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唐明述文集
唐明述文集

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  • 电子书积分:22 积分如何计算积分?
  • 作 者:唐明述著
  • 出 版 社:北京:冶金工业出版社
  • 出版年份:2014
  • ISBN:9787502466114
  • 页数:808 页
图书介绍:本书为中国工程院院士文集之一。本书收集了唐明述院士自20世纪60年代至今发表的主要学术论文114篇。重点论述了影响混凝土工程寿命的重要课题碱-集料反应,提出了碱碳酸盐反应的膨胀机理、碱集料反应分类等理论,用水泥处理核废渣、大坝用氧化镁膨胀水泥、钢渣微观结构的研究等内容,对我国从事水泥混凝土行业研究的科研者工作具有很好的参考价值。
《唐明述文集》目录
标签:文集

中文学术论文 3

科技篇 3

水泥与骨料中活性二氧化硅的膨胀反应 3

关于碱-骨料反应的几个问题 13

石膏矿渣水泥与活性骨料的膨胀反应 22

碱对水泥生产和性能的一些影响 31

钢渣中MgO、FeO、MnO的结晶状态与钢渣的体积安定性 41

对彼特洛辛《水泥的热力学和热化学》一文的一点质疑 54

关于火成岩骨料的碱活性及其与水泥浆的界面反应 58

吉林白山大坝混凝土自生体积膨胀机理的研究 73

高温、高压、高碱下的碱-集料反应 81

水泥浆体-集料界面特性与砂浆电导率的关系 92

水泥浆体与集料界面的黏结强度 99

水泥浆体-集料界面的结构特性与砂浆抗蚀性的关系 107

高强度碱矿渣水泥 112

混凝土耐久性研究应成为最活跃的研究领域 118

关于碱-集料反应的几个理论问题 123

掺氧化镁水泥的膨胀规律及其影响因素 131

低孔隙率胶凝材料的孔结构测定方法 136

石英的显微结构与碱活性 141

T.C.Powers模型若干问题的研究 144

氧化镁在不同水泥基中的水化和膨胀 152

碱矿渣水泥砂浆抗酸腐蚀性 157

碱-集料反应的分类 162

处理刚玉集料对砂浆界面结构的改进 169

低孔隙率砂浆的强度性能和孔结构 175

放射性废物水泥固化的理论基础、研究现状及对水泥化学研究的思考 181

碱-白云石反应及碱-碳酸盐岩反应的膨胀机理 190

MDF水泥抗弯强度与大孔尺寸和孔隙率的关系 200

混凝土中碱骨料反应与冻融破坏的特征判据 205

去冰盐与碱-集料反应的协同效应及其防治研究 209

界面区结构对水泥砂浆抗硫酸盐侵蚀性能的影响 214

油井水泥石CO2腐蚀的热力学条件 221

提高重大混凝土工程耐久性对节约资源能源、保护环境意义重大 227

我国混凝土中的碱集料反应 236

集料ASR碱活性检测方法评述 243

碱硅酸反应与碱碳酸盐反应 252

关于水泥混凝土发展方向的几点认识 261

不同结构构造硅质集料的碱硅酸反应模型 268

碱集料反应研究的新进展 276

碱集料反应中当量碱计算问题探讨 285

道面水泥混凝土高性能化和放大道面板尺寸问题初探 297

碳硫硅钙石型硫酸盐腐蚀研究综述 306

硅质碳酸盐Spratt岩在LiOH溶液中的膨胀行为 313

水泥基复合材料的吸波性能 319

掺杂TiO2水泥的吸波性能与力学性能研究 324

LiOH抑制碱硅酸反应膨胀及其应用研究 330

提高基建工程寿命是最大的节约 339

长石类矿物析碱对碱-硅酸反应的影响 346

集料碱活性快速检测法对比研究 357

节能减排工作应重视提高基建工程寿命 366

裂缝对于混凝土耐久性的影响 374

轻烧MgO膨胀剂对水泥浆体变形行为的影响 382

石墨-碳纤维水泥基复合材料的电磁屏蔽效能 388

教学篇 394

讲授“水泥化学进展”课程的一些体会(研究生班) 394

碱集料反应——实践-理论-实践 398

英文学术论文 403

Effect of Ca (OH)2 on Alkali-silica Reaction 403

Some Remarks about Alkali-silica Reactions 410

Effect of Alkali on the Interface Reaction between Cement and Aggregate 412

The Preventive Effect of Mineral Admixtures on Alkali-silica Reaction and Its Mechanism 419

A Rapid Method for Identification of Alkali Reactivity of Aggregate 425

Kinetics of Alkali-silica Reaction 432

Rapid Method for Determining the Preventive Effect of Mineral Admixtures on Alkali-silica Reaction 439

Alkali Reactivity of Glass Aggregate 443

Mechanism of Alkali-carbonate Reaction 449

Expansive Mechanism of Magnesia as Additive of Cements 454

Studies of Alkali-aggregate Reaction from Petrography and Mineralogy 467

Alkali-carbonate Reaction and pH Value 473

Hydration of Alkali-slag Cements at 150℃ 482

Mg-type Delayed Expansive Cement 489

A New Method of Enhancing Cement-aggregate Interfaces, Ⅰ . Ideal Aggregate and Its Effects on Interfacial Microstructures 498

A New Method of Enhancing Cement-aggregate Interfaces, Ⅱ. Mechanical Properties and Sulphate Attack Resistances of Mortars 506

Deterioration of Concrete Structures Due to Alkali-dolomite Reaction in China 510

Mechanism of Dedolomitization and Expansion of Dolomitic Rocks 517

Formation and Expansion of Ettringite Crystals 529

Studies on Alkali-Carbonate Reaction 537

Autoclave Method for Identification of Alkali-Reactive Carbonate Rocks 544

Mechanism of Mineral Admixture Suppressing Alkali-silica Reaction: Part Ⅰ. Corrosion Degree of Reactive Aggregate in Blended Cement Pastes and Its Correlations with Expansion Value and Electric Resistance Change 550

Mechanism of Mineral Admixture Suppressing Alkali-silica Reaction: Part Ⅱ. Retardation of the Transport of Na, K and OH Ions in Pore Structure Caused by Acidic Action of Mineral Admixture Particles in Matrix 560

Correlation between Reaction and Expansion of Alkali-carbonate Reaction 567

Application of Expansive Cement with Magnesia in Dams 575

The Process of Sulfate Attack on Cement Mortars 581

Expandability of Solid-volume-reducing Reactions of Alkali-magnesite and Alkali-dolomite 588

Improving the Structure of the Interfacial Zone and Its Influence on the Long-term Behavior of Mortars 599

Influence of Dimension of Test Specimen on Alkali-aggregate Reactive Expansion 607

Expansion Mechanism of Alkali-dolomite and Alkali-magnesite Reaction 614

Influence of Aggregate Size and Aggregate Size Grading on ASR Expansion 629

ACR Expansion of Dolomites with Mosaic Textures 634

Expansion of Siliceous and Dolomitic Aggregates in Lithium Hydroxide Solution 647

A New Accelerated Method for Determining the Potential Alkali-carbonate Reactivity 656

Alkali Carbonate Reaction Expansion of Dolomitic Limestone Aggregates with Porphyrotopic Texture 666

Development and Inter-laboratory Trial of the RILEM AAR-5 Rapid Preliminary Screening Test for Carbonate Aggregates 680

Use of Fuzzy Neural Network to Evaluate Effect of Composition of Fly Ash in Suppressing AAR 689

Alteration of Alkali Reactive Aggregates Autoclaved in Different Alkali Solutions and Application to Alkali-aggregate Reaction in Concrete (Ⅰ)Alteration of Alkali Reactive Aggregates in Alkali Solutions 706

Alteration of Alkali Reactive Aggregates Autoclaved in Different Alkali Solutions and Application to Alkali-aggregate Reaction in Concrete (Ⅱ)Expansion and Microstructure of Concrete Microbar 726

The Thaumasite Form of Sulfate Attack in Concrete of Yongan Dam 740

Alkali Release from Aggregate and the Effect on AAR expansion 744

The Use of Thermodynamic Analysis in Assessing Alkali Contribution by Alkaline Minerals in Concrete 759

Development of a Universal Accelerated Test for Alkali-silica and Alkali-carbonate Reactivity of Concrete Aggregates 771

Potential Approach to Evaluating Soundness of Concrete Containing MgO-based Expansive Agent 785

Investigation of Alkali-silica Reaction Inhibited by New Lithium Compound 799

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