(中南大學 有色金屬材料科學與工程教育部重點實驗室,長沙 410083)
摘 要: 通過顯微硬度測試、電導率測試、拉伸力學性能測試以及透射電鏡觀察等研究預時效溫度對2519鋁合金力學性能和電導率的影響。結(jié)果表明:隨著預時效溫度的升高,2519鋁合金到達峰值時效的時間縮短,峰值硬度降低;經(jīng)135 ℃預時效的合金具有較大的抗拉強度和屈服強度,其強度分別為490和442 MPa,但其伸長率僅為7.0%;經(jīng)165 ℃預時效的合金具有較好的綜合力學性能,其中抗拉強度、屈服強度和伸長率分別為480 MPa、435 MPa和10.5%;當預時效溫度大于165 ℃時,合金電導率隨預時效溫度的升高而升高;當預時效溫度小于 165 ℃時,合金電導率隨溫度的升高逐漸降低。
關(guān)鍵字: 2519鋁合金;預時效溫度;力學性能;電導率;顯微組織
(Key Laboratory of Nonferrous Metallic Materials Science and Engineering, Ministry of Education,
Central South University, Changsha 410083,China)
Abstract:The effect of pre-ageing on the mechanical properties and electrical conductivity of 2519 aluminum alloy were investigated by microhardness test, electrical conductivity test, tensile test and transmission electron microscopy. The results show that the peak-ageing time shortens with the increase of pre-ageing temperature, and the peak hardness reduces. The alloy has the higher tensile and yield strength, which are 490 and 442 MPa, respectively, and the elongation is 7.0%. When the pre-aging temperature is 135 ℃, the alloy has the better combination of strength and ductility of the mechanical properties, tensile strength, yield strength and elongation are 480 MPa, 435 MPa and 10.5%, respectively when the pre-aging temperature is 165 ℃. When the pre-aging temperature is higher than 165 ℃, the electrical conductivity of the alloys increases with the increase of the pre-aging temperature. When the pre-aging temperature is less than 165 ℃, the electrical conductivity increases with the decrease of pre-aging temperature.
Key words: 2519 aluminum alloy; pre-ageing temperature; mechanical property; electrical conductivity; microstructures
