Die plastische Verformung von kadmiumlegierten Zinkeinkristallen (II)

Abstract: Es wird über den Einfluß der Temperatur und des Kadmiumgehaltes auf die Verfestigungskenngrößen von Zinkeinkristallen berichtet, die im dynamischen Zugversuch zwischen 90 und 573°K verformt wurden. Die reduzierten Verfestigungskoeffizienten ϑA/G3 und ϑB/G3 werden durch Kadmiumzusätze nicht verändert, die Einsatzspannung ϑC des Bereiches C dagegen erhöht und die Länge des Bereiches A vergrößert. Bei reinen und schwach legierten Kristallen ergibt sich unterhalb 200 °K ein Abfall der ϑA/G3‐Werte, für den statisch… Show more

“…For the assumed infinitely low rate of the deformation (stress equilibrium condition), τ r from equation (4) is equal to τ rc and could be directly used for the calculation of H(γ r ) according to the left hand side of the inequality in (2). H(γ r ) functions were calculated for the selected relationship between the force P and extension.…”

“…1) was registered only for a narrow range of test temperatures (i.e., 0.40-0.55 T m where T m -the melting point), and it is replaced by a two-stage (A and B) curve at the test temperature close to 0.7 T m . This change is accompanied by a rapid decrease in the work-hardening rate at stages A and B (to values close to zero) and the increase in the range of easy glide (A) [1][2][3][4][5][6][7]. The higher test temperature (above 0.7 Tm) leads to a decrease in plasticity and an increase in the value of the 'mean' work-hardening coefficient of zinc crystals [8,9].…”

Basal slip localization in zinc single crystals. The Considère analyses

“…For the assumed infinitely low rate of the deformation (stress equilibrium condition), τ r from equation (4) is equal to τ rc and could be directly used for the calculation of H(γ r ) according to the left hand side of the inequality in (2). H(γ r ) functions were calculated for the selected relationship between the force P and extension.…”

“…1) was registered only for a narrow range of test temperatures (i.e., 0.40-0.55 T m where T m -the melting point), and it is replaced by a two-stage (A and B) curve at the test temperature close to 0.7 T m . This change is accompanied by a rapid decrease in the work-hardening rate at stages A and B (to values close to zero) and the increase in the range of easy glide (A) [1][2][3][4][5][6][7]. The higher test temperature (above 0.7 Tm) leads to a decrease in plasticity and an increase in the value of the 'mean' work-hardening coefficient of zinc crystals [8,9].…”

Basal slip localization in zinc single crystals. The Considère analyses

Die Temperaturabhängigkeit der Verfestigungskenngrößen von Magnesiumeinkristallen

Low-temperature plasticity observations of superconducting Pb-Sb alloys