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200 00$aHigh-performance construction materials$b[electronic resource] $escience and applications /$feditors, Caijun Shi, Y.L. Mo
210   $aSingapore ;$aHackensack, NJ $cWorld Scientific$d2008
215   $a1 online resource (448 p.)
225 1 $aEngineering materials for technological needs ;$vv. 1
300   $aDescription based upon print version of record.
311   $a981-279-735-1 
320   $aIncludes bibliographical references and index.
327   $aPreface; Contents; Biographical Sketch for each Author; Chapter 1; Chapter 2; Chapter 3; Chapter 4; Chapter 5; Chapter 6; Chapter 7; Chapter 8; Chapter 9; Chapter 1  Introduction Caijun Shi and Y. L. Mo; 1.1   Historical Development of Construction and Uses of  Construction Materials; 1.1.1   Stone age habitats; 1.1.2   River valley civilizations - The first steps in permanence; 1.1.3   Construction in ancient Egypt; 1.1.4 Construction in the Greek Era; 1.1.5 Construction in the Romans times; 1.1.6 The early industrial age (18th-19th Century)
327   $a1.1.7 Constructions in the 20th century - High rise steel structures/buildings1.1.7.1 High rise steel structures/buildings; 1.1.7.2 High rise concrete buildings; 1.2 Recent Construction - High Performance Construction Materials; 1.3 Design Codes and Specifications for Use of High Performance Construction Materials; 1.4 Organization of This Book; References; Chapter 2  High Performance Concrete Caijun Shi, Y.L. Mo and H.B. Dhonde; 2.1   Introduction; 2.1.1   Historical development; 2.1.2   Definitions of HPC; 2.2   Constituents and Mixture Proportions of HPC; 2.2.1 Constituents of HPC
327   $a2.2.1.1 Cement2.2.1.2   Supplementary cementitious materials; 2.2.1.3   Aggregate; 2.2.1.4   Chemical admixtures; 2.2.1.5   Water; 2.2.2   Mixture proportions for HPC; 2.3   Properties of High Performance Concrete; 2.3.1   Workability; 2.3.2   Strength; 2.3.3   Stress-strain relationship and modulus of elasticity; 2.3.4   Shrinkage; 2.3.5   Creep; 2.3.6   Durability of HPC; 2.3.6.1   Introduction; 2.3.6.2   Permeability; 2.3.6.3   Transport of chloride ion in HPC; 2.3.6.4   Chemical resistance; 2.3.6.5   Frost resistance; 2.3.6.6   Wear resistance; 2.3.6.7    Fire resistance
327   $a2.4   Self-Consolidating Concrete2.4.1   Introduction; 2.4.2   Constituents and mixing proportions; 2.4.3   Testing of SCC; 2.4.3.1   Introduction; 2.4.3.2   Slump flow/VSI (filling ability/deformability and stability); 2.4.3.3   J-Ring (passing ability); 2.4.3.4  L-Box (passing ability); 2.4.3.5   Column segregation (stability); 2.4.4   Self-Consolidating Fiber Reinforced Concrete (SCFRC); 2.4.5   Properties of hardened SCC; 2.4.5.1   Mechanical properties; 2.4.5.2   Deformation; 2.4.5.3   Bonding with aggregate or reinforcements; 2.4.5.4   Long-term durability; 2.4.5.5   Aesthetics
327   $a2.5   Specifications and Guidelines for HPC2.5.1   Structural design of HSC; 2.5.2   Performance specifications for HPC; 2.5.3   Guidelines and specifications for SCC; 2.6   Applications of HPC; 2.6.1   Introduction; 2.6.2   High rise buildings; 2.6.3   Bridges; 2.6.4   Application of SCC; 2.7  Summary; References; Chapter 3  High Performance Fiber Reinforced Cement Composites Antoinie E. Naaman; 3.1   Introduction; 3.2   Definitions; 3.2.1   Fiber reinforced cement (FRC) composites; 3.2.2   High Performance Fiber Reinforced Cement (HPFRC)  Composites; 3.2.3   Stress at first cracking
327   $a3.2.4   Maximum post-cracking stress or composite strength
330   $aThis book describes a number of high-performance construction materials, including concrete, steel, fiber-reinforced cement, fiber-reinforced plastics, polymeric materials, geosynthetics, masonry materials and coatings. It discusses the scientific bases for the manufacture and use of these high-performance materials. Testing and application examples are also included, in particular the application of relatively new high-performance construction materials to design practice.Most books dealing with construction materials typically address traditional materials only rather than high-performance m
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200 10$aNuclear Magnetic Resonance Study on Multiple Superconducting Phases in UTe2 /$fby Katsuki Kinjo
205   $a1st ed. 2024.
210  1$aSingapore :$cSpringer Nature Singapore :$cImprint: Springer,$d2024.
215   $a1 online resource (84 pages)
225 1 $aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5061
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327   $aIntroduction -- UTe2 Paradise For Condensed matter Scientists -- Nuclear Magnetic Resonance -- Experimental -- NMR Measurements on UTe2 -- Summary and Future Works.
330   $aThis book provides an insight into spin-triplet superconductivity, which rapidly becomes better understood in recent years, from the perspective of a microscopic measurement technique called nuclear magnetic resonance (NMR). The compound UTe2, the target material of this book, was confirmed to show superconductivity in 2018, and its peculiarity is very similar to that of other uranium-based ferromagnetic superconductors, ensuring spin triplet superconductivity. This book begins with the fundamentals of superconductivity and subsequently overviews research in spin-triplet superconductivity. The similarity between the high-field superconducting phase in UTe2 and the superconducting phase under pressure is particularly interesting among the various superconducting phenomena observed so far. This book provides a concise introduction to superconductivity, so that the book is also intended for wide readership including the beginners interested in the phenomenon of superconductivity and undergraduate and graduate students. It also cover the NMR measurement from the basic derivation, which is accessible for beginners. The target material UTe2 is skillfully described, including a selection of related works to this book.
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606   $aNuclear magnetic resonance
606   $aCondensed matter
606   $aMaterials$xAnalysis
606   $aSuperconductivity
606   $aMagnetic Resonance (NMR, EPR)
606   $aStrongly Correlated Systems
606   $aCharacterization and Analytical Technique
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