| Number |
Title |
Information |
| 20 |
Bulk and Skeletal Density Computations for the AutoPore
|
AutoPore |
| 30 |
Effect of O2 Traces in the Carrier Gas on Quantifying the Active Species in Catalysts
|
Chemisorption |
| 66 |
Higher Accuracy Plus Faster Results When Measuring the Density of Commercial Items
|
AccuPyc |
| 73 |
Degas Backfill Gas Selection for Micromeritics Gas Adsorption Instruments
|
ASAP 20xx |
| 76 |
Density Determination of Plastic Film Using the AccuPyc
|
AccuPyc |
| 77 |
Measuring the Percent Solids of a Slurry with the AccuPyc 1330 Pycnometer
|
AccuPyc |
| 84 |
Liquid Nitrogen Level When Using Isothermal Jackets
|
Isothermal Jacket |
| 85 |
Ultraprecise Calibration for the AccuPyc
|
AccuPyc |
| 87 |
The Surface Area of Magnesium Stearate — An Excipient Used In Pharmaceuticals
|
Gemini |
| 91 |
Characterization of Medicinal Tablet Surface Area with the Gemini Series
|
Gemini |
| 93 |
Determining the Open Cell Content of Rigid Cellular Plastics with the AccuPyc Pycnometer
|
AccuPyc |
| 94 |
Particle Size Determination of Porous Powders Using the SediGraph
|
SediGraph |
| 96 |
Equilibrated versus Scanning Porosimetry
|
AutoPore |
| 97 |
Envelope Density Measurements by Micromeritics’ GeoPyc 1360 and Other Methods
|
GeoPyc |
| 98 |
Diversity of Applications of the GeoPyc
|
GeoPyc |
| 99 |
Evaluating Catalyst Substrates with the GeoPyc
|
GeoPyc |
| 101 |
Agreement of GeoPyc Data with Other Methods
|
GeoPyc |
| 102 |
The Role of Calibration When Using the GeoPyc
|
GeoPyc |
| 103 |
Volume Measurement Method Affects Density Results
|
GeoPyc |
| 104 |
Determining Free-Space Values for ASAP Series Micropore Analyses
|
ASAP 20xx |
| 105 |
Helium Effects on ASAP Series Micropore Analyses
|
ASAP 20xx |
| 106 |
T.A.P. Density as Obtained with the GeoPyc
|
GeoPyc |
| 107 |
Determining the Force or Pressure to Use for T.A.P. (Bulk) Density with the GeoPyc
|
GeoPyc |
| 108 |
New Capability for the GeoPyc Makes Visible the Percent of the DryFlo Bed Occupied by the Sample
|
GeoPyc |
| 109 |
Attaining Envelope Density Reproducibility and Accuracy with Your GeoPyc
|
GeoPyc |
| 112 |
Optimize Free-Space Correction for Low Surface Area Samples Using the Gemini Analyzer
|
Gemini |
| 113 |
Sample-Weighing Precision with the AccuPyc, 1-cm3 Capacity
|
AccuPyc |
| 116 |
Accuracy of Vapor Dosing with the AutoChem
|
AutoChem |
| 117 |
Using the GeoPyc T.A.P. Density Analyzer to Measure Bulk Density and Packing Volume of Mixed Food Powders
|
GeoPyc |
| 119 |
Using the Elzone® to Detect Low Numbers of Large or Agglomerated Particles
|
Elzone |
| 120 |
Temperature-Programmed Reduction Using the AutoChem
|
AutoChem |
| 121 |
Establishing Sample Degassing Conditions for the FlowSorb
|
FlowSorb |
| 122 |
AutoChem and Mass Spectrometer Gas Calibration
|
AutoChem |
| 124 |
Gas Combinations for the AutoChem
|
AutoChem |
| 125 |
Analyzing Magnetic Materials Using the Elzone
|
Elzone |
| 127 |
The Mayer-Stowe Method for Determining Particle Size Using the AutoPore IV Series Porosimeters
|
AutoPore |
| 128 |
Using BalanceTalk Software With Micromeritics Instruments
|
Software |
| 129 |
Using the Correct Penetrometer Constant with your Mercury Porosimeter
|
AutoPore |
| 130 |
Analysis of Terephthalic Acid Using the Saturn DigiSizer
|
Saturn |
| 132 |
The Effect of Particle Size on the Manufacture of Chocolate Products
|
Saturn |
| 133 |
Measuring Monosize Particles with the Saturn DigiSizer
|
Saturn |
| 134 |
Characterization of Acid Sites Using Temperature-Programmed Desorption
|
AutoChem |
| 135 |
Thermocouple Calibration for the AutoChem – Thermostar Interface
|
AutoChem |
| 136 |
Using the ASAP 2020 for Determining the Hydrogen Adsorption Capacity of Powders and Porous Materials
|
ASAP 20xx |
| 137 |
Particle Size Analysis of Powdered Aspirin Using the Saturn DigiSizer
|
Saturn |
| 138 |
Particle Size Distribution Analysis of Porous Powders Using the Saturn DigiSizer 5
|
Saturn |
| 139 |
Micropore Analysis of Zeolites Using the ASAP 2420
|
ASAP 2420 |
| 140 |
Performance Testing Porous Aluminas Using the TriStar Surface Area and Porosity Analyzer
|
TriStar |
| 141 |
Acid Site Characterization of H+ ZSM-5 (SiO2/Al2O3:30/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 142 |
Acid Site Characterization of H+ β (SiO2/Al2O3:150/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 143 |
Acid Site Characterization of H+ Mordenite (SiO2/Al2O3:90/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 144 |
Acid Site Characterization of H+ Y (SiO2/Al2O3:5.2/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 145 |
Acid Site Characterization of H+ Y (SiO2/Al2O3:30/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 146 |
Acid Site Characterization of H+ Y (SiO2 /Al2 O3 :80/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 147 |
Acid Site Characterization of H+ Y (SiO2 /Al2 O3 :80/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 148 |
Acid Site Characterization of H+ ß (SiO2/Al2O3:75/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 149 |
Acid Site Characterization of NH4+ ZSM-5 (SiO2 /Al2 O3 :30/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 150 |
Acid Site Characterization of NH4+ ZSM-5 (SiO2 / Al2 O3 :50/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 151 |
Acid Site Characterization of NH4 + ZSM-5 (SiO2 /Al2 O3 :80/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 152 |
Acid Site Characterization of NH4+ ZSM-5 (SiO2 / Al2 O3 :280/1): A Pulse Chemisorption and TPD Application
|
AutoChem |
| 153 |
The Measurement of Pharmaceutical Lubricants Using the TriStar II Krypton Option
|
TriStar |
| 154 |
The Measurement of Pharmaceutical Binders Using the TriStar II Krypton Option
|
TriStar |
| 157 |
Improved BJH Pore Size Distribution Using the Maximum Volume Increment Option
|
BJH |
| 158 |
The Effect of Particle Shape on Particle Size Measurement
|
Particle Size |
| 160 |
Degas Options for Sample Preparation
|
Degas |
| 161 |
Specific Surface Area Measurement of Intact Lyophilized Cakes
|
ASAP 20xx |
| 163 |
Expanding the Material Characterization “Toolbox” for Excipient and Active Pharmaceutical Ingredient (API) Vendor Qualification
|
Excipients |
| 164 |
Asphalt Density Using AccuPyc II TEC
|
AccuPyc |
| 165 |
Adding a Custom Model to the NLDFT Library: A CO2 GCMC Model for Carbons
|
NLDFT |