The crystallographic thermal expansion coefficients of Ti5Si3 from 20 to 10
00 degrees C as a function of B, C, N, O, or Ge content were measured by hi
gh-temperature x-ray diffraction using synchrotron sources at Cornell Unive
rsity (Cornell High Energy Synchrotron Source; CHESS) and Argonne National
Laboratory (Advanced Photon Source; APS). Whereas the ratio of the thermal
expansion coefficients along the c and a axes was approximately 3 for pure
Ti5Si3, this ratio decreased to about 2 when B, C, or N atoms were added. A
dditions of O and Ge were less efficient at reducing this thermal expansion
anisotropy. The extent by which the thermal expansion was changed when B,
C, N, or O atoms were added to Ti5Si3 correlated with their expected effect
on bonding In Ti5Si3.