Request for Quote
Stay competitive! Through Delivery Time, Quantity and Price!
Download Titanex' stocklists (Ti)
Anfrage / Bedarf
Steigern Sie Ihre Wettbewerbsfähigkeit! Durch Lieferzeit, Menge und Preis!
Titanex' Lagerlisten holen!
» Zirconium 702 /705 ASME Allowable Stress
Both Zirconium alloys are approved for use in the construction of pressure vessels designed to the ASME Boiler and Pressure Vessel Code.Zirconium 705 requires a stress relief heat treatment within 14 days after welding. Table 8 lists the allowable stress values for Zirconium alloys per the ASME Boiler and Pressure Vessel Code, Section II part D,1997 addended edition.
Fatigue Limit Zirconium alloys exhibit a fatigue limit behavior (stress below which failure will not occur)similar to most ferrous alloys. At ambient temperatures,however,Zirconium alloys exhibit somewhat higher ultimate tensile strengths in the direction transverse to the rolling direction. This property of higher strengths in the transverse direction is unlike most ferrous alloys and is due to the orientation and directional properties of the hexagonal close-packed crystalline structure of alpha zirconium opposed to the body-centered cubic crystalline structure of alpha iron. This increase in strength in the transverse direction is more significant at stresses above the fatigue limit.
Table 9 shows the S-N flexure fatigue curves for both notched and unnotched round zirconium specimens.The theoretical elastic stress-concentration factor,K t , is 3.5 and was derived from Neuber plots. The strength reduction factor,K f ,defined as the ration of unnotched to notched fatigue strength is 2.6 at room temperature and 1.6 at 400 °C. Table 10 provides fatigue data for unalloyed iodide zirconium and Zirconium 705.
In order to keep the information instaed of linking to a probabely none existing page those information are provided from alleghenytechnologies