane, a | 150 |
conversion of spiro-(5,5)-undecane, a | 75 |
E.S.R. studies, a | 74 |
E.S.R. studies in gases, a | 74 |
hydrogenation of cyclododecane, a | 111 |
hydrogenation of furans, a | 34 |
hydrogenation of nitrocyclohexane, a | 151 |
hydrogenation of vinylcyclohexanc, a | 151 |
isomerisation of hexenes, a | 150 |
isomerisation of olefins, a | 151 |
oxidation of H2 | 74 |
tritiation, a | 150 |
Pt/oxide supports, properties, a | 111 |
Pt/SiO2 desorption of H 2, a | 150 |
hydrogenation of C2H3 | 110 |
hydrogenolysis of cyclopentanes, a | 150 |
hydrogenolysis of C2H6 | 111 |
mixed with Al2O3, a | 74 |
oxidation of NH3 | 34 |
preparation and properties, a | 34 |
Pt/SiO2-Al2O3 conversion of cyclopentanes, a | 150 |
Pt/zeolite, hydrogenation of butenes, a | 110 |
PtO2, hydrogenation of dihydrolanosteryl and dihydroagnosteryl acetates, a | 111 |
hydrogenation of dimethylcyclobutane, a | 150 |
hydrogenation of organic acids, a | 34 |
self-activation for D2 exchange, a | 111 |
Platinum-Palladium, activity, a | 113 |
Platinum-Ruthenium, CH4-D2 exchange, a | 113 |
Rhodium, black, hydrogenation of olefins, a | 151 |
black, hydrogenation of pentynes, a | 34 |
reduction of organic compounds, a | 35 |
RhCl3, isomerisation of olefins, a | 151 |
Rh/Al2O3, hydrogenation of haloalkenes, a | 113 |
Rh/C, formation of 2,2´-biquinolyl, a | 76 |
hydrogenolysis of 1,2- dimethy lcyclopentanes, a | 36 |
Rhodium-Palladium, activity, a | 113 |
Ruthenium, hydrogenation of organic compounds, a | 35 |
synthesis of paraffin waxes, a | 152 |
Ru/Al2O3, hydrogenation and deuteration | 60 |
Ru/Ba2SO3, production of polyhydroxy alcohols, a | 36 |
Ru/C, hydrogenation of organic compounds, a | 35 |
production of polyhydroxy alcohols, a | 36 |
Ru/SiO2, hydrogenolysis of C2H6 | 76 |
RuO2, hydrogenation of aromatics, a | 152 |
synthesis of polymethylene, a | 152 |
RuO4, oxidation of steroid alcohols, a | 76 |
Ruthenium-Platinum, CH4-D2 exchange, a | 113 |
Sodium Chloropalladate (II), isomerisation of olefins, a | 112 |
Cathodic Protection, Pb/Pt anodes, a | 114 |
Corrosion, Ir, a | 33, 73 |
Crucibles, Pt, calorimeter, a | 110 |
Pt metals, polymerisations in, a | 110 |
Crystal Growing, Pt in cell for, a | 110 |
Deuterium, absorption in Pt-Pd alloys, a | 147 |
exchange reactions, a | 74, 111, 113 |
Dew Point Meter, a | 115 |
Diffusion Cells, for H2 purification, a | 29, 33, 91, 114 |
Electrical Contacts, Pd, effect of organic vapours, a | 37 |
Pt metals, Graz symposium | 99 |
Electrodeposition of, Platinum Metals, applications, a | 73 |
Rhodium, stress and contamination | 55 |
Electrodes, | |
activated graphite discs, a | 152 |
screens, Pt and Pt-C, a | 36 |
Iridium, anodes, oxidation of C2H4, a | 149 |
cathode base, a | 114 |
Pb/Pt, anodes, for marine cathodic protection, a | 114 |
Noble Metals, potentials in metal-O2-acid systems, a | 109 |
potentials, a | 109 |
Palladium, anodes, oxidation of C2H4, a | 149 |
black | 90 |
in fuel cells, a | 76 |
oxidation, a | 109 |
palladised, hydrogenation of C2H2 and C2H4, a | 149 |
Palladium Alloys, anodes, in fuel cells, a | 36 |
Pd/Ni, in fuel cell, a | 152 |
Pd/stainless steel, in hydrogen purification, a | 73 |
Palladium-Silver, in fuel cells, a | 76 |
Platinised Ti, anodes, in electrorefining of Co, a | 73 |
Platinum, anodes, cleanliness, a | 149 |
anodes, oxidation of C2H3, a | 149 |
anodes, oxidation of organic compounds, a | 33 |
anodes, protection of carbon steel, a | 37 |
black | 90 |
black, in fuel cells, a | 36, 114, 152 |
cell for O2 determination, a | 110 |
chemisorption of O2 and H2, a | 32 |
effect of acidity, a | 73 |
for resistivity measurements | 98 |
in cell for crystal growing, a | 110 |
in fuel cells, a | 36,76,114 |
oxidation, a | 32, 109 |
oxidation of CO and CH3OH, a | 32 |
platinised gauze, oxidation of C2H2, a | 149 |
platinised, hydrogenation of CH2 and C2H4, a | 149 |
reduction of O2, a | 109 |
Platinum Metals, activation energy, a | 32 |
a.c. polarisation | 90 |
in electrochemistry | 14 |
in fuel cells | 42, 114 |
oxidation and adsorption of CH3OH, a | 73 |
Pt/Ni, in fuel cells, a | 152 |
Pt/stainless steel, in hydrogen purification, a | 73 |
Pt/Ta, in hydrogen purification, a | 73 |
in fuel cells, a | 152 |
Pt or Pd, in fuel cells, a | 77 |
Rhodium, anodes, oxidation of C2H4, a | 149 |
in hydrogen purification, a | 73 |
oxidation, a | 110 |
reduction of organic compounds, a | 35 |
Electron Probe Scanning Microanalyser | 122 |
Electronics, Pt wave-guide termination | 15 |
Electron Microscope, Pt in heating stages, a | 33 |
Filters, sintered Pt | 54 |
Fuel Cells, electrode structure, a | 152 |
hydrocarbon/air, a | 36 |
H2-C12, a | 152 |
CH4-O2, with Pt electrodes, a | 76 |
oxidation of hydrocarbons, a | 152 |
oxidation of CH3OH, a | 152 |
Pd alloy anode, a | 36 |
Pd and Ag-Pd electrodes, a | 76 |
Pd H2-diflfusion electrode, a | 76 |
physical chemistry, a | 77 |
Pt black electrodes, a | 114 |
Pt metals in | 42 |
Pt or Pd black, a | 77 |
C3H8-O2, a | 114 |
saturated hydrocarbon, a | 36 |
thin electrodes, a | 36 |
types of electrodes, a | 114 |
Furnace, for microscopy and X-ray analysis, a | 153 |
high temperature, Rh-Pt wound | 66 |
Pt-lined, for fiuorination of U compounds | 12 |
resistivity of refractories for | 98 |
Rh-Pt wound, in X-ray diffractometer, a | 74 |
Glass, kinematic viscosity, a | 114 |
Hydrogen Cyanide, synthesis, a | 110 |
Hydrogen Diffusion, in Pd and Pd alloys, a | 70,76,114 |
Hydrogen Purification, tubes for | 33, 91 |
electrolytic technique, a | 73 |
Hydrogenation of, C2H2 | 149 |
acetylenes and C2H4 | 60 |
aromatics, a | 152 |
aryl nitro groups, a | 35 |
butenes, a | 110 |
cyclododecane, a | 111 |
dienes, a | 34, 151 |
dihydrolanosteryl and dihydroagnosteryl acetates, a | 111 |
dimethylenecyclobutane, a | 150 |
C2H6, a | 76 |
ethyl crotonate, a | 151 |
C2H4, a | 110, 149 |
haloalkencs, a | 113 |
hexenes, a | 35 |
2-methyl-5-acetylfurans, a | 34 |
nitrocyclohexene, a | 151 |
olefins, a | 113, 151 |
organic acids, a | 34 |
organic compounds, a | 35 |
pentynes, a | 34 |
piperylene isomers, a | 34 |
quinone, a | 75 |
soybean oil, a | 152 |
vinylcyclohexane, a | 151 |
Iridium, | |
adsorption and decomposition of hydrocarbons on, a | 31 |
corrosion | 33, 130 |
crucibles, a | 110,149 |
crystals, deformation of | 102 |
Ir192 isotope in HNO3manufacture | 127 |
oxidation, a | 107 |
passivation, a | 73 |
valve cathodes, a | 114 |
vapour pressure | 30, 134 |
Iridium Alloys, | |
with refractory metals, a | 31 |
Iridium-Boron, crystal structure, a | 72 |
Iridium-Iron, structure, a | 148 |
Iridium-Molybdenum, a | 71 |
Iridium-Niobium, crystal data, a | 148 |
superconducting phase, a | 148 |
Iridium-Osmium, phase diagram, a | 148 |
Iridium-Palladium, constitution, a | 148 |
Iridium-Platinum, crucibles, a | 74 |
viscosity of glass apparatus, a | 114 |
Iridium-Ruthenium, phase diagram, a | 148 |
Iridium-Tantalum, crystal data, a | 148 |
Iridium-Thorium, constitution, a | 71 |
Iridium-Titanium, superconductivity, a | 108 |
Iridium-Tungsten, constitution, a | 71 |
superconducting phase, a | 148 |
Iridium-Zirconium, superconductivity, a | 108 |
Iridium Complexes, structure, a | 72 |
with phenanthroline, a | 72 |
Klaus, research by | 67 |
Magnets, Pt alloy, circuit design for, | 82 |
Co-Pt, by powder metallurgy, a | 147 |
Nitric Acid, manufacture, Ir192 in | 127 |
Organometallic Compounds, of Pt metals | 16 |
Osmium, | |
carbides not formed, a | 148 |
oxidation, a | 107 |
semiconductors with As, P, S, Sb, Se, Te, a | 71 |
vapour pressure | 134,148 |
Osmium Alloys, with refractory metals, a | 31 |
Osmium-Boron, crystal structure, a | 72 |
Osmium-Iridium, phase diagram, a | 148 |
Osmium-Molybdenum, superconducting phase, a | 148 |
Osmium-Nickel, mechanical properties, a | 148 |
Osmium-Niobium, superconducting phase, a | 148 |
Osmium-Thorium, constitution, a | 71 |
Osmium Chloride Complexes, structure, a | 72 |
Osmium Complexes, halido- and hydrido-alkyl and -aryl, a | 72 |
Oxidation of, | |
C2H2, a | 149 |
alcohols, a | 35 |
NH3, a | 34 |
butylenes, a | 76 |
CO and CH3OH, a | 32 |
C2H4, a | 149 |
hydrocarbons, a | 152 |
H2, a | 74 |
CH4, a | 76 |
CH3OH, a | 73,152 |
olefins, a | 35, 112 |
organic compounds, a | 33 |
Pt | 50 |
Pt metals, a | 31 |
propylene, a | 35 |
steroid alcohols, a | 76 |
Oxygen, determination in gases, a | 110 |
Palladium, black, formation | 90 |
crucibles for polymerisations, a | 110 |
diffusion of H2 in, a | 33, 70 |
for brazing, a | 33 |
in precision glaze resistors | 22 |
oxidation, a | 107 |
vapour pressure | 134 |
Palladium Alloys, hydrogen diffusion, a | 29 |
in fuel cells, a | 36 |
Palladium-Aluminium,crystal structure, a | 70 |
Palladium-Arsenic, constitution, a | 108 |
superconductivity, a | 31 |
Palladium-Cadmium, magnetic susceptibility, a | 29 |
Palladium-Cobalt-Manganese,melting equilibrium, a | 147 |
Palladium-Copper, solid solutions, a | 29 |
Palladium-Dysprosium, magnetic properties, a | 107 |
Palladium-Gadolinium, magnetic properties, a | 9, 107 |
Palladium-Holmium, magnetic properties, a | 107 |
Palladium-Hydrogen, hysteresis, a | 30 |
Palladium-Iridium, magnetic susceptibility, a | 29 |
Palladium-Iridium, constitution, a | 148 |
Palladium-Iron, magnetic properties | 9 |
phase diagram below 950°C, a | 29 |
transformation kinetics, a | 29 |
Palladium-Iron-Copper, properties, a | 70 |
Palladium-Manganese, crystal and magnetic structure, a | 71 |
Palladium-Molybdenum, constitution, a | 70 |
Palladium-Nickel, heat capacity, a | 107 |
mechanical properties, a | 148 |
structure, a | 71 |
Palladium-Niobium, crystal data, a | 148 |
superconducting phase, a | 148 |
Palladium-Phosphorous, superconductivity, a | 31 |
Palladium-Platinum, absorption of H2andD2, a | 147 |
Palladium-Rhenium, properties, a | 29 |
Palladium-Rhenium-Tungsten, structure, a | 107 |
Palladium-Rhodium, effect of RH2O3, a | 147 |
magnetic susceptibility, a | 147 |
Palladium-Ruthenium, magnetic susceptibility, a | 29 |
Palladium-Silver, diffusion tubes, a | 33,114 |
hydrogen content, a | 30 |
self-diffusion of Pd in, a | 70 |
Palladium-Tantalum, crystal data, a | 148 |
Palladium-Terbium, magnetic properties, a | 107 |
Palladium-Thorium, constitution, a | 107 |
Palladium-Tungsten, constitution, a | 107 |
Palladium-Tungsten-Rhenium, structure, a | 107 |
Palladium-Uranium, phase diagram, a | 147 |
Palladium Complexes, a | 32, 109 |
Palladium Oxides, properties, a | 109 |
Petroleum Refining, aromatisation of gasoline, a | 111 |
duofunctional Pt catalysts | 2 |
Platinax II, circuit design | 82 |
Platinum, activated surfaces | 141 |
adsorption of halide ions, a | 73 |
adsorption of H2, a | 29 |
black, formation | 90 |
contamination, in glass industry | 122 |
crucibles, for polymerisations, a | 110 |
crucibles, in calorimeter, a | 110 |
film temperature probes | 146 |
filters, sintered | 54 |
furnace lining | 12 |
in election microscope, a | 33 |
in fuel cells, a | 36 |
mining at Rustenburg, increased output | 49 |
oxidation | 50, 107 |
O2 potential on, a | 33 |
reflecting films, a | 73 |
resistance changed by H2, a | 107 |
resistivity after low-temperature deformation, a | 108 |
thermal conductivity standard | 13, 107 |
thermal expansion coefficient, a | 107 |
thermodynamic properties, a | 70 |
vapour pressure | 134 |
valve parts in space I.C. engine | 8 |
wave guide termination | 15 |
Platinum Alloys, | |
Platinum-Aluminium,structure, a | 147 |
Platinum-Chromium, magnetic properties | 9 |
Platinum-Cobalt, magnetic properties, a | 147 |
permanent magnets | 82 |
Platinum-Cobalt-Chromium, ordering, a | 147 |
Platinum-Cobalt-Manganese, ordering, a | 147 |
Platinum-Gold, effect of rhodium | 133 |
Platinum-Iridium, crucibles, a | 74 |
viscosity of glass apparatus, a | 114 |
Platinum-Iron, expansion and elasticity, a | 29 |
Platinum-Iron, thermodynamic properties, a | 70 |
Platinum-Manganese, magnetic properties | 9 |
Platinum-Molybdenum, phase relations, a | 147 |
Platinum-Niobium, crystal data, a | 148 |
superconducting phase, a | 148 |
Platinum-Palladium, absorption of H2 and D2, a | 147 |
Platinum-Rhodium, durability of apparatus, a | 33 |
effect of RH2O3, | 147 |
furnace windings | 66, 98 |
in X-ray diffractometer furnace, a | 74 |
losses in HNO3 manufacture | 127 |
Platinum-Silver, solid solutions, a | 70 |
Platinum-Tantalum, crystal data, a | 148 |
Platinum-Thorium, constitution, a | 71 |
Platinum-Tungsten, strain gauges | 128 |
Platinum Complexes, a | 31, 72, 109 |
Platinum Fluorides, properties, a | 108 |
Platinum Halides, thermodynamic properties, a | 70 |
Platinum Metals, alloy powders | 140 |
carbonyl complexes, a | 108 |
fluorides, oxides, oxyfluorides, a | 31 |
in electrochemistry | 14 |
in fuel cells | 42 |
magnetic properties of alloys | 9 |
organometallic compounds | 16 |
oxidation, a | 31, 107 |
oxyanions, a | 31 |
phthalocyanines | 143 |
reactions with carbon | 101 |
research by Klaus | 67 |
superconductivity, a | 108 |
superconductors, a | 31 |
Refractories, electrical resistance of | 98 |
Resistance Thermometers, platinum,miniature elements, a | 115 |
Rhodium, coatings, stress and contamination | 55 |
crucibles, a | 110, 149 |
effect on Au-Pt system | 133 |
oxidation, a | 107 |
resistivity after cold work, a | 108 |
vapour pressure | 134 |
Rhodium Acetate, preparation and properties, a | 32 |
Rhodium Alloys, with refractory metals, a | 31 |
Rhodium-Antimony, phase diagram, a | 30 |
Rhodium-Arsenic, superconductivity, a | 31 |
Rhodium-Bismuth, constitution, a | 30 |
Rhodium-Copper, structure, a | 108 |
Rhodium-Iron, magnetic properties | 9, 59, 108 |
Rhodium-Manganese, magnetic properties | 9 |
Rhodium-Nickel, mechanical properties, a | 148 |
structure, a | 71, 108 |
Rhodium-Niobium, crystal data, a | 148 |
superconducting phase, a | 148 |
Rhodium-Palladium, effect of Rh2O3, a | 147 |
magnetic susceptibility, a | 29 |
Rhodium-Platinum, durability of apparatus, a | 33 |
effect of RH2O3, a | 147 |
furnace windings | 66, 98 |
in X-ray diffractometer furnace, a | 74 |
losses in HNO3 manufacture | 127 |
Rhodium-Tantalum, constitution, a | 148 |
Rhodium-Thorium, constitution, a | 71 |
Rhodium-Titanium, superconductivity, a | 30, 108 |
Rhodium-Zirconium, superconductivity, a | 30, 108 |
Rhodium Complexes, a | 72, 109 |
Rhodium Oxides, decomposition, a | 147 |
properties, a | 109 |
Ruthenium, carbides not formed, a | 148 |
corrosion resistance | 130 |
crucibles for polymerisations, a | 110 |
oxidation, a | 107 |
resistivity, a | 108 |
semiconductors with P, S, Se, Te, Sb, As, a | 71 |
vapour deposition, a | 149 |
vapour pressure, a | 30, 134, 148 |
Ruthenium Alloys, with refractory metals, a | 31 |
Ruthenium-Boron, crystal structure, a | 72 |
Ruthenium-Cerium, magnetic properties and superconductivity, a | 108 |
melting point of CeRu2, a | 30 |
Ruthenium-Gadolinium, magnetism and superconductivity, a | 108 |
Ruthenium-Iridium, phase diagram, a | 148 |
Ruthenium-Lanthanum, melting point ofLaRu2, a | 30 |
Ruthenium-Molybdenum,superconducting phase, a | 148 |
Ruthenium-Nickel, mechanical properties, a | 148 |
Ruthenium-Niobium, structure and properties, a | 71 |
Ruthenium-Palladium, magnetic susceptibility, a | 29 |
Ruthenium-Praseodymium, melting point of PrRu2, a | 30 |
Ruthenium-Tantalum, for nuclear reactor use, a | 31 |
structure, a | 30 |
Ruthenium-Thorium, constitution, a | 71 |
Ruthenium-Titanium, constitution, a | 30 |
Ruthenium-Tungsten, constitution, a | 148 |
for nuclear reactor use, a | 31 |
Ruthenium-Zirconium, constitution, a | 30 |
Ruthenium Chloride, preparation and magnetic properties, a | 32 |
Ruthenium Complexes | 72, 106, 109 |
Ruthenium Oxides, at high temperature, a | 72 |
reaction of tetroxide with C5H5N, a | 72 |
Ruthenium Tetrafiuoride, preparation and properties, a | 32 |
Ruthenocene, deposition of Ru film, a | 149 |
Strain Gauges, in jet engines | 128 |
Temperature Measurement, in steel making, a | 77 |
Pt film probes | 146 |
Thermal Conductivity, Pt reference standard | 13 |
Thermocouples, early history | 23 |
Iridium :Iridium-Rhodium, in microfurnace, a | 153 |
reference tables, a | 114 |
Palladium-Iridium-Platinum, reference tables, a | 114 |
Pallador, in dew-point meter, a | 115 |
Platinel II, reference tables and stability, a | 114 |
Platinum : Rhodium-Platinum, calibration | 145 |
in calorimeter, a | 110 |
in steel making, a | 11 |
resistivity of refractories apparatus | 98 |
viscosity of glass apparatus, a | 114 |
Rhodium-Platinum: Rhodium-Platinum, in steel making, a | 11 |
Tritium Labelling | 150 |