![Scientific and technical journal «Priborostroenie»](/images/mag-pr.png)
EVALUATION OF EFFECTIVE THERMAL CONDUCTIVITY OF BASALT-FIBER REINFORCED COMPOSITE MATERIAL BY THE METHOD OF STATIONARY THERMAL MODE
![Scientific and technical journal «Priborostroenie»](/images/mag-pr.png)
Annotation
Effective thermal conductivity and thermal resistance of a plate fragment made of basalt-fiber reinforced composite material are derived from stationary thermal mode measurement data. The experimental setup includes a climate chamber, precision signal converter Tercon, and special thermal flux converters PTP-1B with built-in temperature sensors. Initial data for calculation of thermal conductivity has been obtained with the use of computer code developed in Borland Delphi 7 as a Windows application. High strength reinforced plate is reported to have almost the same effective thermal conductivity as the "classic" thermal insulation materials (glass wool, slag wool) which do not possess the required strength.
Keywords
Постоянный URL
Articles in current issue
- ADAPTIVE CONTROL OF UNCERTAIN SYSTEMS UNDER CONDITIONS OF MEASUREMENTS WITH DYNAMIC QUANTIZER
- METHOD OF OPERATION CONTROL OVER COMBINATORY LOGIC DEVICE BASED ON 2-OUT-OF-4 CODE
- ENSURING PIEZOELECTRIC DRIVE ROBUSTNESS USING THE METHOD OF CONTROLLED RELATIVE INTERVAL FREQUENCY
- SYNTHESIS OF COMPLEX FILTER WITH SPECIFIED TRANSFER FUNCTION
- MATHEMATICAL FORMALISM FOR DIAGNOSING OF COMPLEX TECHNICAL SYSTEM
- USE OF PARETO DIAGRAM FOR ENSURING QUALITY OF INTEGRATED CIRCUIT FUNCTIONING
- OPTICAL-ELECTRONIC AUTOCOLLIMATOR FOR TWO-COORDINATE ANGULAR MEASUREMENTS
- ANALYSIS OF REFLECTION CHARACTERISTICS OF THE UNDERLYING SURFACE AT SLANT RANGE MEASUREMENT
- EVALUATION OF EFFECTIVE THERMAL CONDUCTIVITY OF BASALT-FIBER REINFORCED COMPOSITE MATERIAL BY THE METHOD OF STATIONARY THERMAL MODE
- SIMULATION OF THERMAL CONDUCTIVITY OF THREE-COMPONENT COMPOSITION
- DESIGN AND MANUFACTURING OF INJECTION MOLDING TOOLING IN SMALL-SCALE PRODUCTION
- EXPERIENCE IN SINGLE AND SMALL BATCH PRODUCTION OF OPTICAL-MECHANICAL SYSTEMS
- AN INSTRUMENT FOR MEASURING Z-PARAMETERS OF PASSIVE MULTI-ELEMENT TWO-PORT NETWORKS