Nickel and iron aluminides: An overview on properties, processing, and applications

被引:641
作者
Deevi, SC [1 ]
Sikka, VK [1 ]
机构
[1] PHILIP MORRIS INC, CTR RES & DEV, RICHMOND, VA 23234 USA
关键词
nickel aluminides; based on Ni3Al; iron aluminides (based on Fe3Al); iron aluminides (based on FeAl); casting; automotive uses; corrosion and erosion resistant applications;
D O I
10.1016/0966-9795(95)00056-9
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Intermetallics have long been recognized as potential candidates for a variety of high-temperature structural applications to operate well beyond the operating temperatures of conventional materials due to their excellent oxidation and corrosion resistances. In this paper, we compare and contrast the mechanical properties such as yield strength, ultimate tensile strength, and tensile elongations of Ni3Al-based alloys, Fe3Al-based alloys, and FeAl alloys with several of the commercially available superalloys such as Haynes 214 (NiCrAlY), MA-956 (yttria-dispersed FeCrAlY), and a FeNiCr alloy (HU steel) used in carburizing applications. Our comparisons clearly show that cast and wrought Ni3Al-based alloys exhibit superior mechanical properties over the commercially available alloys such as the FeNiCr HU steel and Haynes 214. Electrical resistivity of iron aluminides increases with the increase of aluminum content, and the electrical resistivities of Fe3Al- and FeAl-based alloys are 50-100% higher than those of commercially available heating-element materials. Processing problems associated with the melting and casting of intermetallics are discussed in light of their large, negative heats of formation; high-aluminum content of intermetallics; and the safe operating temperatures of crucible materials for melting them. A furnace-loading sequence enabled us to properly utilize the heat of reaction of intermetallics resulting in the development of the Exo-Melt(TM) process for melting and casting of intermetallics for a variety of structural applications. The Exo-Melt(TM) process allowed us to cast a wide variety of structural intermetallic parts using sand, centrifugal, and investment casting techniques, and a total of 15 000 kg of intermetallic parts were cast by the Exo-Melt(TM) process during 1995. Copyright (C) 1996 Elsevier Science Ltd
引用
收藏
页码:357 / 375
页数:19
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