The Orion spacecraft: made possible with advanced composite materials.  

The Orion spacecraft: made possible with advanced composite materials.  

best practices

Sample Preparation for Dielectric Measurements: Clean sensors with acetone, alcohol or other solvent to remove oils and contaminants. Solvent or water adsorbed onto the surface of the sensor normally will not interfere with cure monitoring because it is released at elevated temperatures and would not be present at typical process temperatures.

Dielectric Measurements During Post-Cure: Large composite structures such as an airplane wing are processed in autoclaves or molds that apply pressure to form the part until it has cured. The need to maximize use of this equipment may require cycling material through it as quickly as possible, and often a part is removed as soon as it has hardened enough to retain its shape. Afterwards, it may undergo post-cure in an oven for several hours to several days. During this time cure continues at elevated temperature until the composite material has hardened further or achieved other desired properties.

Reducing Noise in Dielectric Sensors: Lambient Technologies conducted several tests to measure noise with a Mini-Varicon sensor when used with the LT-451 Dielectric Cure Monitor, and demonstrated that electrical interference may be reduced effectively with grounded shields around the sensor.

Equipment to Monitor Batch Reactions: The measurement of dielectric properties, or Dielectric Analysis (DEA), is a useful method of monitoring and controlling polymerization in a batch reactor.  Previous work has shown that DEA could observe the free-radical polymerization of methyl methacrylate,1 where the change of log(ion viscosity) correlated with fractional monomer conversion and physical viscosity.

Diagnosing Instruments and Sensors: Occasionally it may be necessary to test either the LT-451 Dielectric Cure Monitor or the LTF-631 High Speed Dielectric Cure Monitor for proper operation.  Investigating the various parts of the system is important to establish that a component is working as expected, or to determine that a component is faulty.  The main, accessible links in the signal chain are:

  • Computer to instrument connection
  • Instrument to sensor or instrument to extension cable connection
  • Sensor

Interfacing to Terminal Blocks: How to use the start triggers and digital outputs.

LT-451 and LCR Meter Comparison: The Lambient Technologies LT-451 Dielectric Cure Monitor is designed for dielectric measurements of polymeric materials during the curing process, and a typical LCR (Inductance-Capacitance-Resistance) meter, such as the QuadTech 1920, is designed for high speed measurements of the electrical parameters of electronic components.

CureView LT-4203 Option: CureView has an option to facilitate ASTM D150 standard measurements with the LT-4203 Parallel Plate Test Fixture. This option allows the user to calibrate the LT-4203 for accurate measurements, make multiple measurements with calculation of average and standard deviation, and automatically calculate dielectric constant and dissipation for the contacting electrode method of measurement.

CureView Materials Properties Parameters: Material Properties are adjustable parameters used to extract the DC component of loss factor for conversion to ion viscosity.  Only derived data such as ion viscosity and resistivity are modified through the use of these material properties.  The raw data is always preserved unchanged, allowing trial and error adjustment of the material properties to obtain the most useful results.

Connecting Dielectric Sensors and Cables: Dielectric sensors connect directly to the instrument with a three-terminal Dielectric Sensor Connector or with an extension cable. To reduce noise in the response signal, the signal leads from the sensor should be shielded.