TY - JOUR
AU - Lotsmanov, S.
AB - THE PRODUCTION OF EQUIPMENT V. A. Besednyi and S. N. Lotsmanov UDC 621.791.3:546.281 Type AT3 titanium alloy is included in the type AT six-component (Ti -At- Cr -Fe- Si -B) series of alloys containing variable quantities (3-8%) of aluminum with a constant total quantity of/3-stabilizing elements (Fe, Cr, Si, and B) within the limits of 1-1.8%. The structure of AT3 alloy is a single-phase solid solution with the stabilizers contained in the aIloy in quantities not exceeding their maximum solu- bility in a-titanium [1]. AT3 alloy is a medium strength alloy, welds quite well, and is worked by pressure [2]. The com- paratively large spread in the mechanical properties of the metal is a result of the fact that with certain deviations in the chemical composition of AT3 alloy or in the methods of working in the production of rolled products there is a breakdown in its single-phase nature with the formation of metastable ~-phase, intermetallides, or a'-phase. An increase in the content of fl-stabilizers, the formation of segregation zones, and the appearance of intermetallides may cause thermal instability of AT3 alloy and reduce its corrosion resistance and suitability for industrial production. We have investigated the effect of high-temperature 
TI - The contact-reactive brazing of AT3 alloy
JF - Chemical and Petroleum Engineering
DO - 10.1007/BF01152447
DA - 2005-01-28
UR - https://www.deepdyve.com/lp/springer-journals/the-contact-reactive-brazing-of-at3-alloy-EnfdE2szSG
SP - 1013
EP - 1015
VL - 11
IS - 11
DP - DeepDyve
ER -