定价:¥59800
作者:喻遂生编辑:出版时间: 2023-01-01
《纳西东巴文献字释合集》是一套东巴文献字释专著,是国家出版基金资助项目、国家社科基金重大项目、“十四五”国家重点出版物出版规划项目,并入选国家古籍工作规划重点出版项目(少数民族古籍类项目)。本项目规模宏大,约1500万字,由西南大学汉语言文献研究所喻遂生教授领衔的专业团队历时12年整理完成,整理释读的对象为已于2003年入选世界记忆遗产名录的纳西东巴古籍文献。作者团队充分考虑了不同东巴宗教仪式、时代、内容、地域、书写风格等因素,精选了相当数量、有重要价值、有代表性的东巴经书及应用性文献(共110本,分辑为50册),采用文字学、历史学、社会学多学科交叉融合的方法,并通过“字释”的方式逐一译注东巴文并编制了专书字典,在我国东巴文研究史上第一次大规模整理推出了东巴文献字释作品,为我国东巴文献与东巴文化的深入研究提供了详实的基本材料,也为民族古籍整理工作提供了一个参考范式。
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定价:¥1999
作者:张菱芷 刘雯娜 夏宇编辑:张菱芷出版时间: 2023-03-29
《中华书法大字海(全五册)》是一部大型书法艺术工具书,是对中国历代书法艺术书写的总结性成果。本书编撰注重体系性、历史性、经典性与实用性,汇集了从商代甲骨文、商周金文、战国秦汉简牍帛书、汉代碑刻隶书到魏晋南北朝、隋、唐、宋、元、明、清乃至民国时期历代书法名家的传世楷书、行书、章草、今草及碑刻、造像题字等历代经典单字作品,规模宏富。 《中华书法大字海(全五册)》可以查阅的常用汉字近13000个,单字作品近20万个;实用性强,既为全国中小学书法基础教育提供了最佳书写范本,也为广大书法爱好者和产品设计师提供了丰富而完备的历代汉字书写典范和参考,是最常使用的汉字书写、设计工具书。
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定价:¥780
作者:傅增湘 原辑 吴洪泽 补辑编辑:邓晓益 雷少波 张家钧出版时间: 2014-12-17
本书为古籍整理著作(2013年度国家出版基金资助项目,2011—2020年国家古籍整理出版规划增补项目,国家社科基金重大委托项目“巴蜀全书”工程“精品集萃”系列子项目之一),全书分为六册,共一百卷。本书对蜀人傅增湘历时十六年编成的巴蜀地方文章总集《宋代蜀文辑存》作了重新整理、点校、补辑,并新编了《篇目分类索引》,集校注、考证、检索功用于一身。本书丰富了有关蜀学的研究手段,一方面弥补了《宋代蜀文辑存》相关研究的不足,促进了蜀学文献研究的发展,为巴蜀断代文献研究打下了坚实的基础;另一方面也为弘扬传统文化、建设精神文明家园,推动巴蜀文化建设,为地方经济发展、旅游开发、蜀学研究提供了信实可靠的文献资料,具有积极的现实意义。
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定价:¥698
作者:米歇尔•刘易斯•伯克 艾伦•布里曼 廖福挺 主编 沈崇麟 高勇 赵锋 主译编辑:雷少波 柏子康 屈腾龙 张慧梓 姜凤出版时间: 2017-11-03
本书是社会科学研究方法的基础工具书,是国际学术界对研究方法术语所做的系统梳理和规范。全书共收词条1100余个,涉及方法论、研究设计、定性和定量研究的基本方法等;每个词条约两三千字,在对术语做简练的定义和阐释的基础上,对术语的生成与演变、应用范围,以及与相关概念的关系等,做了深入、全面的讨论,并提供了相关的经典阅读文献。
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定价:¥650
作者:蓝勇编辑:胡小京 张家钧出版时间: 2014-07-01
本套书均为古籍点校著作。点校和辑录的对象为中国历代文献中涉及重庆的相关史料,并首次对其进行了分类和系统的整理,共计约400万字,分成两大部分:第一部分为《稀见重庆地方文献汇点》(共上、下两本),主要辑录点校重庆地区明清时期的地方志文献;第二部分为《历史典籍中的重庆史料选辑》(共上、中、下三本),对《四库全书》中涉及重庆地区的文献进行辑录点校。《稀见重庆地方文献汇点》具体对明代成化《重庆郡志》、正德《夔州府志》、万历《重庆府志》、万历《三峡通志》和清代道光《三省边防备览》、道光《重庆府志》等明清重庆地方文献进行了点校整理。本套书将成为人们认识重庆、研究重庆的最完整、最翔实的基础性参考资料之一。
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定价:¥650
作者:蓝勇编辑:王斌 胡小京 张家均出版时间: 2014-07-01
本套书均为古籍点校著作。点校和辑录的对象为中国历代文献中涉及重庆的相关史料,并首次对其进行了分类和系统的整理,共计约400万字,分成两大部分:第一部分为《稀见重庆地方文献汇点》(共上、下两本),主要辑录点校重庆地区明清时期的地方志文献;第二部分为《历史典籍中的重庆史料选辑》(共上、中、下三本),对《四库全书》中涉及重庆地区的文献进行辑录点校。《稀见重庆地方文献汇点》具体对明代成化《重庆郡志》、正德《夔州府志》、万历《重庆府志》、万历《三峡通志》和清代道光《三省边防备览》、道光《重庆府志》等明清重庆地方文献进行了点校整理。本套书将成为人们认识重庆、研究重庆的最完整、最翔实的基础性参考资料之一。
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定价:¥498
作者:江永瑞编辑:陈力 荀荟羽出版时间: 2023-10-26
Automotive Engineering Materials Chapter 1Elastomers3 Chapter 2Thermoplastics27 Chapter 3Thermoset Plastics41 Chapter 4Metals: Ferrous49 Chapter 5Metals: Non-Ferrous55 Chapter 6Ceramics61 Chapter 7Diamond and Other Carbon Solids67 Chapter 8Electromagnetic Materials73 Chapter 9Natural Materials85 Chapter 10Automobile Fluids89 Elastomers Chapter 11ACM (Polyacrylate Rubber) 95 Chapter 12AEM (Ethylene Acrylic Rubber) 99 Chapter 13BR (Butadiene Rubber) 103 Chapter 14CO (Epichlorohydrin) and ECO (Ethylene Oxide Epichlorohydrin) 107 Chapter 15CR (Chloroprene Rubber or Neoprene)111 Chapter 16CSM (Chlorosulfonated Polyethylene)115 Chapter 17EPDM (Ethylene Propylene Diene Monomer Copolymer) 119 Chapter 18FKM (Fluoroelastomers) and FFKM (Perfluoroelastomers)125 Chapter 19IIR (Butyl Rubber) and Halobutyl Rubber131 Chapter 20IR (Isoprene Rubber)135 Chapter 21Nitriles-NBR, HNBR, and XNBR137 Chapter 22NR (Natural Rubber)145 Chapter 23SBR (Styrene-Butadiene Rubber)153 Chapter 24Silicone Rubber-VMQ, PVMQ, and FVMQ161 Chapter 25Urethane-AU (Polyester Urethane) and EU (Polyether Urethane)169 Chapter 26Tires177 Chapter 27Belts185 Chapter 28Hoses191 Chapter 29Seals197 Chapter 30Vibration Isolators and Dampers211 Thermoplastics Chapter 31ABS (Acrylonitrile-Butadiene-Styrenes) 223 Chapter 32EVA (Ethylene Vinyl Acetate)229 Chapter 33FEP (Fluorinated Ethylene Propylene)233 Chapter 34LCP (Liquid Crystal Polymers)237 Chapter 35PA (Polyamides-Nylon)243 Chapter 36PAI (Polyamide-imide)255 Chapter 37PAN (Polyacrylonitrile) 261 Chapter 38PB (Polybutylene)263 Chapter 39PBI (Polybenzimidazole)265 Chapter 40PBT (Poly-Butylene Terephthalate) 271 Chapter 41PC (Polycarbonate)277 Chapter 42PE (Polyethylene)-LDPE, HDPE, UHMWPE, and XLPE283 Chapter 43PEI (Polyetherimide)293 Chapter 44PES (Polyethersulfone)297 Chapter 45PET (Polyethylene Terephthalate)301 Chapter 46PFA (Perfluoroalkoxy)307 Chapter 47PK (Polyketones)-PEK, PEEK, and PEKK 309 Chapter 48PMMA (Polymethylmethacrylate; Acrylics)317 Chapter 49POM (Polyoxymethylene; Acetal)325 Chapter 50PP (Polypropylene)331 Chapter 51PPA (Polyphthalamide)345 Chapter 52PPE (Polyphenylene Ether)349 Chapter 53PPS (Polyphenylene Sulfide)355 Chapter 54PS (Polystyrene) and SAN (Styrene-Acrylonitrile)361 Chapter 55PSU (Polysulfone)369 Chapter 56PTFE (Polytetrafluoroethylene;Teflon)373 Chapter 57PU (Polyurethane)-Thermoplastic, Thermoset, and Elastomeric381 Chapter 58PVC (Polyvinyl Chloride)389 Chapter 59PVDF (Polyvinylidene Fluoride)393 Thermoset Plastics Chapter 60Amino-MF, UF, and PAE399 Chapter 61BMI (Bismaleimides)403 Chapter 62EP (Epoxy; Peroxide)409 Chapter 63PBA (Polybenzoxazine)423 Chapter 64PCN (Polycyanurate) and CE (Cyanate Ester)427 Chapter 65PF (Phenolic)433 Chapter 66PI (Polyimide)437 Chapter 67UP (Unsaturated Polyester)443 Chapter 68Silicone451 Chapter 69VE (Vinylester)455 Chapter 70Zylon (PBO)461 Ferrous Chapter 71Cast Irons467 Chapter 72Plain Carbon Steels497 Chapter 73Alloy Steels513 Chapter 74Stainless Steels543 Chapter 75Powder Steels593 Chapter 76Fe(Ferrous)-Strip Steels605 Chapter 77Sheet Steels621 Chapter 78Bolt Steels635 Chapter 79Spring Steels657 Chapter 80Tool, Die, and Mold Steels669 Chapter 81Heat-Resistant Steels685 Non-Ferrous Chapter 82Ag (Silver)703 Chapter 83Al (Aluminum)709 Chapter 84Au (Gold)781 Chapter 85Co (Cobalt)787 Chapter 86Cr (Chromium)791 Chapter 87Cu (Copper)795 Chapter 88Li (Lithium)835 Chapter 89Mg (Magnesium)843 Chapter 90Mo (Molybdenum)867 Chapter 91Nb (Niobium)871 Chapter 92Ni (Nickel)875 Chapter 93Pb (Lead)915 Chapter 94Pd (Palladium)919 Chapter 95Pt (Platinum)923 Chapter 96Sn (Tin)927 Chapter 97Ti (Titanium)931 Chapter 98V (Vanadium)953 Chapter 99W (Tungsten)957 Chapter 100Zn (Zinc)963 Chapter 101Welding-Electric Resistance and Seam975 Ceramics Chapter 102AlN (Aluminum Nitride)1005 Chapter 103Al2O3 (Aluminum Oxide; Alumina)1009 Chapter 104B4C (Boron Carbide)1013 Chapter 105BN (Boron Nitride)1015 Chapter 106BaTiO3 (Barium Titanate)1021 Chapter 107BeO (Beryllium Oxide; Beryllia)1025 Chapter 108MgO (Magnesia) and MgAl2O4 (Magnesium Aluminum Oxide)1027 Chapter 109PZT (Lead Zirconate Titanate)1031 Chapter 110SiC (Silicon Carbide)1037 Chapter 111Si3N4 (Silicon Nitride)1041 Chapter 112SiO2(Silicon Dioxide)1045 Chapter 113TiC (Titanium Carbide)1049 Chapter 114WC (Tungsten Carbide)1053 Chapter 115ZnO (Zinc Oxide)1057 Chapter 116ZrO2 (Zirconia) and other Zr-based Ceramics1061 Chapter 117Glass, Glass Ceramics, Glass Reinforcements1067 Chapter 118Porcelains1073 Chapter 119Friction Materials1077 Chapter 120Anti-Friction Materials (Bearing Materials)1087 Carbon Chapter 121Diamond1123 Chapter 122Graphite and Graphene1129 Chapter 123Carbon Fullerenes and Reinforcements1137 Electromagnetic Materials Chapter 124Conductors and Resistors1153 Chapter 125Inductors1157 Chapter 126Capacitors1163 Chapter 127Permanent Magnets1173 Chapter 128Solders1187 Chapter 129Packaging of Integrated Electronic Circuits-Adhesives1201 Chapter 130Integrated Circuits (IC) Components and Packaging1205 Chapter 131PCB (Printed Circuit Board)1217 Chapter 132Ferroelectrics, Piezoelectrics, and Pyroelectrics1227 Natural Materials Chapter 133Cellulosics1237 Chapter 134Wood and Bamboo1253 Chapter 135Roads1267 Chapter 136Human Beings1283 Automobile Fluids Chapter 137Powertrain Lubricants1297 Chapter 138Hydraulic Fluids1319 Chapter 139Coolants1331 Chapter 140Fuels1343 Chapter 141IMDS (International Material Data System)1365
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定价:¥368
作者:江永瑞编辑:陈力 张慧梓出版时间: 2022-01-07
Chapter 1 Material Reliability and Sustainability 1.1 Predictive Engineering Analytics 1.2 Coupled Mechanics of Materials1.3 Finite Element Methods1.4 Experimental Mechanics1.5 Consistent Units ReferencesChapter 2 Elastoplastics 2.1 Thermomechanical Properties2.2 Density,ρ 2.3 Stress-Strain Curves 2.4 Onset of Necking2.5 Correction Factor for Triaxial State of Uniaxially Loaded Specimens2.6 Constitutive Equations of Isotropic Homogeneous Material2.7 Crack Nucleation under Static Loadings 2.8 Residual Stresses2.9 Flexural Modulus of Rupture 2.10 Oscillatory Stress-Strain Behavior2.11 Material Hardening Rules and Bauschinger Effect2.12 Heat Treatments ReferencesChapter 3 Finite Element Methods in Composites 3.1 Orthotropic Elasticity 3.2 Strain-Displacement Relationship 3.3 Energy Formulation for Small Deformations 3.4 Composite Elements 3.5 Super Element 3.6 Nodal Loads 3.7 Coordinate Transformations 3.8 Integration for Elemental Matrices 3.9 Element/Node Assembly and Solution Schemes 3.10 Stress Computation 3.11 Geometric Nonlinearity3.12 Elastoplastic Nonlinearity of Orthotropic Materials3.13 Contact Nonlinearity 3.14 Finite Element Meshing 3.15 Finite Element Accuracy of 20-Node Solid Elements in Composites3.16 Solution Methods for Nonlinear Finite Element Analysis3.17 Dynamic Problems- Implicit, Explicit, and Coupled Codes References Chapter 4 Mechanical Fatigue 4.1 Stress and Strain State Due at Fatigue 4.2 S-N (Stress-Life) Approach Based on Fatigue Strength4.3 Influence of Mean Stress on Fatigue Life 4.4 Factors Affecting Fatigue Strength4.5 -N (Strain-Life) Approach4.6 Cyclic Stress-Strain Relationship4.7 Damage Accumulation Models 4.8 Counting Damaging Stress/Strain Cycles4.9 Nonproportional Loadings4.10 Stress and Strain Transformations from Free Surface to Critical Plane 4.11 Critical Plane Method Based on Strain Energy 4.12 Fatigue Life Predictors under Multiaxial Loadings 4.13 Estimation of Strain-Controlled Fatigue Parameters by Hardness4.14 Commercial Codes for Fatigue Life Prediction ReferencesChapter 5 Fracture Mechanics 5.1 Fracture Failure5.2 Fracture Toughness and Impact Tests5.3 Stress Intensity Factors 5.4 Strain Energy Release Rate and R-Curve5.5 Crack Propagation and Stress Intensity Factor Range 5.6 Crack Propagation under Elastoplastic Yielding 5.7 Crack Propagation under Large Scale Yielding 5.8 Finite Element Methods for Crack Propagation 5.9 Weak Stress Intensity Factor between Dissimilar Materials 5.10 Fatigue of Spot Welds5.11 Fatigue of Seam Welds ReferencesChapter 6 Creep and Oxidation 6.1 Introduction6.2 Creep and Relaxation6.3 Stress Relaxation 6.4 Standard Linear Solid Model for Viscoelastic Materials6.5 Prony Series6.6 Time-Temperature Superposition Principle6.7 Creep Strengths 6.8 Creep Mechanisms and Creep Rates 6.9 Isochronous Stress-Strain Curves with Creep6.10 Creep Fatigue 6.11 Oxidation6.12 Thermomechanical Fatigue of Oxides6.13 Thermal Barrier Systems6.14 Thermomechanical Fatigue Life Prediction with Combined Creep and Oxidation ReferencesChapter 7 Random Vibration Fatigue and Impact Engineering 7.1 Automotive Vibrations7.2 Free Vibration 7.3 Forced Vibration System: Self-Excitation Due to Unbalanced Mass7.4 Forced Vibration System: Transmissibility and Magnification7.5 Damping Capacity and Quality Factor7.6 Impact Factor and Surge 7.7 Random Vibration7.8 Fatigue Analysis in Frequency Domain 7.9 Finite Element Methods in Frequency Domain7.10 Diagnosis of Fatigue Damage Using Acoustic Emission7.11 Diagnosis of Cracks Using Eddy Current7.12 Diagnosis of Microcracks Using X-Rays7.13 Diagnosis of Cracks Using Magnaflux7.14 Constitutive Equations for Impact Engineering7.15 Impact Damage 7.16 Explicit Finite Element Analysis ReferencesChapter 8 Tribology 8.1 Dry Friction between Solids 8.2 Surface Roughness 8.3 Thermal Contact Conductance 8.4 Electric Contact Conductance 8.5 Skin Friction 8.6 Solid Lubricants 8.7 Fluid Lubricants 8.8 Lubricated Friction 8.9 Hydrodynamic Lubrication 8.10 Infinitely Long Plain Bearings 8.11 Significantly Short Plain Bearings 8.12 Elastohydrodynamic Lubrication 8.13 Thrust Bearings 8.14 Thermohydrodynamic Lubrication 8.15 Finite Element Methods for Lubrication ReferencesChapter 9 Structural Instability 9.1 Instability of Structural Behaviors 9.2 Buckling of Columns 9.3 Buckling of Simply Supported Plates under Compression 9.4 Buckling of Plates under Compression with Various Boundary Conditions 9.5 Buckling of Plates Subjected to in-Plane Shearing 9.6 Buckling of Plates Subjected to Mixed Loads 9.7 Buckling Analysis by Finite Element Methods 9.8 Aerodynamic InstabilityReferenceChapter 10 Composites- Micromechanics 10.1 Composite Materials 10.2 Weight and Volume Fractions10.3 Laminae Unidirectionally Reinforced with Continuous Fibers10.4 Laminae Unidirectionally Reinforced with Short Fibers10.5 Laminae Reinforced with Weaves10.6 Laminae Reinforced with Mats 10.7 Composites Reinforced Randomly with Short Fibers10.8 Composites Reinforced with Particulates and Powders 10.9 Auxetic Composites- Negative Poisson’s Ratios10.10 Lamination ReferencesChapter 11 Thermal Loadings 11.1 Thermal Effect11.2 Thermal Expansion 11.3 Specific Heat Capacity 11.4 Thermal Conductivity 11.5 Thermal Shock and Cold Shock11.6 Heat Convection 11.7 Combined Heat Conduction and Convection11.8 Heat Exchange by Design 11.9 Heat Radiation 11.10 Finite Element Formulation for Heat Transfer11.11 Example Boundary Conditions of Heat Transfer in Diesel Engine ReferencesChapter 12 Moisture Diffusion 12.1 Moisture Concentration 12.2 Moisture Diffusivities of Absorption12.3 Non-Fickian Moisture Absorption 12.4 Moisture Diffusivities of Desorption12.5 Moisture Diffusivities of Fibrous Composites12.6 Swelling Coefficients of Fibrous Composites12.7 Moisture at Interface12.8 Finite Element Methods for Moisture Diffusion and Related Strain Analysis12.9 Moisture Diffusivities and Thermal Conductivities under Vapor Pressure12.10 Corrosion ReferencesChapter 13 Elastomeric Composites 13.1 Introduction to Rubber Failure13.2 Constitutive Equations of Elastomers13.3 Penalty Function Method for Finite Element Analysis of Elastomers13.4 Rubber Degradation due to Cycling13.5 Elastomeric Dynamics13.6 Fatigue of Rubber 13.7 Rubber Composites13.8 Curing Mechanics of Rubber ReferencesChapter 14 Dielectric Materials 14.1 Introduction14.2 Crystallographic Elasticity14.3 Electromagnetism 14.4 Polarization 14.5 Electro-magneto-thermo-mechanical Coupling14.6 Piezoelectricity 14.7 Electrostriction 14.8 Pyroelectricity14.9 Piezomagnetism14.10 Magnetostriction 14.11 Pyromagnetism 14.12 Domain Engineering in Ferroelectrics 14.13 Fibrous Electromagnetic Laminae14.14 Electromagnetic Laminae Reinforced with Particulates 14.15 Laminated Piezo- and Pyro-Composites14.16 Finite Element Methods for Piezoelectricity 14.17 Finite Element Methods for Coupled Piezoelectricity and Piezomagnetics ReferencesChapter 15 Failure of Composites 15.1 Fracture Modes of Composites15.2 Fracture Toughness of Composites 15.3 Failure Analysis of Composite Laminae 15.4 Interlaminar Strength15.5 Failure Criteria for Composites with Random Fibers15.6 Fatigue of Composites under Multiaxial Loadings15.7 Creep-Fatigue of Composites under Multiaxial Loadings15.8 Modeling of Composite Failures Using Finite Element Methods15.9 Pressurized Isotropic Cylinders15.10 Press-fit15.11 Compound Isotropic Cylinders 15.12 Pressurized Orthotropic Vessels References Chapter 16 Indentation Engineering and Fretting Fatigue 16.1 Hardness by Indentation 16.2 Elastoplastic Properties by Indentation 16.3 Brinell Hardness 16.4 Knoop Hardness 16.5 Rockwell Hardness 16.6 Shore Hardness 16.7 Vickers Hardness 16.8 Martens Hardness 16.9 Estimating Yield and Tensile Strengths by Indentation 16.10 Estimating Residual Stress by Indentation 16.11 Estimating Fracture Toughness by Indentation 16.12 Estimating Creep Properties by Indentation 16.13 Estimating Viscoelastic and Viscoplastic Properties by Indentation 16.14 Fretting Fatigue ReferencesIndex
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定价:¥368
作者:付钢编辑:张家均出版时间: 2023-07-13
第一章 数字化种植的内涵 第二章 数字化设计的软硬件应用 第三章 修复效果的数字化虚拟设计及评估方法 第四章 种植体植入的设计原则 第五章 数字化种植导板的设计生成与打印 第六章 数字化种植导板的临床应用 第七章 数字化种植导板的误差分析与应对策略 第八章 数字化修复体的制作 第九章 数字化种植技术引领下的无牙颌种植 第十章 数字化精准牙槽骨骨增量技术 第十一章 数字化的腓骨瓣移植和下颌骨重建 第十二章 动态导航在口腔种植中的应用 第十三章 口腔种植机器人
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定价:¥298
作者:马拉·塞尚尼 尼古拉斯·G.道尔 保罗·S.托夫茨编辑:胡斌出版时间: 2022-11-05
现代医学成像技术是脑科学研究和脑疾病诊断的利器,不同模态的成像技术可提供不同的信息,用于协同表征脑部的结构和功能,其中定量成像技术着眼于与生理、物理相关的内在参量,旨在提供更精准的信息。由重庆大学附属肿瘤医院张久权教授团队译制的新书《脑定量磁共振成像:物理测量原理》就如何以新的方式使用核磁共振扫描仪给出了独特的观点。作为一种科学仪器,它可以测量人类大脑和身体中的各种物理和生物量;通过对每个小体素组织的非侵入性信息监测,帮助影像科医师定位病变、掌握组织是如何随疾病变化的,以及评估患者对治疗的反应,从而成为诊断专家和治疗效果的评估者。<br>本书首先阐述了量化的良好实践原则,包括质量保证、数据收集和分析以及通过最小化仪器变化提高研究统计能力,这些概念对于一致性至关重要,而一致性是定量成像的基本要素;立足于可重复性这一要点,正文引导读者了解弛豫时间、磁化率、扩散和磁化传递的生物物理原理以及波普学、灌注等技术;最后是关于量化的未来。每一个量背后的物理原理,都有其生物学意义,书中给出了实用的测量技术,以及存在的缺陷和临床应用实例。这本不可或缺的定量磁共振“操作”手册向磁共振物理学家和临床医生展示了如何在核磁共振扫描仪上实现这些技术,以了解健康状态下的生理变化和疾病的生物过程,与当前医学发展的需求相适应。虽然大多数技术都集中在大脑上,但也可用于描述全身组织的特征,帮助读者利用现代定量磁共振成像方法,去衡量疾病对机体的影响、进展规律和治疗反应。<br><br>
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