To unravel the geochemical heterogeneity and its origin in different terranes of North China,we conducted geochronological and geochemical analyses of the meta-mafic rocks from the Lüliang–Zhongtiao rift zone(Sh...To unravel the geochemical heterogeneity and its origin in different terranes of North China,we conducted geochronological and geochemical analyses of the meta-mafic rocks from the Lüliang–Zhongtiao rift zone(Shanxi Province).LA-ICP-MS zircon U–Pb dating yielded mostly End-Neoarchean to Proterozoic ages for the basement rocks(Sushui Complex:2516±26 Ma;Metamafic rocks:2494±31 Ma),Jiangxian Group(~2213 Ma),Zhongtiao Group(2077±29 Ma),Jiehekou Group(1998±23 Ma),and Lüliang Group(2152±52 Ma).Petrographic characteristics show that the meta-mafic rocks from the Neoarchean–Paleoproterozoic Zhongtiaoshan(Sushui Complex)have similar geochemical characteristics to the overlying Jiangxian and Zhongtiao Groups.The Paleoproterozoic Lüliang andYejishan Group meta-mafic rocks from Lüliangshan also have similar geochemical characteristics but are geochemically different from similar-age rocks from Zhongtiaoshan.This shows that the late-stage rocks have a geochemical inheritance from the early-stage rocks in the same region and that the geochemical heterogeneity of rocks from different areas was originated from the inherited heterogeneity of the magma source.展开更多
随着我国轨道交通行业的飞速发展,车体减重对于节省能源有着重大意义。利用CMT冷金属过渡焊接技术对4—0.8 mm SUS301L-MT不锈钢搭接接头进行工艺研究,获取最优工艺参数;同时,观察焊接接头的宏观形貌、微观组织,测量其力学性能及变形。...随着我国轨道交通行业的飞速发展,车体减重对于节省能源有着重大意义。利用CMT冷金属过渡焊接技术对4—0.8 mm SUS301L-MT不锈钢搭接接头进行工艺研究,获取最优工艺参数;同时,观察焊接接头的宏观形貌、微观组织,测量其力学性能及变形。结果表明,在最优工艺参数下,焊缝成形美观,无明显缺陷,焊缝区组织主要为奥氏体柱状晶和枝晶状铁素体;焊接接头最大拉伸剪切力达到22 234.42 N,硬度测试最小值均出现在焊缝区;此外,焊后试板呈现波浪变形,最大Z方向变形量出现在试板边缘。展开更多
基金supported by the Strategic Priority Research Program (B) of Chinese Academy of Sciences (Grant No.XDB18010105)the Talent start-up fund of Guiyang University(2019039510821)。
文摘To unravel the geochemical heterogeneity and its origin in different terranes of North China,we conducted geochronological and geochemical analyses of the meta-mafic rocks from the Lüliang–Zhongtiao rift zone(Shanxi Province).LA-ICP-MS zircon U–Pb dating yielded mostly End-Neoarchean to Proterozoic ages for the basement rocks(Sushui Complex:2516±26 Ma;Metamafic rocks:2494±31 Ma),Jiangxian Group(~2213 Ma),Zhongtiao Group(2077±29 Ma),Jiehekou Group(1998±23 Ma),and Lüliang Group(2152±52 Ma).Petrographic characteristics show that the meta-mafic rocks from the Neoarchean–Paleoproterozoic Zhongtiaoshan(Sushui Complex)have similar geochemical characteristics to the overlying Jiangxian and Zhongtiao Groups.The Paleoproterozoic Lüliang andYejishan Group meta-mafic rocks from Lüliangshan also have similar geochemical characteristics but are geochemically different from similar-age rocks from Zhongtiaoshan.This shows that the late-stage rocks have a geochemical inheritance from the early-stage rocks in the same region and that the geochemical heterogeneity of rocks from different areas was originated from the inherited heterogeneity of the magma source.
文摘随着我国轨道交通行业的飞速发展,车体减重对于节省能源有着重大意义。利用CMT冷金属过渡焊接技术对4—0.8 mm SUS301L-MT不锈钢搭接接头进行工艺研究,获取最优工艺参数;同时,观察焊接接头的宏观形貌、微观组织,测量其力学性能及变形。结果表明,在最优工艺参数下,焊缝成形美观,无明显缺陷,焊缝区组织主要为奥氏体柱状晶和枝晶状铁素体;焊接接头最大拉伸剪切力达到22 234.42 N,硬度测试最小值均出现在焊缝区;此外,焊后试板呈现波浪变形,最大Z方向变形量出现在试板边缘。