The Experimental Studies of Thermal Strain of Laminated Glass by Moire Interferometry Method;

The thermal stress and thermal strain are generated because of the different performances among them.

The results indicat e:that the thermal displacements of the weld increase with temperature;and that the thermal strain and the thermal stress also increase with temperature,just the same as what is shown in the theoretical analysis.

By means of loading unloading cooling fracture(LUCF) tests of three point bending specimens with a pre cracking facilitated by detailed observations upon fracture surface and FEM calculations of stress and strain at crack tip, the effect of warm pre straining(WPS) on fracture behavior of TiAl intermetallic alloys with near γ and fully lamellar α+γ is investigated.

The results indicated the formationof heat anomaly with 250～900 km width of the orogenic belt were mainly controlled by adiabatic heating and viscous strain heating of the thickened lithosphere, not by heating derivedfrom radiogenic, the scratching of faults and magmatic intrusion.

Comparative studies on the thermal stress and strain for polyacrylonitrile(PAN) precursors before and after modified during thermal-oxidation stabilization process were performed, for testifying the improvement of homogeny of structure of PAN precursors which were modified by using KMnO4.