« Conductivité thermique » : différence entre les versions
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<measure_1> a <MeasureThermalConductivity> ; | <measure_1> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 234. | <value> 234.551014 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 9.979 . | <temperature> 9.979 . | ||
<measure_2> a <MeasureThermalConductivity> ; | <measure_2> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 461. | <value> 461.330583 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 11.979 . | <temperature> 11.979 . | ||
<measure_3> a <MeasureThermalConductivity> ; | <measure_3> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 476. | <value> 476.399526 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 13.998 . | <temperature> 13.998 . | ||
<measure_4> a <MeasureThermalConductivity> ; | <measure_4> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 597. | <value> 597.414094 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 15.993 . | <temperature> 15.993 . | ||
<measure_5> a <MeasureThermalConductivity> ; | <measure_5> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 576. | <value> 576.673615 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 17.994 . | <temperature> 17.994 . | ||
<measure_6> a <MeasureThermalConductivity> ; | <measure_6> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 580. | <value> 580.18423 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 19.994 . | <temperature> 19.994 . | ||
<measure_7> a <MeasureThermalConductivity> ; | <measure_7> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 499. | <value> 499.442992 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 21.998 . | <temperature> 21.998 . | ||
<measure_8> a <MeasureThermalConductivity> ; | <measure_8> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 484. | <value> 484.013314 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 24.002 . | <temperature> 24.002 . | ||
<measure_9> a <MeasureThermalConductivity> ; | <measure_9> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 477. | <value> 477.516508 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 25.994 . | <temperature> 25.994 . | ||
<measure_10> a <MeasureThermalConductivity> ; | <measure_10> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 419. | <value> 419.502658 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 28.002 . | <temperature> 28.002 . | ||
<measure_11> a <MeasureThermalConductivity> ; | <measure_11> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 379. | <value> 379.742866 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 29.998 . | <temperature> 29.998 . | ||
<measure_12> a <MeasureThermalConductivity> ; | <measure_12> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 343. | <value> 343.258597 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 31.997 . | <temperature> 31.997 . | ||
<measure_13> a <MeasureThermalConductivity> ; | <measure_13> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 321. | <value> 321.5649 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 34.0 . | <temperature> 34.0 . | ||
<measure_14> a <MeasureThermalConductivity> ; | <measure_14> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 291. | <value> 291.592309 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 35.992 . | <temperature> 35.992 . | ||
<measure_15> a <MeasureThermalConductivity> ; | <measure_15> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 287. | <value> 287.934491 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 37.999 . | <temperature> 37.999 . | ||
<measure_16> a <MeasureThermalConductivity> ; | <measure_16> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 262. | <value> 262.800075 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 39.998 . | <temperature> 39.998 . | ||
<measure_17> a <MeasureThermalConductivity> ; | <measure_17> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 226. | <value> 226.809657 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 41.997 . | <temperature> 41.997 . | ||
<measure_18> a <MeasureThermalConductivity> ; | <measure_18> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 207. | <value> 207.574921 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 44.005 . | <temperature> 44.005 . | ||
<measure_19> a <MeasureThermalConductivity> ; | <measure_19> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 196. | <value> 196.600229 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 46.001 . | <temperature> 46.001 . | ||
<measure_20> a <MeasureThermalConductivity> ; | <measure_20> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 172. | <value> 172.965838 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 48.002 . | <temperature> 48.002 . | ||
<measure_21> a <MeasureThermalConductivity> ; | <measure_21> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 134. | <value> 134.56369 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 50.009 . | <temperature> 50.009 . | ||
<measure_22> a <MeasureThermalConductivity> ; | <measure_22> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 139. | <value> 139.726595 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 52.009 . | <temperature> 52.009 . | ||
<measure_23> a <MeasureThermalConductivity> ; | <measure_23> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 143. | <value> 143.884377 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 54.011 . | <temperature> 54.011 . | ||
<measure_24> a <MeasureThermalConductivity> ; | <measure_24> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 137. | <value> 137.21046 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 56.012 . | <temperature> 56.012 . | ||
<measure_25> a <MeasureThermalConductivity> ; | <measure_25> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 118. | <value> 118.469513 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 58.015 . | <temperature> 58.015 . | ||
<measure_26> a <MeasureThermalConductivity> ; | <measure_26> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 119. | <value> 119.409829 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 60.004 . | <temperature> 60.004 . | ||
<measure_27> a <MeasureThermalConductivity> ; | <measure_27> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 112. | <value> 112.234077 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 61.995 . | <temperature> 61.995 . | ||
<measure_28> a <MeasureThermalConductivity> ; | <measure_28> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 105. | <value> 105.496361 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 63.994 . | <temperature> 63.994 . | ||
<measure_29> a <MeasureThermalConductivity> ; | <measure_29> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 103. | <value> 103.98467 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 65.99 . | <temperature> 65.99 . | ||
<measure_30> a <MeasureThermalConductivity> ; | <measure_30> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 90. | <value> 90.307261 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 67.996 . | <temperature> 67.996 . | ||
<measure_31> a <MeasureThermalConductivity> ; | <measure_31> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 89. | <value> 89.681738 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 70.0 . | <temperature> 70.0 . | ||
<measure_32> a <MeasureThermalConductivity> ; | <measure_32> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 86. | <value> 86.892034 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 72.0 . | <temperature> 72.0 . | ||
<measure_33> a <MeasureThermalConductivity> ; | <measure_33> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 79. | <value> 79.939219 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 74.001 . | <temperature> 74.001 . | ||
<measure_34> a <MeasureThermalConductivity> ; | <measure_34> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 74. | <value> 74.035257 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 76.0 . | <temperature> 76.0 . | ||
<measure_35> a <MeasureThermalConductivity> ; | <measure_35> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 73. | <value> 73.478777 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 78.002 . | <temperature> 78.002 . | ||
<measure_36> a <MeasureThermalConductivity> ; | <measure_36> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 71. | <value> 71.763501 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 79.999 . | <temperature> 79.999 . | ||
<measure_37> a <MeasureThermalConductivity> ; | <measure_37> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 66. | <value> 66.229484 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 82.0 . | <temperature> 82.0 . | ||
<measure_38> a <MeasureThermalConductivity> ; | <measure_38> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 62. | <value> 62.338286 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 83.998 . | <temperature> 83.998 . | ||
<measure_39> a <MeasureThermalConductivity> ; | <measure_39> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 63. | <value> 63.247491 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 86.0 . | <temperature> 86.0 . | ||
<measure_40> a <MeasureThermalConductivity> ; | <measure_40> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 59. | <value> 59.970564 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 87.999 . | <temperature> 87.999 . | ||
<measure_41> a <MeasureThermalConductivity> ; | <measure_41> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 56. | <value> 56.397399 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 89.998 . | <temperature> 89.998 . | ||
<measure_42> a <MeasureThermalConductivity> ; | <measure_42> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 53. | <value> 53.816433 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 91.998 . | <temperature> 91.998 . | ||
<measure_43> a <MeasureThermalConductivity> ; | <measure_43> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 51. | <value> 51.213654 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 93.999 . | <temperature> 93.999 . | ||
<measure_44> a <MeasureThermalConductivity> ; | <measure_44> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 49. | <value> 49.520345 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 95.998 . | <temperature> 95.998 . | ||
<measure_45> a <MeasureThermalConductivity> ; | <measure_45> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 48. | <value> 48.201641 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 97.999 . | <temperature> 97.999 . | ||
<measure_46> a <MeasureThermalConductivity> ; | <measure_46> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 48. | <value> 48.286353 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 99.999 . | <temperature> 99.999 . | ||
<measure_47> a <MeasureThermalConductivity> ; | <measure_47> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 46. | <value> 46.96796 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 102.0 . | <temperature> 102.0 . | ||
<measure_48> a <MeasureThermalConductivity> ; | <measure_48> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 46. | <value> 46.113548 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 104.0 . | <temperature> 104.0 . | ||
<measure_49> a <MeasureThermalConductivity> ; | <measure_49> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 44. | <value> 44.418787 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 106.0 . | <temperature> 106.0 . | ||
<measure_50> a <MeasureThermalConductivity> ; | <measure_50> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 43. | <value> 43.654096 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 108.0 . | <temperature> 108.0 . | ||
<measure_51> a <MeasureThermalConductivity> ; | <measure_51> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 42. | <value> 42.592565 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 110.0 . | <temperature> 110.0 . | ||
<measure_52> a <MeasureThermalConductivity> ; | <measure_52> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 41. | <value> 41.37799 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 112.0 . | <temperature> 112.0 . | ||
<measure_53> a <MeasureThermalConductivity> ; | <measure_53> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 40. | <value> 40.498482 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 114.0 . | <temperature> 114.0 . | ||
<measure_54> a <MeasureThermalConductivity> ; | <measure_54> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 38. | <value> 38.602471 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 116.0 . | <temperature> 116.0 . | ||
<measure_55> a <MeasureThermalConductivity> ; | <measure_55> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 37. | <value> 37.882455 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 118.0 . | <temperature> 118.0 . | ||
<measure_56> a <MeasureThermalConductivity> ; | <measure_56> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 36. | <value> 36.686229 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 120.0 . | <temperature> 120.0 . | ||
<measure_57> a <MeasureThermalConductivity> ; | <measure_57> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 34. | <value> 34.969424 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 122.0 . | <temperature> 122.0 . | ||
<measure_58> a <MeasureThermalConductivity> ; | <measure_58> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 33. | <value> 33.332874 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 124.0 . | <temperature> 124.0 . | ||
<measure_59> a <MeasureThermalConductivity> ; | <measure_59> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 31. | <value> 31.904376 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 126.0 . | <temperature> 126.0 . | ||
<measure_60> a <MeasureThermalConductivity> ; | <measure_60> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 31. | <value> 31.265954 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 128.0 . | <temperature> 128.0 . | ||
<measure_61> a <MeasureThermalConductivity> ; | <measure_61> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 31. | <value> 31.021563 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 130.0 . | <temperature> 130.0 . | ||
<measure_62> a <MeasureThermalConductivity> ; | <measure_62> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 32. | <value> 32.08005 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 132.0 . | <temperature> 132.0 . | ||
<measure_63> a <MeasureThermalConductivity> ; | <measure_63> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 32. | <value> 32.4837 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 134.0 . | <temperature> 134.0 . | ||
<measure_64> a <MeasureThermalConductivity> ; | <measure_64> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 30. | <value> 30.653523 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 136.0 . | <temperature> 136.0 . | ||
<measure_65> a <MeasureThermalConductivity> ; | <measure_65> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 29. | <value> 29.506749 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 138.0 . | <temperature> 138.0 . | ||
<measure_66> a <MeasureThermalConductivity> ; | <measure_66> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 29. | <value> 29.096901 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 140.0 . | <temperature> 140.0 . | ||
<measure_67> a <MeasureThermalConductivity> ; | <measure_67> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 28. | <value> 28.887697 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 142.0 . | <temperature> 142.0 . | ||
<measure_68> a <MeasureThermalConductivity> ; | <measure_68> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 27. | <value> 27.377561 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 143.99 . | <temperature> 143.99 . | ||
<measure_69> a <MeasureThermalConductivity> ; | <measure_69> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 27. | <value> 27.680592 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 146.0 . | <temperature> 146.0 . | ||
<measure_70> a <MeasureThermalConductivity> ; | <measure_70> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 27. | <value> 27.58581 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 148.0 . | <temperature> 148.0 . | ||
<measure_71> a <MeasureThermalConductivity> ; | <measure_71> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 27. | <value> 27.362047 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 150.0 . | <temperature> 150.0 . | ||
<measure_72> a <MeasureThermalConductivity> ; | <measure_72> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 27. | <value> 27.092064 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 152.0 . | <temperature> 152.0 . | ||
<measure_73> a <MeasureThermalConductivity> ; | <measure_73> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 26. | <value> 26.527192 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 154.0 . | <temperature> 154.0 . | ||
<measure_74> a <MeasureThermalConductivity> ; | <measure_74> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 25. | <value> 25.292849 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 156.0 . | <temperature> 156.0 . | ||
<measure_75> a <MeasureThermalConductivity> ; | <measure_75> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 24. | <value> 24.923846 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 158.0 . | <temperature> 158.0 . | ||
<measure_76> a <MeasureThermalConductivity> ; | <measure_76> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 25. | <value> 25.15423 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 160.0 . | <temperature> 160.0 . | ||
<measure_77> a <MeasureThermalConductivity> ; | <measure_77> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 24. | <value> 24.941411 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 162.0 . | <temperature> 162.0 . | ||
<measure_78> a <MeasureThermalConductivity> ; | <measure_78> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 24. | <value> 24.652617 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 164.0 . | <temperature> 164.0 . | ||
<measure_79> a <MeasureThermalConductivity> ; | <measure_79> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 23. | <value> 23.772015 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 166.0 . | <temperature> 166.0 . | ||
<measure_80> a <MeasureThermalConductivity> ; | <measure_80> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 23. | <value> 23.942306 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 168.0 . | <temperature> 168.0 . | ||
<measure_81> a <MeasureThermalConductivity> ; | <measure_81> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 23. | <value> 23.852393 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 170.0 . | <temperature> 170.0 . | ||
<measure_82> a <MeasureThermalConductivity> ; | <measure_82> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 22. | <value> 22.954393 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 172.0 . | <temperature> 172.0 . | ||
<measure_83> a <MeasureThermalConductivity> ; | <measure_83> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 22. | <value> 22.815868 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 174.0 . | <temperature> 174.0 . | ||
<measure_84> a <MeasureThermalConductivity> ; | <measure_84> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 22. | <value> 22.548018 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 176.0 . | <temperature> 176.0 . | ||
<measure_85> a <MeasureThermalConductivity> ; | <measure_85> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 21. | <value> 21.922792 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 178.0 . | <temperature> 178.0 . | ||
<measure_86> a <MeasureThermalConductivity> ; | <measure_86> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 21. | <value> 21.79293 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 180.0 . | <temperature> 180.0 . | ||
<measure_87> a <MeasureThermalConductivity> ; | <measure_87> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 21. | <value> 21.615976 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 182.0 . | <temperature> 182.0 . | ||
<measure_88> a <MeasureThermalConductivity> ; | <measure_88> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 21. | <value> 21.598517 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 183.99 . | <temperature> 183.99 . | ||
<measure_89> a <MeasureThermalConductivity> ; | <measure_89> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 22. | <value> 22.331231 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 185.99 . | <temperature> 185.99 . | ||
<measure_90> a <MeasureThermalConductivity> ; | <measure_90> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 21. | <value> 21.792262 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 187.99 . | <temperature> 187.99 . | ||
<measure_91> a <MeasureThermalConductivity> ; | <measure_91> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 21. | <value> 21.012508 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 189.99 . | <temperature> 189.99 . | ||
<measure_92> a <MeasureThermalConductivity> ; | <measure_92> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 20. | <value> 20.999199 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 191.99 . | <temperature> 191.99 . | ||
<measure_93> a <MeasureThermalConductivity> ; | <measure_93> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 19. | <value> 19.877331 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 193.99 . | <temperature> 193.99 . | ||
<measure_94> a <MeasureThermalConductivity> ; | <measure_94> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 19. | <value> 19.28741 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 195.99 . | <temperature> 195.99 . | ||
<measure_95> a <MeasureThermalConductivity> ; | <measure_95> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 20. | <value> 20.389482 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 197.99 . | <temperature> 197.99 . | ||
<measure_96> a <MeasureThermalConductivity> ; | <measure_96> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 19. | <value> 19.060735 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 199.99 . | <temperature> 199.99 . | ||
<measure_97> a <MeasureThermalConductivity> ; | <measure_97> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 19. | <value> 19.184187 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 201.99 . | <temperature> 201.99 . | ||
<measure_98> a <MeasureThermalConductivity> ; | <measure_98> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 19. | <value> 19.028746 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 204.0 . | <temperature> 204.0 . | ||
<measure_99> a <MeasureThermalConductivity> ; | <measure_99> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 18. | <value> 18.678412 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 205.99 . | <temperature> 205.99 . | ||
<measure_100> a <MeasureThermalConductivity> ; | <measure_100> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 18. | <value> 18.606739 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 208.0 . | <temperature> 208.0 . | ||
<measure_101> a <MeasureThermalConductivity> ; | <measure_101> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 18. | <value> 18.670348 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 210.0 . | <temperature> 210.0 . | ||
<measure_102> a <MeasureThermalConductivity> ; | <measure_102> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 18. | <value> 18.392677 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 212.0 . | <temperature> 212.0 . | ||
<measure_103> a <MeasureThermalConductivity> ; | <measure_103> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 17. | <value> 17.50985 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 214.0 . | <temperature> 214.0 . | ||
<measure_104> a <MeasureThermalConductivity> ; | <measure_104> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 17. | <value> 17.530935 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 216.0 . | <temperature> 216.0 . | ||
<measure_105> a <MeasureThermalConductivity> ; | <measure_105> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 17. | <value> 17.146699 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 218.0 . | <temperature> 218.0 . | ||
<measure_106> a <MeasureThermalConductivity> ; | <measure_106> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.900194 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 220.0 . | <temperature> 220.0 . | ||
<measure_107> a <MeasureThermalConductivity> ; | <measure_107> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.783425 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 222.0 . | <temperature> 222.0 . | ||
<measure_108> a <MeasureThermalConductivity> ; | <measure_108> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.840033 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 224.0 . | <temperature> 224.0 . | ||
<measure_109> a <MeasureThermalConductivity> ; | <measure_109> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.560954 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 225.99 . | <temperature> 225.99 . | ||
<measure_110> a <MeasureThermalConductivity> ; | <measure_110> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.064778 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 228.0 . | <temperature> 228.0 . | ||
<measure_111> a <MeasureThermalConductivity> ; | <measure_111> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.36391 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 230.0 . | <temperature> 230.0 . | ||
<measure_112> a <MeasureThermalConductivity> ; | <measure_112> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.085469 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 232.0 . | <temperature> 232.0 . | ||
<measure_113> a <MeasureThermalConductivity> ; | <measure_113> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.290315 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 234.0 . | <temperature> 234.0 . | ||
<measure_114> a <MeasureThermalConductivity> ; | <measure_114> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.028084 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 236.0 . | <temperature> 236.0 . | ||
<measure_115> a <MeasureThermalConductivity> ; | <measure_115> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.142521 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 237.99 . | <temperature> 237.99 . | ||
<measure_116> a <MeasureThermalConductivity> ; | <measure_116> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 16. | <value> 16.143114 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 240.0 . | <temperature> 240.0 . | ||
<measure_117> a <MeasureThermalConductivity> ; | <measure_117> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 15. | <value> 15.752637 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 242.0 . | <temperature> 242.0 . | ||
<measure_118> a <MeasureThermalConductivity> ; | <measure_118> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 15. | <value> 15.921872 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 244.0 . | <temperature> 244.0 . | ||
<measure_119> a <MeasureThermalConductivity> ; | <measure_119> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 15. | <value> 15.79265 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 246.0 . | <temperature> 246.0 . | ||
<measure_120> a <MeasureThermalConductivity> ; | <measure_120> a <MeasureThermalConductivity> ; | ||
<protocol> <steady-state_method> ; | <protocol> <steady-state_method> ; | ||
<value> 15. | <value> 15.401321 ; | ||
<sample> "Sr2CuO3" ; | <sample> "Sr2CuO3" ; | ||
<temperature> 248.0 . | <temperature> 248.0 . | ||
</rdf> | </rdf> | ||
Ligne 770 : | Ligne 769 : | ||
<temperature> ?temperature . | <temperature> ?temperature . | ||
} | } | ||
ORDER BY ?temperature | ORDER BY ?temperature | ||
|chart=google.visualization.LineChart | | chart=google.visualization.LineChart | ||
}} | }} |
Version du 28 novembre 2020 à 18:38
Cette page présentera un protocole possible de mesure de la conductivité thermique ainsi que les résultats obtenus pour un exemple d'échantillon. Les résultats de la mesure effectuée seront placés dans l'onglet "Data". Une page Wikipédia est entièrement consacrée au phénomène de conductivité thermique que vous pouvez retrouver via le portail Conductivité thermique
Définition de la conductivité thermique
La conductivité thermique est une propriété physique traduisant la capacité d'un matériau à transférer la chaleur par unité de surface et de temps sous un gradient de température de 1 kelvin ou de 1 degré Celsius par mètre et ce, sans déplacement macroscopique de matière. Elle peut se noter λ, ou k et s'exprime en W.m-1.K-1. Pour un matériau homogène et isotrope, la conductivité thermique se retrouve classiquement dans la loi de Fourier en reliant la densité de flux de chaleur au gradient de température comme ci-dessous :
où :
- désigne la densité de flux de chaleur (W/m²),
- λ la conductivité thermique (W.m-1.K-1),
- l'opérateur gradien,
- T la température (K).
Lorsque le matériau est anisotrope, sa conductivité thermique varie selon les directions. Le λ mentionné dans la loi de Fourier peut alors s'exprimer par un tenseur de conductivité :
λ =
Avec les remarques suivantes :
- > 0
- =
Or, en définissant les axes de coordonnées selon des directions particulières, de simplifier le tenseur de conductivité en annulant tous les coefficients de la matrice qui ne sont pas des coefficients diagonaux. Le λ de la loi de Fourier s'exprime alors de la manière suivante :
λ =
Dans le cas très répandu d'un transfert de chaleur à travers une paroi d’épaisseur e dont les deux faces planes de surface S sont maintenues aux températures T1 et T2, avec T2 > T1), le flux de chaleur Φ (quantité de chaleur traversant le mur) en régime permanent s'exprime de la manière suivante :
Avec :
- Φ en W,
- λ en W.m-1.K-1,
- e en m,
- S en m2,
- T1, T2 en K.
Protocole de mesure de la conductivité thermique par la méthode de l'état stationnaire
Il existe plusieurs méthodes de mesure de la conductivité thermique d’un matériau comme les méthodes 3ω , la méthode Flash ou les méthodes calorimétriques. Les mesures proposées sur cette page ont été réalisées par la méthode de l’état stationnaire qui permet des mesures d’une grande précision dans l’intervalle de température 5 – 300 K. La technique est dite « méthode de l’état stationnaire » car les mesures sont réalisées quand le système est à l’équilibre thermique ou lorsque le gradient de température est stable. Montage
L’une des extrémités de l’échantillon de section A est fixée à un porte-échantillon (puit thermique) dont le rôle est d'évacuer le flux thermique traversant l'échantillon, et l’extrémité opposée à une chaufferette dissipant dans l’échantillon une puissance thermique Q obtenue par effet Joule, de manière à créer un gradient thermique le long de l’échantillon. Des thermocouples séparés par une distance L mesurent la différence de température ΔT le long de l’échantillon. Un troisième thermocouple, calibré, est également fixé à l’échantillon pour déterminer sa température moyenne (la température de mesure). La conductivité thermique est alors donnée par :
Sources d’erreurs
La précision de la mesure dépend des pertes thermiques. Celles-ci peuvent avoir plusieurs origines comme la conduction thermique par les fils des thermocouples, la convection du gaz résiduel, les radiations par les surfaces de l’échantillon ou les pertes dans la chaufferette. Afin de minimiser ces pertes, il convient de prendre certaines dispositions comme cela a été fait pour les résultats de mesure qui sont proposés sur cette page. Le système de mesure et l’échantillon sont placés dans une chambre de mesure sous vide (~10-6 mbar) afin de minimiser les pertes par convection. Cette chambre est elle-même enveloppée dans plusieurs boucliers thermiques dont la température est régulée (afin de minimiser les effets radiatifs). Enfin, les fils des thermocouples sont choisis de manière à conduire le moins possible la chaleur, il faut dans l’idéal qu’ils soient les plus longs et les plus fins possibles pour augmenter la résistance thermique des fils. Plus la température augmente et plus il est difficile de minimiser toutes ces pertes. Cette méthode de mesure à l’état stationnaire ne permet la mesure de la conductivité thermique qu’à des températures inférieures à la température ambiante.
Définition du graphe de connaissances
Schema
Ci-dessus le graphe RDF pour une unique mesure. L'exemple illustré est celui d'une mesure de CuCl2 . 2H2O. Toutes les mesures ont un graphe similaire. Il y a un total de 199 mesures.
A noter : toutes les mesures ne possèdent pas le même nombre de propriétés associées (notamment : <inverseValue> et <precision> ne sont pas toujours présents).
Vocabulaire
Base
BASE <https://data.escr.fr/wiki/Conductivité_thermique>
Préfixes
PREFIX rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#>
PREFIX rdfs: <http://www.w3.org/2000/01/rdf-schema#>
PREFIX xsd: <http://www.w3.org/2001/XMLSchema#>
PREFIX wd: <http://www.wikidata.org/entity/>
Classes
ProtocolMeasureThermalConductivity
<ProtocolMeasureThermalConductivity> rdf:type rdfs:Class .
- Protocole pour la mesure de la conductivité thermique
MeasureThermalConductivity
<MeasureThermalConductivity> rdf:type rdfs:Class .
- Mesure de la conductivité thermique
Propriétés
sample
<sample> rdf:type rdf:Property .
- Décrit le nom de l'échantillon étudié.
author
<author> rdf:type rdf:Property .
- Décrit le nom de l'expérimentateur.
date
<date> rdf:type rdf:Property .
- Décrit la date à laquelle la mesure a été effectuée.
protocol
<protocol> rdf:type rdf:Property .
- Décrit le protocole de la prise de mesure.
value
<value> rdf:type rdf:Property .
- Décrit la valeur de la susceptibilité magnétique.
temperature
<temperature> rdf:type rdf:Property .
- Décrit la température à laquelle la mesure a été faite, en °K.
lab
<lab> rdf:type rdf:Property .
- Décrit le nom du laboratoire qui possède et conserve la machine.
Prises de mesures
Sr2CuO3
<steady-state_method> a <ProtocolMeasureThermalConductivity> ;
<author> "Romuald Saint-Martin" ;
<date> "2020-11-16"^^xsd:date ;
<lab> "ICMMO".
<measure_1> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 234.551014 ;
<sample> "Sr2CuO3" ;
<temperature> 9.979 .
<measure_2> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 461.330583 ;
<sample> "Sr2CuO3" ;
<temperature> 11.979 .
<measure_3> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 476.399526 ;
<sample> "Sr2CuO3" ;
<temperature> 13.998 .
<measure_4> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 597.414094 ;
<sample> "Sr2CuO3" ;
<temperature> 15.993 .
<measure_5> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 576.673615 ;
<sample> "Sr2CuO3" ;
<temperature> 17.994 .
<measure_6> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 580.18423 ;
<sample> "Sr2CuO3" ;
<temperature> 19.994 .
<measure_7> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 499.442992 ;
<sample> "Sr2CuO3" ;
<temperature> 21.998 .
<measure_8> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 484.013314 ;
<sample> "Sr2CuO3" ;
<temperature> 24.002 .
<measure_9> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 477.516508 ;
<sample> "Sr2CuO3" ;
<temperature> 25.994 .
<measure_10> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 419.502658 ;
<sample> "Sr2CuO3" ;
<temperature> 28.002 .
<measure_11> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 379.742866 ;
<sample> "Sr2CuO3" ;
<temperature> 29.998 .
<measure_12> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 343.258597 ;
<sample> "Sr2CuO3" ;
<temperature> 31.997 .
<measure_13> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 321.5649 ;
<sample> "Sr2CuO3" ;
<temperature> 34.0 .
<measure_14> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 291.592309 ;
<sample> "Sr2CuO3" ;
<temperature> 35.992 .
<measure_15> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 287.934491 ;
<sample> "Sr2CuO3" ;
<temperature> 37.999 .
<measure_16> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 262.800075 ;
<sample> "Sr2CuO3" ;
<temperature> 39.998 .
<measure_17> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 226.809657 ;
<sample> "Sr2CuO3" ;
<temperature> 41.997 .
<measure_18> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 207.574921 ;
<sample> "Sr2CuO3" ;
<temperature> 44.005 .
<measure_19> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 196.600229 ;
<sample> "Sr2CuO3" ;
<temperature> 46.001 .
<measure_20> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 172.965838 ;
<sample> "Sr2CuO3" ;
<temperature> 48.002 .
<measure_21> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 134.56369 ;
<sample> "Sr2CuO3" ;
<temperature> 50.009 .
<measure_22> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 139.726595 ;
<sample> "Sr2CuO3" ;
<temperature> 52.009 .
<measure_23> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 143.884377 ;
<sample> "Sr2CuO3" ;
<temperature> 54.011 .
<measure_24> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 137.21046 ;
<sample> "Sr2CuO3" ;
<temperature> 56.012 .
<measure_25> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 118.469513 ;
<sample> "Sr2CuO3" ;
<temperature> 58.015 .
<measure_26> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 119.409829 ;
<sample> "Sr2CuO3" ;
<temperature> 60.004 .
<measure_27> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 112.234077 ;
<sample> "Sr2CuO3" ;
<temperature> 61.995 .
<measure_28> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 105.496361 ;
<sample> "Sr2CuO3" ;
<temperature> 63.994 .
<measure_29> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 103.98467 ;
<sample> "Sr2CuO3" ;
<temperature> 65.99 .
<measure_30> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 90.307261 ;
<sample> "Sr2CuO3" ;
<temperature> 67.996 .
<measure_31> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 89.681738 ;
<sample> "Sr2CuO3" ;
<temperature> 70.0 .
<measure_32> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 86.892034 ;
<sample> "Sr2CuO3" ;
<temperature> 72.0 .
<measure_33> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 79.939219 ;
<sample> "Sr2CuO3" ;
<temperature> 74.001 .
<measure_34> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 74.035257 ;
<sample> "Sr2CuO3" ;
<temperature> 76.0 .
<measure_35> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 73.478777 ;
<sample> "Sr2CuO3" ;
<temperature> 78.002 .
<measure_36> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 71.763501 ;
<sample> "Sr2CuO3" ;
<temperature> 79.999 .
<measure_37> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 66.229484 ;
<sample> "Sr2CuO3" ;
<temperature> 82.0 .
<measure_38> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 62.338286 ;
<sample> "Sr2CuO3" ;
<temperature> 83.998 .
<measure_39> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 63.247491 ;
<sample> "Sr2CuO3" ;
<temperature> 86.0 .
<measure_40> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 59.970564 ;
<sample> "Sr2CuO3" ;
<temperature> 87.999 .
<measure_41> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 56.397399 ;
<sample> "Sr2CuO3" ;
<temperature> 89.998 .
<measure_42> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 53.816433 ;
<sample> "Sr2CuO3" ;
<temperature> 91.998 .
<measure_43> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 51.213654 ;
<sample> "Sr2CuO3" ;
<temperature> 93.999 .
<measure_44> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 49.520345 ;
<sample> "Sr2CuO3" ;
<temperature> 95.998 .
<measure_45> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 48.201641 ;
<sample> "Sr2CuO3" ;
<temperature> 97.999 .
<measure_46> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 48.286353 ;
<sample> "Sr2CuO3" ;
<temperature> 99.999 .
<measure_47> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 46.96796 ;
<sample> "Sr2CuO3" ;
<temperature> 102.0 .
<measure_48> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 46.113548 ;
<sample> "Sr2CuO3" ;
<temperature> 104.0 .
<measure_49> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 44.418787 ;
<sample> "Sr2CuO3" ;
<temperature> 106.0 .
<measure_50> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 43.654096 ;
<sample> "Sr2CuO3" ;
<temperature> 108.0 .
<measure_51> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 42.592565 ;
<sample> "Sr2CuO3" ;
<temperature> 110.0 .
<measure_52> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 41.37799 ;
<sample> "Sr2CuO3" ;
<temperature> 112.0 .
<measure_53> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 40.498482 ;
<sample> "Sr2CuO3" ;
<temperature> 114.0 .
<measure_54> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 38.602471 ;
<sample> "Sr2CuO3" ;
<temperature> 116.0 .
<measure_55> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 37.882455 ;
<sample> "Sr2CuO3" ;
<temperature> 118.0 .
<measure_56> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 36.686229 ;
<sample> "Sr2CuO3" ;
<temperature> 120.0 .
<measure_57> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 34.969424 ;
<sample> "Sr2CuO3" ;
<temperature> 122.0 .
<measure_58> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 33.332874 ;
<sample> "Sr2CuO3" ;
<temperature> 124.0 .
<measure_59> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 31.904376 ;
<sample> "Sr2CuO3" ;
<temperature> 126.0 .
<measure_60> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 31.265954 ;
<sample> "Sr2CuO3" ;
<temperature> 128.0 .
<measure_61> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 31.021563 ;
<sample> "Sr2CuO3" ;
<temperature> 130.0 .
<measure_62> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 32.08005 ;
<sample> "Sr2CuO3" ;
<temperature> 132.0 .
<measure_63> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 32.4837 ;
<sample> "Sr2CuO3" ;
<temperature> 134.0 .
<measure_64> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 30.653523 ;
<sample> "Sr2CuO3" ;
<temperature> 136.0 .
<measure_65> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 29.506749 ;
<sample> "Sr2CuO3" ;
<temperature> 138.0 .
<measure_66> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 29.096901 ;
<sample> "Sr2CuO3" ;
<temperature> 140.0 .
<measure_67> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 28.887697 ;
<sample> "Sr2CuO3" ;
<temperature> 142.0 .
<measure_68> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 27.377561 ;
<sample> "Sr2CuO3" ;
<temperature> 143.99 .
<measure_69> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 27.680592 ;
<sample> "Sr2CuO3" ;
<temperature> 146.0 .
<measure_70> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 27.58581 ;
<sample> "Sr2CuO3" ;
<temperature> 148.0 .
<measure_71> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 27.362047 ;
<sample> "Sr2CuO3" ;
<temperature> 150.0 .
<measure_72> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 27.092064 ;
<sample> "Sr2CuO3" ;
<temperature> 152.0 .
<measure_73> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 26.527192 ;
<sample> "Sr2CuO3" ;
<temperature> 154.0 .
<measure_74> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 25.292849 ;
<sample> "Sr2CuO3" ;
<temperature> 156.0 .
<measure_75> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 24.923846 ;
<sample> "Sr2CuO3" ;
<temperature> 158.0 .
<measure_76> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 25.15423 ;
<sample> "Sr2CuO3" ;
<temperature> 160.0 .
<measure_77> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 24.941411 ;
<sample> "Sr2CuO3" ;
<temperature> 162.0 .
<measure_78> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 24.652617 ;
<sample> "Sr2CuO3" ;
<temperature> 164.0 .
<measure_79> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 23.772015 ;
<sample> "Sr2CuO3" ;
<temperature> 166.0 .
<measure_80> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 23.942306 ;
<sample> "Sr2CuO3" ;
<temperature> 168.0 .
<measure_81> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 23.852393 ;
<sample> "Sr2CuO3" ;
<temperature> 170.0 .
<measure_82> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 22.954393 ;
<sample> "Sr2CuO3" ;
<temperature> 172.0 .
<measure_83> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 22.815868 ;
<sample> "Sr2CuO3" ;
<temperature> 174.0 .
<measure_84> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 22.548018 ;
<sample> "Sr2CuO3" ;
<temperature> 176.0 .
<measure_85> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 21.922792 ;
<sample> "Sr2CuO3" ;
<temperature> 178.0 .
<measure_86> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 21.79293 ;
<sample> "Sr2CuO3" ;
<temperature> 180.0 .
<measure_87> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 21.615976 ;
<sample> "Sr2CuO3" ;
<temperature> 182.0 .
<measure_88> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 21.598517 ;
<sample> "Sr2CuO3" ;
<temperature> 183.99 .
<measure_89> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 22.331231 ;
<sample> "Sr2CuO3" ;
<temperature> 185.99 .
<measure_90> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 21.792262 ;
<sample> "Sr2CuO3" ;
<temperature> 187.99 .
<measure_91> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 21.012508 ;
<sample> "Sr2CuO3" ;
<temperature> 189.99 .
<measure_92> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 20.999199 ;
<sample> "Sr2CuO3" ;
<temperature> 191.99 .
<measure_93> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 19.877331 ;
<sample> "Sr2CuO3" ;
<temperature> 193.99 .
<measure_94> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 19.28741 ;
<sample> "Sr2CuO3" ;
<temperature> 195.99 .
<measure_95> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 20.389482 ;
<sample> "Sr2CuO3" ;
<temperature> 197.99 .
<measure_96> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 19.060735 ;
<sample> "Sr2CuO3" ;
<temperature> 199.99 .
<measure_97> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 19.184187 ;
<sample> "Sr2CuO3" ;
<temperature> 201.99 .
<measure_98> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 19.028746 ;
<sample> "Sr2CuO3" ;
<temperature> 204.0 .
<measure_99> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 18.678412 ;
<sample> "Sr2CuO3" ;
<temperature> 205.99 .
<measure_100> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 18.606739 ;
<sample> "Sr2CuO3" ;
<temperature> 208.0 .
<measure_101> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 18.670348 ;
<sample> "Sr2CuO3" ;
<temperature> 210.0 .
<measure_102> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 18.392677 ;
<sample> "Sr2CuO3" ;
<temperature> 212.0 .
<measure_103> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 17.50985 ;
<sample> "Sr2CuO3" ;
<temperature> 214.0 .
<measure_104> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 17.530935 ;
<sample> "Sr2CuO3" ;
<temperature> 216.0 .
<measure_105> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 17.146699 ;
<sample> "Sr2CuO3" ;
<temperature> 218.0 .
<measure_106> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.900194 ;
<sample> "Sr2CuO3" ;
<temperature> 220.0 .
<measure_107> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.783425 ;
<sample> "Sr2CuO3" ;
<temperature> 222.0 .
<measure_108> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.840033 ;
<sample> "Sr2CuO3" ;
<temperature> 224.0 .
<measure_109> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.560954 ;
<sample> "Sr2CuO3" ;
<temperature> 225.99 .
<measure_110> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.064778 ;
<sample> "Sr2CuO3" ;
<temperature> 228.0 .
<measure_111> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.36391 ;
<sample> "Sr2CuO3" ;
<temperature> 230.0 .
<measure_112> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.085469 ;
<sample> "Sr2CuO3" ;
<temperature> 232.0 .
<measure_113> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.290315 ;
<sample> "Sr2CuO3" ;
<temperature> 234.0 .
<measure_114> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.028084 ;
<sample> "Sr2CuO3" ;
<temperature> 236.0 .
<measure_115> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.142521 ;
<sample> "Sr2CuO3" ;
<temperature> 237.99 .
<measure_116> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 16.143114 ;
<sample> "Sr2CuO3" ;
<temperature> 240.0 .
<measure_117> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 15.752637 ;
<sample> "Sr2CuO3" ;
<temperature> 242.0 .
<measure_118> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 15.921872 ;
<sample> "Sr2CuO3" ;
<temperature> 244.0 .
<measure_119> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 15.79265 ;
<sample> "Sr2CuO3" ;
<temperature> 246.0 .
<measure_120> a <MeasureThermalConductivity> ;
<protocol> <steady-state_method> ;
<value> 15.401321 ;
<sample> "Sr2CuO3" ;
<temperature> 248.0 .