The slabs of a single crystal superalloy were poured with 2.2% Re, 3.2% Re and 4.2% Re and otherelement contents of the alloys were basicalIy kept no changed. The effects of Re on the ultimatetensile strength, creep r...The slabs of a single crystal superalloy were poured with 2.2% Re, 3.2% Re and 4.2% Re and otherelement contents of the alloys were basicalIy kept no changed. The effects of Re on the ultimatetensile strength, creep rupture life and rafting of a single crystal superalloy were studied. Theresults showed that with increasing Re content the ultimate tensile strength decreased but theplasticity increased at 649℃. and the creep rupture life remarkably increased while the plasticitydecreased at 982℃/248.2 MPa. 1038℃/206.8 MPa and 1070℃/176.8 MPa for the alloy, on themicrostructure aspect, with increasing the creep rupture life of the alloy the rafting was gettingbigger and bigger at the same test condition, and the rafting suppressed creep and increasedcreep rupture life in this single crystal superalloy.展开更多
A fourth generation single crystal(SC)nickel based cast superalloy DD15 with 1%Ru,3%Ru,5%Ru was prepared using vacuum induction single crystal furnace in order to optimize the properties and cost of DD15 alloy.The exp...A fourth generation single crystal(SC)nickel based cast superalloy DD15 with 1%Ru,3%Ru,5%Ru was prepared using vacuum induction single crystal furnace in order to optimize the properties and cost of DD15 alloy.The exposure experiment of three alloys was conducted at 1100℃for 1000 h.The stress rupture properties tests were performed at 1100℃temperature and 137 MPa pressure.The composition optimization of Ru element in DD15 alloy had been studied.It was found that the alloys with different Ru contents all consist of cuboidalγ′phase embedded coherent inγphase.Theγ′phase of the alloy all has a size of about 300-500 nm and a volume content of more than sixty percent.The dimension ofγ′precipitates is reduced and uniform with increase of Ru content.Ru element can reduce the distribution ratio of high melting point element,so the microstructural stability is enhanced with Ru content increasing.No topologically close-packed(TCP)phase precipitated in the 5%Ru alloy even after 1000 h exposure.The stress rupture life of the alloy is significantly improved as Ru content rising.The raft breadth decreases slightly as Ru content increases.The specimen with 1%Ru and 3%Ru exhibits the presence of TCP phases and without TCP phases precipitated in fracture specimen with 5%Ru.The density and integrity ofγ/γ′interfacial dislocation network increase as Ru content of the alloy rises.展开更多
文摘The slabs of a single crystal superalloy were poured with 2.2% Re, 3.2% Re and 4.2% Re and otherelement contents of the alloys were basicalIy kept no changed. The effects of Re on the ultimatetensile strength, creep rupture life and rafting of a single crystal superalloy were studied. Theresults showed that with increasing Re content the ultimate tensile strength decreased but theplasticity increased at 649℃. and the creep rupture life remarkably increased while the plasticitydecreased at 982℃/248.2 MPa. 1038℃/206.8 MPa and 1070℃/176.8 MPa for the alloy, on themicrostructure aspect, with increasing the creep rupture life of the alloy the rafting was gettingbigger and bigger at the same test condition, and the rafting suppressed creep and increasedcreep rupture life in this single crystal superalloy.
基金Sponsored by the National Science and Technology Major Project(Grant No.2017-VI-0002-0071)。
文摘A fourth generation single crystal(SC)nickel based cast superalloy DD15 with 1%Ru,3%Ru,5%Ru was prepared using vacuum induction single crystal furnace in order to optimize the properties and cost of DD15 alloy.The exposure experiment of three alloys was conducted at 1100℃for 1000 h.The stress rupture properties tests were performed at 1100℃temperature and 137 MPa pressure.The composition optimization of Ru element in DD15 alloy had been studied.It was found that the alloys with different Ru contents all consist of cuboidalγ′phase embedded coherent inγphase.Theγ′phase of the alloy all has a size of about 300-500 nm and a volume content of more than sixty percent.The dimension ofγ′precipitates is reduced and uniform with increase of Ru content.Ru element can reduce the distribution ratio of high melting point element,so the microstructural stability is enhanced with Ru content increasing.No topologically close-packed(TCP)phase precipitated in the 5%Ru alloy even after 1000 h exposure.The stress rupture life of the alloy is significantly improved as Ru content rising.The raft breadth decreases slightly as Ru content increases.The specimen with 1%Ru and 3%Ru exhibits the presence of TCP phases and without TCP phases precipitated in fracture specimen with 5%Ru.The density and integrity ofγ/γ′interfacial dislocation network increase as Ru content of the alloy rises.