赣中相山矿田逆冲推覆构造地质特征与成矿关系

阐明逆冲推覆构造地理分布,较全面论述逆冲推覆构造地质特征,系统概括逆冲推覆构造对铀成矿作用。逆冲推覆构造不但形成了导、运、移、储完备的三维立体构造网络系统,而且使贯通基底的构造复活,诱发次火山岩浆侵入,形成了岩性差异明显并具多层岩性结构的"立交"式岩层构造组合,创造了有利于成矿的一个封闭、半封闭的地质环境。推覆体下隐伏构造是岩浆侵入、矿液运移的良好通道和存储空间,致使深部成矿热液在局部富集形成矿体。矿化部位一个是富集于次火山岩接触带产状变化或形态变异处;另一个是高集于隐伏逆掩断层与基底NE向构造交汇的复合部位。     

把握历史机遇,力促我国煤层气产业快速发展――香山科学会议第268次学术讨论会简评

依据香山科学会议第268次学术讨论会,评述了我国煤层气资源潜力与勘探方向、地质基础研究与经济开采的关键科学技术问题、产业化面临的瓶颈问题与对策,综述了与会专家就发展我国煤层气产业问题达成的5点共识。     

再现曼陀罗——平顶山香山寺景区规划设计

设计采用曼陀罗形态主控寺院格局,以寺院凸显人文,以山脉感应自然,营造具有本土特色“天人合一”的境界,谋划一个不同凡响的龙首观音阁。     

相山铀矿田围岩蚀变及成矿流体特征

相山铀矿田是我国著名的大型火山岩型热液铀矿田。近年来矿田在矿产勘查和科研方面取得了较大进展,在成矿规律与找矿预测中取得了重大成就。笔者在系统收集前人成果资料的基础上,进一步分析梳理了围岩蚀变类型和成矿流体来源,并对常量元素、微量元素及稀土元素与铀矿化之间的关系进行了探讨。研究表明,相山铀矿田蚀变类型可以分为两种:一种为碱性蚀变;另一种为酸性蚀变。其中碱性蚀变主要以钠交代为主,酸性蚀变主要以萤石-水云母型为主,酸性蚀变是成矿后期形成富矿的重要条件。流体包裹体测温数据结果表明,成矿流体属于中-低温、中-低盐度、低密度流体。     

宁夏中卫香山地区铁矿床地质特征及成因探讨

为了研究宁夏中卫香山地区铁矿床的成因及成矿规律,对宁夏中卫香山地区典型铁矿床（点）成矿地质背景、矿床地球化学等方面进行了分析与探讨.结果表明：中卫香山地区铁矿体呈似层状、透镜状,主要沿层间断裂破碎带分布,具有明显的层控特征.矿石矿物主要为赤铁矿和褐铁矿为主,局部见有黄铁矿.香山群硅质岩w（SiO2）为71.74%~92.45%,w（Al2O3）/[w（Al2O3）＋w（Fe2O3）]比值显示大部分样品与大陆边缘硅质岩数据接近.稀土元素PAAS标准化图解表现为平坦型,具有轻微的正铕异常;微量元素在北美页岩标准化图解上变化较大,可能与陆源物质的加入有关.矿床经历了同生沉积期和次生淋滤富集期,含矿溶液沿破碎带及节理渗透时,置换了岩石中含铁的碳酸盐成分成矿,成矿元素在表生氧化条件下淋滤富集.     

江西省相山铀矿田成矿条件探讨

本文主要阐述了相山铀矿田的成矿条件。相山铀矿田是我国最大的火山岩型铀矿田,研究其成矿条件对今后找矿工作有十分重要的意义。本文主要从构造背景、物质条件、断裂构造和保矿条件这几方面进行探讨。     

Transgression and Progress in China: Wang Shu and the Literati Mindset

The 2012 Pritzker Prize winner, Wang Shu, often builds in stone with a sensitivity to site and context – characteristics that are not often associated with the marginal or cutting edge. Architectural authors and researchers Edward Denison and Guangyu Ren explain how in China, where ‘mainstream mediocrity’ has become the norm, Wang Shu has set himself apart as an advocate for meaningful innovation and originality.     

四步走近王澍——对文人建筑师的一次解读

通过＂访谈初识＂、＂亲述感悟＂、＂游历象山＂、＂解读文字＂这4个步骤,对中国文人建筑师王澍的设计作品与思想进行一次全面的解读。其中着重分析了王澍在创作中国美术学院象山校区建筑设计时的灵感来源和思想方法。同时通过对王澍所撰写文章的理解来挖掘王澍的文人特质和其所想表达的建筑哲学。     

Newness,Tradition and Identity: Existential Content and Meaning in Architecture

At a time when novelty and aesthetic invention have become the established norm for contemporary architecture, the esteemed Finnish author and architect Juhani Pallasmaa speaks out in defence of tradition. He explains how nuance, expressive subtlety and an ambition for an experiential and existential quality in a work require a sense of historical continuum: ‘An embodiment of the essence of tradition’ as a precursor for ‘meaningful creativity’.     

Numerical simulation of rock deformation during the mineralization of the Xiangshan uranium deposit,Jiangxi province, south China

The Xiangshan uranium deposit in Jiangxi province is one of the most important uranium deposits in China. The aim of our study is to obtain a better understanding of rock deformation and dilation associated with mineralization, to predict the most favorable locations of mineralization, and to assist with future mineral exploration in this deposit. On the basis of geological and structural data from previous studies, we have constructed a coupled deformation and fluid flow numerical model and simulated the faulting deformation and major mechanical factors controlling mineralization in the deposit. Particular attention has been paid to variations in regional stress, distributions of shear strain, volumetric strain and pore pressure. The relationship between the structur-al/faulting movement and mineralization is obtained through analyzing the deformation state of fault zones. The results suggest that the mineralization is related to volumetric strain, shear strain and pore pressures. The locations displaying all these factors represent the most favorable sites for mineralization. These model results are important for guiding the exploration of new uranium deposits in Xiangshan.