复杂铝合金圆盘的等温精密锻造英文文献和中文翻译(4)

sample exhibits the dominant dynamic recrystallization at the deformation temperature of 460 1C, as shown in Fig。 6。 It can be

observed from Fig。 6(a) that in the as-received microstructure of 7A09 aluminum alloy, the grains are obviously elongated along the axial direction, which means that aluminum alloy bar is subjected to plastic working。 However, it can be found from Fig。 6(b) that in the microstructure of 7A09 aluminum alloy subjected to compres- sion at the high strain rate of 10 s−1, the grains exhibit the equiaxed ones, which means that dynamic recrystallization pre- vails。 It can be generally accepted that dynamic recrystallization is difﬁcult to take place in the aluminum alloy with high fault energy。 However, there have been the literatures [24–26] demonstrating that dynamic recrystallization can occur during hot working of aluminum alloy at the high strain rates。 The mechanism

Fig。 3。 3D model of isothermal precision forging die: (a) top die and (b) bottom die。

Fig。 4。 Scheme of rotating disk preform: (a) ring preform and (b) pentagram preform。

Fig。 5。 The true stress–strain curves of 7A09 aluminum alloy under hot compression: (a) ε_ ¼ 0。01 s−1; (b) ε_ ¼ 0。1 s−1; (c) ε_ ¼ 1 s−1 and (d) ε_ ¼ 10 s−1。

of dynamic recrystallization of 7A09 aluminum alloy during hot compression deformation can be described as follows。 It is gen- erally accepted that the recrystallized grains ﬁrstly nucleate at the local region which possesses a high density of dislocations in the initial microstructure subjected to a certain plastic deformation degree, and then they grow up with the increase in the plastic strain。 With the progression of the plastic deformation, the recrystallized grains stop growing and undergo a certain plastic

deformation。 Consequently, the new crystal nuclei occur at the local region with a high density of dislocations in the recrystallized grains formed previously, and thus the new recrystallized grains arise repeatedly until the plastic deformation ﬁnishes。 It can be concluded that dynamic recrystallization is characterized by repeated nucleation and ﬁnite growth of the recrystallized grains。 On the one hand, the high strain rates lead to the rapid increase in the dislocation density and consequently have an adverse

Fig。 6。 Microstructures of 7A09 aluminum alloy samples: (a) as received and (b) dynamic recrystallized。

alloy。 The constitutive equation of 7A09 aluminum alloy is based on the Arrhenius type equation [27,28]:

ε_ ¼ A½sinhðαsÞ] exp − RT

where ε_ is the strain rate, s is the ﬂow stress, T is the absolute temperature, Q is the activation energy, R is the universal gas

constant ð8:314 J mol constants。

Þ, and A, α and n are the material

In order to further obtain the material constants in Eq。 (1) according to the experimental data, it is necessary to simplify Eq。 (1) mathematically [29]。

When the low stress level leads to αso1, Eq。 (1) can be simpliﬁed as

Fig。 7。 The curves of the temperature rise versus the time of 7A09 aluminum alloy under hot compression at different strain rates。

inﬂuence on climb and cross-slip of the dislocations。 Therefore, dynamic recovery cannot be performed sufﬁciently and thus the 复杂铝合金圆盘的等温精密锻造英文文献和中文翻译(4):http://www.youerw.com/fanyi/lunwen_96941.html