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Application Notes and Technical Tips

Application Notes

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

 

Technical Tips

Number  Title Information
2 Uninterruptible Power Supply for Use with the ASAP 2020 ASAP 20xx
3 Using the Minimum Signal Fraction Feature in the Saturn DigiSizer Application Saturn
4 Applying a New Baseline to Data in a SediGraph Sample information File SediGraph
5 Deleting Unused Templates from the 21 CFR Part 11 Confirm Software 21 CFR Part 11
6 Using Vapors with the AutoChem AutoChem
7 64-Bit Compatibility with Micromeritics Applications 64-Bit
9 TCD Calibration of the AutoChem Using High-Purity Metal Oxides Isothermal Jacket
10 Numeric-Entry Anomaly in Certain Windows Operating Environments AccuPyc
13 Proper Position for Dewar with a Handle Dewar
14 Minimum Surface Area Measurements with Micromeritics Physisorption Analyzers Gemini


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