Embedding eco-friendly and smart technology features in affordable housing for community happiness in Malaysia

GeoJournal - Two phases of study are involved in this research: first, the sales strategies for affordable houses embedded with eco-friendly and smart technology features; and second, the impact of...     

Petrogenesis of Late Ordovician intrusive rocks in the West Kunlun orogenic belt: Constraints on the subduction process of the Proto-Tethys OceanSCIEI北大核心CSCD

西昆仑造山带发育有大量的早古生代岩浆岩,它们的形成与原特提斯洋俯冲-碰撞密切相关,然而,对于这些岩浆岩的岩石成因和形成的构造背景仍然存在较大的争议。本文对西昆仑造山带早古生代阿喀孜二长岩和赛图拉石英闪长岩岩体开展了详细的矿物学、锆石U-Pb年代学、全岩地球化学和Sr-Nd-Hf-O同位素研究,以探讨这些侵入岩的岩浆源区与成因,揭示原特提斯洋在这一时期的构造演化过程。这两个岩体的LA-ICP-MS锆石U-Pb年龄分别为456±2Ma和452±2Ma,指示它们形成于晚奥陶世。阿喀孜二长岩具有富碱(K_(2)O+Na_(2)O=10.5%~11.8%)、富钾(K_(2)O/Na_(2)O=1.20~1.44)特征,相对低MgO(0.89%~0.97%)、TiO_(2)(0.42%~0.45%)含量,富集Rb、Th、U等大离子亲石元素,且具有较高的全岩锆饱和温度(T_(Zr)=814~862℃),属于钾质碱性岩石。该岩体具有较高的(^(87)Sr/^(86)Sr)_(i)值(0.72057~0.72186),负的全岩ε_(Nd)(t)值(-5.1~-4.5)和负的锆石ε_(Hf)(t)值(-7.6~-3.4),以及较高的锆石δ^(18) O值(5.39‰~7.94‰),表明其源区可能为伸展环境下古老基性下地壳部分熔融。赛图拉石英闪长岩SiO_(2)含量为56.8%~58.6%,全碱(Na_(2)O+K_(2)O)含量为5.75%~6.39%,具有较低的铝饱和指数(A/CNK=0.85~0.89),相对高的MgO含量(2.93%~3.41%)以及Mg^(#)值(~45),为高钾钙碱性系列岩石。它们富集大离子亲石元素(Rb、Ba、Th)和亏损高场强元素(Nb、Ta、Ti),且具有微弱的Eu异常(δEu=0.72~0.77),类似于俯冲带岩浆岩地球化学特征。这些石英闪长岩具有相对高的(^(87)Sr/^(86)Sr)_(i)比值(0.71317~0.71322),负的全岩ε_(Nd)(t)值(-5.6~-5.1)和负的锆石ε_(Hf)(t)值(-7.8~-2.9),与同时期来源于富集地幔的基性岩同位素特征相似,表明赛图拉石英闪长岩岩浆可能是由俯冲板片流体交代的富集地幔楔部分熔融形成,并在岩浆演化的过程中经历了橄榄石、辉石、角闪石、磷灰石和Fe-Ti氧化物等矿物的分离结晶作用。结合同位素和数字模拟计算(Rhyolite-MELTS)结果表明,赛图拉石英闪长岩可能由塔里木克拉通南缘玄武质岩浆的分离结晶而成。综合前人研究,本文提出晚奥陶世阿喀孜二长岩和赛图拉石英闪长岩形成于原特提斯洋向北俯冲相关的活动大陆边缘环境,该时期原特提斯洋板片回撤,诱发软流圈地幔的上涌,从而产生了大量的弧岩浆岩。     

珠Ⅰ坳陷油源对比及恩平组烃源岩的相对贡献

恩平组烃源岩成藏贡献研究对于拓展珠Ⅰ坳陷勘探新领域以及发现新的储量具有重要的应用价值, 目前相关研究较少.在油源对比的基础上, 将生标绝对含量与端元油配比实验相结合, 研究了珠Ⅰ坳陷恩平组烃源岩对单井油样的相对贡献.油源对比结果指示, 研究区原油可分为3类: 第1类源自始新统文昌组中深湖相烃源岩, 主要分布在惠陆低凸起、番禺4洼、流花凸起等地区; 第2类源自始新统-渐新统恩平组湖沼相烃源岩, 仅分布在惠州凹陷北部; 第3类为混源油, 发现于惠州凹陷南部和恩平凹陷.甾萜类绝对含量等7个指标建立的混源比例图版适用于计算油样中前两类烃源岩的相对贡献.计算结果表明, 文昌组烃源岩是珠Ⅰ坳陷的主力烃源岩, 恩平组烃源岩仅对惠州凹陷和恩平凹陷中的部分油样存在贡献.      

西藏班公湖-怒江缝合带中段江错蛇绿岩岩石学、地球化学、年代学及地质意义

江错蛇绿岩位于班公湖-怒江缝合带中段, 位于切里湖蛇绿岩亚带的最东端, 南邻蓬湖西蛇绿岩.江错蛇绿岩岩石组合相对较全, 主要由变质橄榄岩、辉长岩和辉绿岩等组成.江错蛇绿岩辉长岩-辉绿岩与N-MORB相比具有较高的Mg#、低Ti、K、Na和P的特征, 富集大离子亲石元素Sr、Rb、Ba和亏损高场强元素Th、Hf、Ta、Nb, REE配分图总体显示为平坦型分布模式.通过地球化学元素分析认为江错蛇绿岩是形成于SSZ之上的弧后盆地扩张脊环境.对其进行辉长岩锆石SHRIMP U-Pb定年, 得出加权平均年龄为189.8±3.3 Ma(MSWD=0.97), 该结果代表了班公湖怒江缝合带中段江错地区特提斯洋的扩张时代, 与中段东巧地区蛇绿岩年龄一致, 但晚于东段洋盆发育时代且早于西段洋盆发育时代, 表明整个班公湖-怒江洋盆发育时代存在东早西晚的特点.      

三叠纪年代地层与中国建阶

国际地层委员会三叠系分会(SubcommissiononTriassicStratigraphy,简称STS)成立后的第一件工作就是建立全球统 一的三叠纪年代地层划分方案.以国际地质对比规划项目IGCP-4(特提斯地区的三叠系)所取得的研究成果为基础,经过STS 专家的深入研讨,采用投票表决的方式于1991年确定了将三叠系划分为3统7阶的国际年代地层格架.随后的焦点集中于各 阶界线层型剖面和点位(GlobalStratotypeSectionandPoint,简称GSSP)的选定工作.但时至今日只确定了3个阶的GSSP,而 且只有三叠系底界,即印度阶底界的GSSP获得的研究最多,且应用广泛;另外2个阶(拉丁阶和卡尼阶)底界的GSSP仍以传 统的菊石作为首选定义标志,其推广可应用性还待实践检验.其他4个阶的界线层型选定工作正在推进中,但都存在一些困 难,其中尤以奥伦尼克阶界线层型的选定工作面临重大挑战.鉴于国际年代地层研究工作所面临的困境,全国地层委员会组织 专家于2000年提出了中国的年代地层划分和建阶方案,并在全国范围开展研究和推广应用.由于三叠纪时期中国处于从海向 陆的重要转折时期,海、陆相地层在中国都有广泛发育,因此提出了海、陆相两套中国三叠纪年代地层划分和建阶方案.经过十 多年的建阶研究和应用实践,中国三叠纪年代地层建阶方案逐步得以改进和完善,促进了中国三叠纪地层规范化研究,为相 关科学研究和实践应用奠定了基础,也推动了国际相关领域的科学研究.      

雷山—锦屏一带清水江组软沉积构造的变形特征——远古的地震记录

通过面上地质调查,在黔东南雷山—锦屏一带的新元古代清水江组含火山碎屑之砂泥质岩层中,发现了大量软沉积物变形构造,主要有滑塌、滑移及阶梯状微断层。根据前人对形成该软沉积物变形的模拟试验成果,推断该类软沉积变形的机制与震动液化有关,其动力来源于古地震。在清水江组地层分布区,沉积物中含大量凝灰质,显示出古地震与古火山作用相伴频发之特点,这是新元古代裂谷盆地在此阶段构造演化的响应。     

高钢级绳索取心钻杆管材残余应力的初步研究

有观点认为管材的残余应力是绳索取心钻杆非正常损坏的诱因之一。据此采用环切法对不同热处理和矫直工艺的冷拔绳索取心管材制造过程中的残余应力进行了检测比对,认为冷拔管材制造环节产生的残余应力是存在的,也是可控的。只要制造工艺措施得当,可以将高钢级合金管材的残余应力控制在可接受范围内;合格管材出厂时存在较高残余应力造成的钻杆折断等事故较为罕见。应从管材制造、钻杆加工、现场使用等方面入手,努力降低钻杆断裂事故。     

水(冰):宇宙矿物

水(冰)是最简单的化合物,也是宇宙中丰度最大的矿物。通常认为,水无嗅、无味,无处不在。然而,液态水或固态水却是异乎寻常的物质。水具有某些其它物质没有的,特别是赋予生命所要求的特殊性质,如氢键、水簇和kosmotrope离子等。本文综述水(冰)的结构、化学性质、物理性质、分布以及与生命的关系。     

风化煤及提腐植酸后残渣热解行为与动力学分析

应用热重-质谱(TG-MS)联用技术对风化煤(WC)及其腐植酸提取后残渣(WCR)的热解行为进行了研究,分析了非烃类(H2、H2O、CO和CO2)、低碳烃类(CH4、C3H6和C3H7)和芳烃类(C6H6)的实验结果,并利用Coast-Redfern积分法对其热解和烃类生成动力学进行了探讨,获得了热解过程和烃类生成动力学参数。结果表明:热解过程中风化煤的质量损失率(38.9%)略大于其腐植酸提取后残渣(36.6%);除CO和CO2外,残渣中非烃类、低碳烃类和芳烃类产物的逸出量都稍微或显著多于风化煤中各类组分的逸出量。用Coast-Redfern积分法求得的动力学参数很好地解释了这一结果。     

Ore-forming Fluid Characteristics of the Saishitang Cu-polymetallic Deposit in Qinghai Province, China

Saishitang Cu-polymetallic deposit is located in the southeast section of Late Paleozoic arcfold in the southeastern margin of Qaidam platform. Accoring to the geological process of the deposit,four mineralization episodes were identified: melt/fluid coexisting period(O),skarn period(A),first sulfide period(B) and second sulfide period(C),and 10 stages were finally subdivided. Three types of inclusions were classified in seven stages,namely crystal bearing inclusions(type I),aqueous inclusions(type II) and pure liquid inclusions(type III). Type I and II inclusions were observed in stage O1,having homogenization temperature from 252 to 431°C,and salinities ranging from 24.3% to 48.0%. Type I inclusion was present in stage A1,having homogenization temperature from 506 to 548°C,and salinities ranging from 39.4% to 44.6%. In stage B1,type II and III inclusions were observed,with homogenization temperature concentrating between 300–400°C,and salinities from 0.4% to 4.3%. Type II inclusions were present in stage B2,with homogenization temperature varying from 403 to 550°C. In stage C1,type I and II inclusion commonly coexisted,and constituted a boiling inclusion group,having homogenization temperatures at 187–463°C,and salinities in a range of 29.4%–46.8% and 2.2%–11.0%. Type II and III inclusions were developed in stage C2,having homogenization temperature at 124–350°C,and salinities ranging between 1.6% and 15.4%. In stage C3,type II and III inclusions were presented,with a homogenization temperature range of 164–360°C,and salinities varying from 4.0% to 11.0%. The results of micro-thermal analysis show that fluids are characterized by high temperature and high salinity in stage O1 and A1,and experienced slight decrease in temperature and dramatic decrease in salinity in stage B1 and B2. In stage C1,the salinity of fluid increased greatly and a further decrease of temperature and salinity occurred in stage C2 and C3. Fluids boiled in stage C1. With calculated pressure of 22 MPa from the trapping temperature of 284–289°C,a mineralization depth of 2.2 km was inferred. Results of Laser Raman Spectroscopy show high density of H2 O,CH4 and CO2 were found as gas composition. H-O isotope study indicates the oreforming fluids were the mixture of magmatic water and meteoric water. Physicochemical parameters of fluids show oxygen and sulfur fugacity experienced a decrease,and redox state is weakly reducing. Along with fluid evolution,oxidation has increased slightly. Comprehensive analysis shows that melt exsolution occurred during the formation of quartz diorite and that metal elements existed and migrated in the form of chlorine complex. Immiscible fluid separation and boiling widely occurred after addition of new fluids,bringing about dissociation of chlorine-complex,resulting in a great deal of copper precipitation. In conclusion,Saishitang deposit,controlled by regional tectonics,is formed by metasomatism between highly fractionated mineralization rock body and wall rock,and belongs to banded skarn Cu-polymetallic deposit.