新聞資訊
Mg和Zn對2099合金時效組織與拉伸性能的影響
發布人:上海艾荔艾金屬材料有限公司www.jshcn.cn
更新時間:2015-12-24
通過常規力學性能測試和透射電鏡微觀組織觀察,研究2099合金在不同熱處理狀態(T6和T8)下的微觀組織和拉伸性能,以及2099合金中所含少量Mg和Zn對合金組織與性能的影響。
Mg和Zn對2099合金時效組織與拉伸性能的影響Effect of Mg and Zn on microstructure and?tensile properties of 2099 alloy
通過常規力學性能測試和透射電鏡微觀組織觀察,研究2099合金在不同熱處理狀態(T6和T8)下的微觀組織和拉伸性能,以及2099合金中所含少量Mg和Zn對合金組織與性能的影響。結果表明:2099合金在T6峰時效條件下,主要強化相是δ′相、θ′相和T1相;在T8峰時效下,主要強化相是δ′相、T1相和少量θ′相,預拉伸變形促進T1相的析出,提高合金的時效強化效果;Mg的添加促進GP區和θ′相的析出,Zn的添加有利于T1相生成和彌散分布;而Mg和Zn同時添加顯著地促進T1相析出,并抑制δ′相的粗化。
The tensile properties and microstructure of 2099 alloy in T6 and T8 tempers were investigated by tensile test and TEM observation. Moreover, the effects of the Mg and Zn in 2099 alloy on the microstructure and properties of alloy were studied. The results show that under T6 peak aged condition, the dominant precipitates are δ′, θ′ and T1?phases. While under T8 peak aged condition, the major precipitates contain δ′ phase, T1?phase and θ′ phase with small volume fractions. The pre-stretching prior to ageing promotes the precipitation of T1?phase, thus improves ageing strengthening. Mg addition promotes the precipitation of GP zone and θ′ phase while Zn facilitates T1?phase precipitation. The addition of Mg together with Zn stimulates the formation of T1?phase obviously, and suppresses the coarsening progress of δ′ phase.
作為值得信賴的合作伙伴和高品質金屬合金的半成品供應商,艾荔艾擁有完善的服務體系和專業的團隊。在同客戶交易的過程中,我們力求根據不同的應用需求將我們的產品做到精益求精。針對當前和未來的市場需求,艾荔艾致力于為客戶提供最佳的金屬材料解決方案。
AILIAI has been a reliable partner and supplier of sophisticated and high-quality semi-finished products maed of alloys. In dialogue with our customers, we optimise our products to meet the specific application requirements. AILIAI develops the best alloy material solutions for current and future challenges.
獲取更多我們供應的合金和服務信息,請致電086-021-67660801或發電子郵件kefu@ailiaigroup.com聯系我們,您也可以通過微博和微信和我們互動。
For more information on the alloys and services that we supply,?call us?at 086-021-67660801 or email us at kefu@ailiaigroup.com. You can also get in touch on social media, we are constantly active on?Weibo?and?Weixin.
前一頁:不銹鋼絲加工常見的誤區
后一頁:縱向磁場作用下DZ417G高溫合金的枝晶生長行為