Add to ORKGAccurately predicting the coefficient of thermal expansion for many aerospace components is critical to ensure proper functionality on orbit where the temperature gradient across a spacecraft can vary from +300 degrees F to -450 degrees F. Under these conditions, the linear approximations generated by theoretical equations no longer hold true, and experimental methods are needed. Although several methods exist for measuring the coefficient of thermal expansion of materials, laser interferometry yields high-resolution results, and the technique is widely accepted in the scientific community
Thermal expansion data for several composite materials, including generic epoxy resins, various grap...
WOS: 000445401900006It is shown herein that submicron-scale displacement can be measured with a simp...
In order to measure coefficients of thermal expansion of small samples varying from one to twenty mi...
Accurately predicting the coefficient of thermal expansion for many aerospace components is crit...
For space and terrestrial applications dimensionally highly stable materials are needed, e.g. to en...
In this article we present the status of our new setup to determine coefficients of thermal expansi...
Series of measurements on the thermal expansion coefficients of several aerospace alloys and standar...
QC 351 A7 no. 48New materials of low thermal expansion are finding wide application. The expansion c...
In our structural dimensional metrology laboratory, we implemented a setup to determine coefficients...
Thermal expansion coefficient is a basic physical property which can be of great importance in mecha...
Space missions with the aim of high precision optical measurements are often limited by the dimensio...
Thermal expansion coefficient is a basic physical property which can be of great importance in mecha...
It is shown herein that submicron-scale displacement can be measured with a simple optical arrangeme...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
Space applications demand light weight materials with excellent dimensional stability for telescopes...
Thermal expansion data for several composite materials, including generic epoxy resins, various grap...
WOS: 000445401900006It is shown herein that submicron-scale displacement can be measured with a simp...
In order to measure coefficients of thermal expansion of small samples varying from one to twenty mi...
Accurately predicting the coefficient of thermal expansion for many aerospace components is crit...
For space and terrestrial applications dimensionally highly stable materials are needed, e.g. to en...
In this article we present the status of our new setup to determine coefficients of thermal expansi...
Series of measurements on the thermal expansion coefficients of several aerospace alloys and standar...
QC 351 A7 no. 48New materials of low thermal expansion are finding wide application. The expansion c...
In our structural dimensional metrology laboratory, we implemented a setup to determine coefficients...
Thermal expansion coefficient is a basic physical property which can be of great importance in mecha...
Space missions with the aim of high precision optical measurements are often limited by the dimensio...
Thermal expansion coefficient is a basic physical property which can be of great importance in mecha...
It is shown herein that submicron-scale displacement can be measured with a simple optical arrangeme...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
Space applications demand light weight materials with excellent dimensional stability for telescopes...
Thermal expansion data for several composite materials, including generic epoxy resins, various grap...
WOS: 000445401900006It is shown herein that submicron-scale displacement can be measured with a simp...
In order to measure coefficients of thermal expansion of small samples varying from one to twenty mi...