Related by context. All words. (Click for frequent words.) 78 #degC [002] 71 #oF [001] 70 -# ° [002] 70 #F #C [001] 69 #.degree [001] 69 oC 69 #.degree [002] 69 degC 69 ° C 67 annealing temperature 66 Halifax Weather Overcast 66 Deg C 66 º C 66 +# º C [002] 66 ° C. 66 degreesC 66 -# degreesC 66 dielectric strength 65 W/cm2 65 #Â ° F [002] 65 degF 65 -# ° C. [002] 64 #Â ° C 64 #degreesC 64 +# degC [002] 64 -# ° C [001] 64 solder reflow 64 Â ° C. 64 +# ° C [002] 64 +# º C [001] 64 +# ° F. 64 degreesF 64 offgas 63 ° C ambient temperature 63 ° C/# ° F [001] 63 anneal 63 -# ˚ C 63 º C. 63 #oC [002] 63 +# oC 63 -# deg C 63 fluidised bed 63 magnetic stirrer 63 nitriding 63 +# degC [001] 63 W mK 63 deg F 62 -# º F [002] 62 cryogenic temperatures 62 cm ² 62 -# º C [002] 62 -# ° F [001] 62 #C #F [003] 62 Min Temp #.# 62 melt viscosity 62 +# degrees Celsius [001] 62 ⁰ C 62 #bar [001] 62 pyrolytic 62 +# deg C [001] 62 C 62 mK 62 thermally stable 62 microvolts 61 1μm 61 thermal conductivities 61 Mostly Cloudy Currently 61 Meanwhile preheat oven 61 thermodynamic properties 61 +# degreesC 61 +# ° C. [001] 61 ℃ 61 ˚ C 61 μW 61 ° F/# ° C [001] 61 conductivities 61 de asphalting 61 -# degrees Celsius [001] 61 preheater 61 hafnium oxide 61 SiO 2 61 #deg C 60 ohm cm 60 Liquid helium 60 asparagine containing food 60 #Â º C 60 ° C ambient 60 MWth 60 reflow temperatures 60 C0G 60 turbine inlet 60 exothermic 60 exotherm 60 Reheat leftovers 60 -# degrees Centigrade 60 Thermal conductivity 60 #.#kV [001] 60 Reduce oven 60 º Celsius 60 torr 59 ˚ F 59 ˚ F. 59 1kV 59 molar ratio 59 ˚ C. 59 pre preg 59 exothermic reaction 59 ° F 59 -# º C [001] 59 electrically insulating 59 kg hr 59 MPa 59 Max Temp 59 thermal EMF 59 4mA 59 ° -# ° [001] 59 isotherm 59 ammonia NH3 59 -# ° C. [001] 59 #bar [002] 59 μm thick 59 º Fahrenheit 59 tph 59 gigapascals 59 gelation 59 +# ° F 59 input capacitance 59 Min temp 59 MgO 59 Kelvin -# 59 elastic modulus 59 megapascals 59 martensite 59 ambient temperatures 59 PSIG 59 carbonization 59 #ppm ° C 59 formamide 59 kelvin 59 rotary kiln 58 -# Celsius [001] 58 Liquid nitrogen 58 carbon steels 58 reflow oven 58 flowrate 58 reflow soldering 58 sintered 58 dewpoint temperature 58 mbar 58 martensitic 58 5kV 58 degrees farenheit 58 carburizing 58 thermal decomposition 58 PREHEAT oven 58 moisture absorption 58 annealing 58 wetted parts 58 #Â ° C. 58 lb hr 58 paramagnetic 58 NaOH 58 μS cm 58 5ppm 58 Btu hr 58 #μ 58 thermal gradients 58 #Vdc [003] 58 kelvin -# 58 enthalpy 58 psig 58 SOFC stacks 58 voltage divider 58 superheated steam 58 -# ° Celsius [001] 58 milliampere 58 vaporisation 58 μm diameter 58 mOhm 58 thermic 58 kPa 58 +# deg C [002] 58 #.#kW [002] 58 sintering 58 +# degrees Celsius [002] 58 ¢ ª 58 rugged conduction cooled 58 microampere 58 eutectic 58 reflowed 58 vapor compression 58 ppm deg 58 mAh g 58 compressive stress 58 hydrolysis 57 scfm 57 austenitic stainless steels 57 Ionic liquids 57 electrochemically 57 pearlite 57 8mm diameter 57 -# degrees Fahrenheit [002] 57 ° C/# 57 degrees celcius 57 -# ° F [002] 57 PID controller 57 melt adhesives 57 BTU hr 57 thermal equilibrium 57 austenitic stainless steel 57 deionised water 57 Activated carbon 57 cryogenic cooling 57 1ppm 57 1mA 57 oxidative stability 57 #psi [003] 57 2μm 57 #um [002] 57 dielectric permittivity 57 thermocouples 57 cyclohexanone 57 thermo mechanical 57 #.#mA [002] 57 ferritic 57 #lm [001] 57 MWCNTs 57 SAC# 57 differential scanning calorimetry 57 cryostat 57 oxidative degradation 57 calcination 57 ohmic 57 m3 h 57 convection cooling 57 UL#V 0 57 ° C ± 57 Silicon Nitride 57 ZrO 2 57 MΩ 57 thermally conductive 57 milliohm 57 -# ° Fahrenheit 57 #.#nm [002] 57 º F 57 Annealing 57 Supercritical 57 #mΩ [001] 57 microwatt 57 mW/cm2 57 superheat 57 #.#VDC 57 HNBR 57 ultrahigh purity 57 ambient temperature 57 cm -2 57 centrifuged 56 crystallinity 56 aqueous dispersion 56 OCXOs 56 5μm 56 stoichiometric 56 asparagine 56 #.#deg [001] 56 leach circuit 56 ASTM C# [002] 56 mH 56 CaO 56 -# º C. 56 titanium nitride 56 +# ° C [001] 56 polymerized 56 photolysis 56 º F oven 56 -# ˚ 56 chromatographic separations 56 turbo compressor 56 annealing furnace 56 ferrite core 56 H#SO# 56 deg C 56 Pt# 56 flowrates 56 preheats 56 de ionized 56 ° Fahrenheit 56 polyimides 56 #Vac 56 degassing 56 viscosity 56 ° F -# ° 56 psia 56 UV VIS 56 calcined 56 isotherms 56 5mm x 6mm 56 NTC thermistor 56 tbsp butter 56 electroless copper 56 #um [001] 56 #.#μm [001] 56 +# deg C. 56 electrolytic capacitor 56 #m# h 56 ^ sup -1 56 thermosetting 56 ± #ppm [001] 56 viscosity liquids 56 LPCVD 56 tensile stress 56 kGy 56 molten salts 56 nitrided 56 upflow 56 kWe 56 boron trifluoride 56 reaction kinetics 56 degasser 56 mu m 56 TDFN packages 56 platinum Pt 56 flux residues 56 reflow solder 56 enzymatic hydrolysis 56 reduced graphene oxide 56 voltage coefficient 56 thermoelectric cooling 56 denaturation 56 hydroperoxide 56 Sn Pb 56 56 Fig. 2A 56 silicide 56 absorption spectroscopy 56 regrind 56 ° F/# ° C [002] 56 thermally activated 56 #V ac 56 VDDQ 56 selectivities 56 argon gas 56 5V input 56 thermoplastic polyester 56 μV 56 Fig. 4A 56 cm ³ 56 Pressure Transducer 56 superheater 56 TEGs 56 TappingMode 56 UV absorbance 56 μmol 56 nickel hydroxide 56 +# deg [002] 56 polymerisation 56 formate 55 -4 ° F 55 austenite 55 kA 55 oven preheated 55 cathodic 55 thermoplastic polymer 55 Tensile strength 55 ultrahigh vacuum 55 -#.# ° C 55 TiN 55 kinematic viscosity 55 PA6 55 polycondensation 55 mV V 55 coupling capacitor 55 shot peening 55 thermowells 55 viscosities 55 cored wire 55 Vdd 55 polymerizes 55 resistive element 55 supercritical carbon dioxide 55 m3/hr 55 halide 55 methanation 55 cuvette 55 homopolymer 55 nitric 55 dielectric withstanding voltage 55 hermeticity 55 peltier 55 polyacrylate 55 silicon Si 55 #m/min [002] 55 #MPa 55 absorption spectra 55 supercritical CO 55 shear mixers 55 Low Temperature 55 Thermocouples 55 μH 55 Method Preheat oven 55 mM NaCl 55 polymer electrolyte 55 vacuum brazing 55 glass frit 55 absorption coefficient 55 thermal dissipation 55 Fe Ni 55 ceramic composites 55 ceria 55 dielectric insulation 55 ZnSe 55 combustor 55 tin Sn 55 microchannel 55 Al#O# 55 zener diodes 55 tiny 3mm x 55 interfacial tension 55 thermoelectric coolers 55 poly L lysine 55 pentane 55 melt adhesive 55 #C oven 55 hydride 55 -# degrees Celcius 55 Heat wok 55 nanoliters 55 #VDC [002] 55 #A #V [002] 55 sodium chloride NaCl 55 InAs 55 Inconel 55 ferrites 55 desorption 55 Gcal h 55 membrane electrode assemblies MEAs 55 +5 VDC 55 dielectric constant 55 magnetocaloric effect 55 thermal annealing 55 microamp 55 Akulon 55 l h 55 megohms 55 Stanyl 55 cementite 55 mol L 55 crossflow 55 ppm ° C 55 evaporator coil 55 #degC [001] 55 resists corrosion 55 -4 ° 55 oxidises 55 mol 55 -# ° C [002] 55 #C/#F/Gas 55 unreacted 55 cup unsalted butter 55 ASTM E# [002] 55 fluidized bed 55 plate heat exchanger 55 Amperes 55 -# º [001] 55 viscous fluids 55 anticorrosive 55 8kV 55 hydrochloric acids 55 MSOP packages 55 #.#VI O 55 μg ml 55 rheological 55 pasteurisation 55 autosampler 55 flue gases 55 viscosity fluids 55 tensile strengths 55 APTIV film 55 cordierite 55 silicon oxynitride 55 hydroxyphenyl 55 hydrogen peroxide H#O# 55 emittance 55 derate 55 sorption 55 ICP mass spectrometry 55 fluxing 55 Mg Fe 55 amperometric 55 degassed 55 acid hydrolysis 55 superlattice 55 temperature coefficients 55 moisture vapor 55 Sorption 55 cm -3 55 wirewound resistors 55 #-#,# mm 54 #.#kW [004] 54 frictional heating 54 degree Centigrade 54 ksi 54 molybdenum disulfide 54 +# Vdc 54 weldability 54 +# º C. 54 electro galvanized 54 EtO 54 reflow soldering processes 54 microlitres 54 3kW 54 aliphatic 54 oxidation catalyst 54 Mpa 54 mesoporous 54 isothermal 54 vacuum distillation 54 MWNT 54 output capacitance 54 thermally 54 Victrex PEEK 54 2ppm 54 #,# bis 54 alkene 54 mpm 54 Pyrolysis 54 helium cooled 54 ammonia borane 54 C/# [003] 54 cryogenically cooled 54 #C/gas mark 54 luminous flux 54 overpressure 54 recrystallization 54 C#H# 54 thermodynamically 54 supernatant 54 compressibility 54 Input Voltage 54 pyrolysis 54 semiconductive 54 filter cartridges 54 catalytic oxidation 54 Degrees Fahrenheit 54 solvent evaporation 54 uncooled 54 NaCN 54 thermocouple 54 ° F. 54 mΩ 54 #.#um [001] 54 #V dc [002] 54 Au Pt 54 kelvins 54 steam condensers 54 Heatpipe 54 oxyfuel 54 #C #C [001] 54 InSb 54 Remove skillet 54 aqueous solvent 54 zirconium oxide 54 beta. 54 thermodynamically stable 54 amine scrubbing 54 -# deg [001] 54 GPa 54 ml min 54 #.#uF 54 +# º 54 thermoplastic polymers 54 ° C. Grease 54 kg -1 54 V ac 54 ZnS 54 +# degrees Centigrade 54 ceramic membranes 54 ° -# ° [002] 54 deg C. 54 pH electrode 54 pin 4mm x 54 macroporous 54 osmotic pressure 54 hysteresis 54 isotope fractionation 54 Desorption 54 oxidisation 54 bitumen emulsion 54 lowpass filter 54 #V dc [001] 54 corona discharge 54 polyamides 54 flexural 54 platens 54 underfill 54 nMOS 54 pyrophosphate 54 wettable 54 Bragg grating 54 gasketing 54 Coriolis meters 54 Voltages 54 volts mil 54 interfacial layer 54 annealing furnaces 54 CdSe 54 uniaxial 54 flotation tailings 54 dielectric layer 54 tricalcium phosphate 54 octene 54 Fischer Tropsch synthesis 54 melt processable 54 4mm thick 54 adiabatic 54 Nd YAG lasers 54 continuous annealing 54 hydrides 54 chromium chloride 54 SiO2 54 thermodynamic equilibrium 54 #/#Hz [001] 54 ferrite 54 rev min 54 UV lamp 54 #lm [002] 54 femtogram 54 #pF [002] 54 ballscrews 54 acrylamide formation 54 oxidation 54 ⁰ 54 #μF [002] 54 kbit 54 -# mV [002] 54 electrochemical capacitors 54 reflow 54 Particulate Reactor TM 54 #.#pF 54 solubilization 54 mosfet 54 milliamperes 54 NiCd battery 54 #pF [001] 54 raffinate 54 cadmium chloride 54 granulate 54 esterification 54 cm ^ sup 54 electrothermal 54 pMOS 54 #psi [001] 54 carbides 54 timebase 54 thermal impedance 54 Nm3 h 54 Si substrate 54 acetyl CoA 54 thermowell 54 GOA WEATHER Temp 54 Gcal 54 º F. 54 toroid 54 nitration 54 defoaming 54 g cm 54 magnetocaloric 54 integral nonlinearity INL 54 controlled crystal oscillator 54 #nm #nm [002] 54 calcium oxide 54 chemisorption 54 nanowatts 54 emission wavelength 54 nanotube arrays 53 fpm 53 boiler feedwater 53 #C #C [002] 53 #.#-# [029] 53 degrees Celcius 53 Hastelloy 53 polysulfone 53 1nm 53 degrees centigrade 53 rotary kilns 53 degas 53 plasma etching 53 fluid viscosity 53 entrapped doxorubicin 53 XC# [003] 53 tensile modulus 53 memset 53 Kelvins 53 corrosive fluids 53 0 dBm 53 yttria stabilized zirconia 53 conductive polymer 53 GaN layer 53 exhaust gasses 53 VCXO 53 bilayers 53 ATtiny# 53 ultrafiltration membranes 53 millisecond annealing 53 Directions Preheat oven 53 #.#W [003] 53 SO8 package 53 V dc 53 thermal oxidation 53 freezeproof 53 liquid nitrogen cooling 53 #Â º [001] 53 barium carbonate 53 ° C. Place 53 borane 53 copper oxide superconductors 53 yttrium oxide 53 #kN [001] 53 cuprate 53 #.#uA 53 CF4 53 hydrolytic stability 53 kcal mol 53 chalcogenide 53 flexural strength 53 stoichiometry 53 varistor 53 microamperes 53 demineralised water 53 RO membrane 53 ICP OES 53 crystalline modules 53 grease lubrication 53 inductive sensor 53 Ca2 + 53 CMOS transistors 53 absolute TCR 53 spindle speeds 53 Mosfet 53 graphite oxide 53 FeO 53 fluidized 53 fahrenheit 53 nonstick saucepan 53 Schottky rectifiers 53 #.#V [002] 53 flame retardance 53 screw compressors 53 molecular sieve 53 paraffins 53 solvation 53 supercritical CO2 53 magnetron sputtering 53 mL kg 53 #Vrms 53 magnetostrictive 53 ε 53 preheaters 53 absorption chiller 53 adsorptive 53 crosslinked 53 μg mL 53 perovskite 53 multicrystalline silicon 53 2oC 53 butylene 53 Serve chilled 53 kcal kg 53 epoxides 53 #.#oC [002] 53 optically transparent 53 Fig. 2b 53 #μA [002] 53 thermomechanical 53 conduction cooling 53 ° C. Lightly grease 53 RASIRC Steamer 53 silver dore bead 53 regenerable 53 dB insertion loss 53 6kW 53 #.#v [001] 53 gamma irradiation 53 Input voltage 53 #mΩ [002] 53 supercritical fluid 53 Stanyl ® 53 dielectric constants 53 NanoBridge 53 air cooled condenser 53 NiSi 53 polytetrafluoroethylene PTFE 53 laser irradiation 53 graphite furnace 53 5VDC 53 undoped 53 carbonyl 53 transmissivity 53 corrosion abrasion 53 -# º F [001] 53 autoclaves 53 feedthrough 53 microemulsion 53 reactant 53 testo 53 Thermally 53 AlGaAs 53 ppm boron 53 cam lobe 53 static dissipative 53 neodymium praseodymium 53 Aerogels 53 dielectric layers 53 μsec 53 thermal conduction 53 Fluorinated 53 flotation concentrate 53 photomultiplier tubes 53 tensile stresses 53 granulates 53 temprature 53 barg 53 hydrophobicity 53 μL 53 electrolyte salts 53 #nm laser [002] 53 barium titanate 53 ° C. Brush 53 emission spectroscopy 53 cyclohexane 53 vinyl ester resin 53 crystal oscillator 53 solubilize 53 PLLA 53 mT 53 #μm [002] 53 electrolyte membranes 53 Fig. 4b 53 amino acid asparagine 53 fuser 53 physiological pH 53 #.#v [004] 53 m³ h 53 particulate contamination 53 chipscale 53 R #a refrigerant 53 thermo 53 carboxylic acids 53 porous membranes 53 voltage MOSFET 53 modulus 53 amorphous silicon Si 53 preheating 53 Btuh 53 Reheat 53 dimethylformamide 53 diene 53 phototransistor 53 autoclaving 53 breakdown voltages 53 anodic 53 chromium oxide 53 feedwater 53 Glycol 53 MLCCs 53 evaporator coils 53 hydrostatically 53 microwatts 53 Granulation 53 manganese Mn 53 photon flux 53 #mm# [002] 53 adsorption 53 degumming 53 Reflow Oven 53 ° sec 53 CMOS fabrication 53 yttrium barium copper 53 manganite 53 #uA [001] 53 microcavity 53 +# deg [001] 53 Nanofiltration 53 supercritical fluids 53 self ballasted 53 chromium alloy 53 voltage #.#V 53 -5 ° C 53 Â ± 53 permanganate 53 combustors 53 2kW 53 outgas 53 propanol 53 3nm 53 water bath canner 53 P3HT 53 μm 53 TECs 53 excellent solderability 53 #/#V 53 H#O# 53 ° F oven 53 EGR cooler 53 #Vdc input 53 IP# enclosure 53 oxide thickness 53 #.#in [004] 53 -# degrees centigrade [002] 53 methylene 53 Li#CO# 53 austenitic 53 ceramic capacitor 53 XPH #TU 53 photomultiplier tube 53 Simmer stirring occasionally 53 polymer membranes 53 turbo generator 53 conductive epoxy 53 sulfation 53 dc voltage 53 hPa 53 isostatic 53 absorbance 53 μl 53 #.#-#.# degrees Fahrenheit [002] 53 #psi [002] 53 photon energies 53 XTreme Power 53 magnetically coupled 53 flowability 53 catalyser 53 torque transducer 53 CaCO 3 53 Preheat broiler 52 GOA WEATHER Max 52 composite laminates 52 TSSOP package 52 chromatography columns 52 methyl ethyl 52 Schematic illustration 52 GaN transistor 52 alkenes 52 #mohm 52 AEC Q# qualified 52 pinion shaft 52 UL# V0 52 input impedance 52 NTC thermistors 52 Gallium arsenide 52 psi 52 #kA [001] 52 #u [001] 52 √ Hz 52 #μs [002] 52 UV coatings 52 epoxide 52 vanadium oxide 52 millivolts 52 Fig. 1c 52 magnetic permeability 52 #ppm [002] 52 lamella 52 wph 52 NOx trap 52 Quiescent current 52 mm ² 52 nanometric 52 temperature coefficient 52 equilibration 52 carbonyls 52 TCXOs 52 #VAC [002] 52 preheated #F #C 52 Liquid Nitrogen 52 electrolyte membrane 52 glutaraldehyde 52 #C #.#F [001] 52 micrometer scale 52 photoconductive 52 condenser 52 elastomer seals 52 metastable 52 tetrahydrofuran 52 GaAs MESFET 52 LiNbO3 52 water vapor permeability 52 MIL HDBK #F 52 saucepan melt butter 52 AlN 52 superconductive materials 52 XLPE 52 AFUE 52 degrees fahrenheit 52 ASTM A# 52 milliamp 52 toroids 52 cyanate 52 hydrolytic 52 Si#DP