본문내용 바로가기
무료배송 소득공제 정가제free

해외주문 [POD] Cellular Ceramics Structure, Manufacturing, Properties and Applications

Hardcover
Scheffler, Michael , Colombo, Paolo 지음 | Wiley-Vch | 2005년 07월 11일
  • 정가 : 626,940원
    판매가 : 595,590 [5%↓ 31,350원 할인] 할인쿠폰 받기
  • 혜택 :
    [기본적립] 5960원 적립 [1% 적립] [추가적립] 5만원 이상 구매 시 2,000원 추가적립 안내 [회원혜택] 회원 등급 별, 3만원 이상 구매 시 2~4% 추가적립 안내
  • 추가혜택 : 도서소득공제 안내 추가혜택 더보기
  • 배송비 : 무료 배송비 안내
  • [배송일정] 근무일 기준 7일 이내 출고 예정 배송일정 안내
    해외주문도서는 해외 거래처 사정에 의해 품절/지연될수 있습니다.
    스페셜오더 도서나 일서해외주문도서와 함께 주문시 배송일이 이에 맞추어 지연되오니, 이점 유의해주시기 바랍니다.

알립니다.

  • 이 도서는POD상품입니다. 주문 후에는 도서상태 불량 및 파손 등의 사유로 주문취소/반품이 불가능합니다.
    POD: 도서를 전자파일로 보유, 주문시 책의 형태로 인쇄/제본한 도서, 오리지날 도서와 차이가 있을 수 있습니다.
  • 해외주문도서는 고객님의 요청에 의해 주문하는 '개인 오더' 상품이기 때문에, 단순한 고객변심/착오로 인한 취소,반품, 교환의 경우 '해외주문 반품/취소 수수료'를 부담하셔야 합니다. 이점 유의하여 주시기 바랍니다. 반품/취소 수수료 : (1)서양도서-판매정가의 12%, (2)일본도서-판매정가의 7% (반품/취소 수수료는, 수입제반비용(FedEx수송비용, 관세사비, 보세창고료, 내륙 운송비, 통관비 등)과 재고리스크(미판매 리스크, 환차손)에 따른 비용을 포함하며, 서양도서는 판매정가의 12%, 일본도서는 판매정가의 7%가 적용됩니다.)
  • 외국도서의 경우 해외제공정보로만 서비스되어 미표기된 정보가 있을 수 있습니다. 필요한 정보가 있을경우 1:1 문의게시판 을 이용하여 주십시오.
상품상세정보
ISBN 9783527313204(3527313206)
쪽수 670쪽
언어 English
크기 170(W) X 244(H) X 37(T) (mm)
제본형태 Hardcover
총권수 1권
Textual Format Readings / Anthologies / Collected Works
리딩지수 Level Scholarly/Undergraduate

책소개

이 책이 속한 분야

이 책의 상품구성
* 해당 상품의 상세구성정보를 준비중입니다.

목차


Preface xix
List of Contributors xxi
Part 1 Introduction 1(30)
Cellular Solids -- Scaling of Properties 3(15)
Michael F. Ashby
Introduction 3(1)
Cellular or ``Lattice'' Materials 4(1)
Bending-Dominated Structures 5(5)
Mechanical Properties 6(3)
Thermal Properties 9(1)
Electrical Properties 10(1)
Maxwell's Stability Criterion 10(2)
Stretch-Dominated Structures 12(4)
Summary 16(2)
Liquid Foams -- Precursors for Solid Foams 18(13)
Denis Weaire
Simon Cox
Ken Brakke
The Structure of a Liquid Foam 18(3)
The Elements of Liquid Foam Structure 21(3)
Real Liquid Foams 24(1)
Quasistatic Processes 24(2)
Beyond Quasistatics 26(2)
Summary 28(3)
Part 2 Manufacturing 31(194)
Ceramics Foams 33(24)
Jon Binner
Introduction 33(1)
Replication Techniques 34(8)
Slurry Coating and Combustion of Polymer Foams 34(4)
Pyrolysis and CVD Coating of Polymer Foams 38(1)
Structure of Reticulated Ceramics 39(3)
Foaming Techniques 42(10)
Incorporation of an External Gas Phase 42(4)
In Situ Gas Evolution 46(3)
Gelation 49(2)
Ceramic Foam Structure 51(1)
Other Techniques 52(2)
Summary 54(3)
Honeycombs 57(30)
John Wight
Introduction 57(1)
Forming the Honeycomb Geometry 57(6)
Background 57(2)
Honeycomb Extrusion Die 59(3)
Nonextrusion Fabrication Processes 62(1)
Composition 63(3)
Paste 63(1)
Mixing 64(1)
The Binder 65(1)
Thermal Processing 66(3)
Diffusion: Drying and Debinding 66(1)
Melt Manipulation 67(1)
Sinter Shrinkage Manipulation 68(1)
Post-Extrusion Forming 69(13)
Reduction Extrusion 70(3)
Hot Draw Reduction 73(9)
Summary 82(5)
Three-Dimensional Periodic Structures 87(14)
Jennifer A. Lewis
James E. Smay
Introduction 87(1)
Direct-Write Assembly 87(2)
Colloidal Inks 89(2)
Ink Flow during Deposition 91(3)
Shape Evolution of Spanning Filaments 94(2)
Direct-Write Assembly of 3D Periodic Structures 96(3)
Summary 99(2)
Connected Fibers: Fiber Felts and Mats 101(21)
Janet B. Davis
David B. Marshall
Introduction 101(1)
Oxide Fibers 102(4)
Melt-Blown Silica Fibers 102(2)
Blown Alumina--Silica Fibers 104(1)
Drawn Alumina--Borosilicate Fibers 105(1)
Fiber Product Forms 106(3)
Continuous Monofilaments 107(1)
Fiber Mat 107(2)
Bulk Fiber 109(1)
High-Performance Insulation for Space Vehicles 109(11)
Rigid Space Shuttle Tiles 110(6)
Flexible Insulation Blankets 116(1)
Innovations in Thermal Protection Systems 117(3)
Summary 120(2)
Microcellular Ceramics from Wood 122(15)
Heino Sieber
Mrityunjay Singh
Introduction 122(2)
Fabrication of Porous Biocarbon Templates 124(2)
Preparation of Carbide-Based Biomorphous Ceramics 126(5)
Processing by Silicon-Melt Infiltration 127(2)
Gas-Phase Processing 129(2)
Preparation of Oxide-Based Biomorphous Ceramics 131(3)
Summary 134(3)
Carbon Foams 137(21)
James Klett
Introduction 137(1)
History 137(1)
Terminology 138(3)
Carbon 139(1)
Graphite 139(1)
Graphitization 139(1)
Foam 140(1)
Foaming Processes 141(12)
Thermosetting Precursors 141(3)
Thermoplastic Precursors 144(9)
Properties of Carbon and Graphite Foam 153(2)
Summary 155(3)
Glass Foams 158(19)
Giovanni Scarinci
Giovanna Brusatin
Enrico Bernardo
Introduction 158(1)
Historical Background 158(2)
Starting Glasses 160(1)
Modern Foaming Process 161(5)
Initial Particle Size of the Glass and the Foaming Agent 161(2)
Heating Rate 163(1)
Foaming Temperature 164(1)
Heat-Treatment Time 164(1)
Chemical Dissolved Oxygen 164(1)
Cooling Rate 165(1)
Foaming Agents 166(4)
Foaming by Thermal Decomposition 166(1)
Foaming by Reaction 167(3)
Glass Foam Products 170(1)
Alternative Processes and Products 171(4)
Foams from Evaporation of Metals 172(1)
High-Silica Foams from Phase-Separating Glasses 172(1)
Microwave Heating 172(1)
Glass Foam from Silica Gel 173(1)
High-Density Glass Foam 173(1)
Partially Crystallized Glass Foam 173(1)
Foaming of CRT Glasses 174(1)
Summary 175(2)
Hollow Spheres 177(16)
Srinivasa Rao Boddapati
Rajendra K. Bordia
Introduction 177(1)
Processing Methods 178(10)
Sacrificial-Core Method 178(1)
Layer-by-Layer Deposition 179(3)
Emulsion/Sol--Gel Method 182(3)
Spray and Coaxial-Nozzle Techniques 185(3)
Reaction-Based and Other Methods 188(1)
Cellular Ceramics from Hollow Spheres (Syntactic Foams) 188(1)
Properties 188(1)
Applications 189(1)
Summary 190(3)
Cellular Concrete 193(32)
Michael W. Grutzeck
Introduction 193(1)
Types of Cellular Concrete 194(4)
Low Temperature Cured Cellular Concrete 195(2)
Autoclave-Cured Cellular Concrete 197(1)
Per-Capita Consumption 198(1)
Overview of Cellular Concrete 199(7)
The Gas Phase 199(1)
The Matrix Phase 200(6)
Portland Cement 206(5)
History 207(1)
Fabrication of Portland Cement 207(1)
Hydration 208(3)
Properties of Calcium Silicate Hydrate in Cellular Concretes 211(8)
Cast-in-Place or Precast Cellular Concrete 212(2)
Autoclaved Aerated Concrete (AAC) 214(5)
Durability of Cellular Concrete 219(2)
Summary 221(4)
Part 3 Structure 225(64)
Characterization of Structure and Morphology 227(40)
Steven Mullens
Jan Luyten
Juergen Zeschky
Introduction and Theoretical Background 227(5)
The Importance of Foam Structure Characterization 227(1)
Structure-Dependent Properties 228(2)
Parameters Describing the Structure of the Foams 230(2)
Characterization of Foam Pore Structure 232(1)
Sample Preparation 233(30)
Characterization Methods 233(29)
Comparison of Methods 262(1)
Summary 263(4)
Modeling Structure--Property Relationships in Random Cellular Materials 267(22)
Anthony P. Roberts
Introduction 267(1)
Theoretical Structure--Property Relations 268(5)
Modeling and Measuring Structure 273(7)
Computational Structure--Property Relations 280(5)
Summary 285(4)
Part 4 Properties 289(112)
Mechanical Properties 291(22)
Roy Rice
Introduction 291(1)
Modeling the Porosity Dependence of Mechanical Properties of Cellular Ceramics 292(7)
Earlier Models 292(2)
Gibson--Ashby Models 294(1)
Minimum Solid Area (MSA) Models 295(3)
Computer Models 298(1)
Porosity Effects on Mechanical Properties of Cellular Ceramics 299(8)
Honeycomb Structures 299(2)
Foams and Related Structures 301(6)
Discussion 307(3)
Measurement--Characterization Issues 307(1)
Impact of Fabrication on Microstructure 308(1)
Porosity--Property Trade-Offs 309(1)
Summary 310(3)
Permeability 313(29)
Murilo Daniel de Mello Innocentini
Pilar Sepulveda
Fernando dos Santos Ortega
Introduction 313(1)
Description of Permeability 313(2)
Experimental Evaluation of Permeability 315(2)
Models for Predicting Permeability 317(14)
Granular Media 318(2)
Fibrous Media 320(1)
Cellular Media 321(10)
Viscous and Inertial Flow Regimes in Porous Media 331(7)
Summary 338(4)
Thermal Properties 342(19)
Thomas Fend
Dimosthenis Trimis
Robert Pitz-Paal
Bernhard Hoffschmidt
Oliver Reutter
Introduction 342(1)
Thermal Conductivity 342(8)
Experimental Methods to Determine the Effective Thermal Conductivity without Flow 345(3)
Method to Determine the Effective Thermal Conductivity with Flow 348(2)
Specific Heat Capacity 350(1)
Thermal Shock 350(2)
Volumetric Convective Heat Transfer 352(7)
Nusselt/Reynold Correlations and Comparison with Theoretical Data 354(5)
Summary 359(2)
Electrical Properties 361(20)
Hans-Peter Martin
Joerg Adler
Introduction and Fundamentals 361(5)
Specific Aspects of Electrical Properties of Cellular Solids 366(10)
Honeycombs 367(1)
Biomimetic Ceramic Structures 368(1)
Ceramic Foams 369(5)
Ceramic Fibers 374(2)
Electrical Applications of Cellular Ceramics 376(3)
Foam Ceramic Heaters 376(2)
Electrically Conductive Honeycombs 378(1)
Summary 379(2)
Acoustic Properties 381(20)
Iain D.J. Dupere
Tian J. Lu
Ann P. Dowling
Introduction 381(1)
Acoustic Propagation 381(3)
Linearized Equations of Motion 381(1)
Wave Equation 382(1)
Relationships between Acoustic Parameters under Inviscid Conditions 383(1)
Acoustic Energy 384(1)
Acoustic Properties 384(3)
Acoustic Impedance and Admittance 384(2)
Acoustic Wavenumber 386(1)
Reflection Coefficient, Transmission Coefficient, and Transmission Loss 386(1)
Absorption Coefficient 387(1)
Experimental Techniques 387(2)
Moving-Microphone Technique 387(1)
Two- and Four-Microphone Techniques 388(1)
Empirical Models 389(1)
Theoretical Models 390(7)
Viscous Attenuation in Channels (Rayleigh's Model) 390(1)
Acoustic Damping by an Array of Elements Perpendicular to the Propagation Direction 391(1)
Generalized Models 392(1)
Complex Viscosity and Complex Density Models 392(1)
Direct Models 393(2)
Biot's Model 395(1)
Lambert's Model 396(1)
Acoustic Applications of Cellular Ceramics 397(1)
Summary 398(3)
Part 5 Applications 401(220)
Liquid Metal Filtration 403(13)
Rudolph A. Olson III
Luiz C. B. Martins
Introduction 403(1)
Theory of Molten-Metal Filtration 404(4)
Commercial Applications 408(6)
Aluminum 408(2)
Iron Foundry 410(2)
Steel 412(2)
Summary 414(2)
Gas (Particulate) Filtration 416(23)
Debora Fino
Guido Saracco
Introduction 416(1)
Properties of (Catalytic) Cellular Filters 417(1)
Applications 418(15)
Diesel Particulate Abatement 418(10)
Abatement of Gaseous Pollutants and Fly-Ash 428(5)
Modeling 433(3)
Summary 436(3)
Kiln Furnitures 439(70)
Andy Norris
Rudolph A. Olson III
Introduction 439(2)
Application of Ceramic Foam to Kiln Furniture 441(8)
Longer Life 441(5)
More Uniform Atmosphere Surrounding the Fired Ware 446(1)
Reduction of Frictional Forces during Shrinkage 447(1)
Chemical Inertness 447(1)
Cost Benefits 448(1)
Manufacture of Kiln Furniture 449(3)
Foam Replication Process 449(2)
Foams Manufactured by using Fugitive Pore Formers 451(1)
Summary 452(54)
Applications of Volumetric Porous Burners 498(8)
Summary 506(3)
Acoustic Transfer in Ceramic Surface Burners 509(14)
Koen Schreel
Philip de Goey
Introduction 509(2)
Acoustic Transfer 511(1)
Analytical Model 512(2)
Acoustic Transfer Coefficient for Realistic Porous Ceramics 514(7)
Numerical Results 515(3)
Measurements 518(3)
Summary 521(2)
Solar Radiation Conversion 523(24)
Thomas Fend
Robert Pitz-Paal
Bernhard Hoffschmidt
Oliver Reutter
Introduction 523(2)
The Volumetric Absorber Principle 525(1)
Optical, Thermodynamic, and Fluid-Mechanical Requirements of Cellular Ceramics for Solar Energy Conversion 526(6)
Examples of Cellular Ceramics Used as Volumetric Absorbers 532(4)
Extruded Silicon Carbide Catalyst Supports 532(1)
Ceramic Foams 533(1)
SiC Fiber Mesh 534(1)
Screen-Printed Absorbers (Direct-Typing Process) 535(1)
Material Combinations 536(1)
Absorber Tests 536(3)
Physical Restrictions of Volumetric Absorbers and Flow Phenomena in cellular ceramics 539(6)
Experimental Determination of Nonstable Flow 544(1)
Summary 545(2)
Biomedical Applications: Tissue Engineering 547(24)
Julian R. Jones
Aldo R. Boccaccini
Introduction 547(1)
Regenerative Medicine and Biomaterials 548(1)
Bioactive Ceramics for Tissue Engineering 549(1)
Scaffold Biomaterials for Tissue Engineering 550(2)
Cellular Bioceramics as Scaffolds in Tissue Engineering 552(13)
HA and Other Calcium Phosphates 552(8)
Melt-Derived Bioactive Glasses 560(1)
Sol--Gel-derived Bioactive Glasses 560(4)
Other Bioceramics Exhibiting Cellular Structure 564(1)
Properties of Some Selected Bioactive Ceramic Foams 565(1)
Summary 566(5)
Interpenetrating Composites 571(9)
Jon Binner
Introduction 571(1)
Metal--Ceramic Interpenetrating Composites 572(3)
Polymer--Ceramic Interpenetrating Composites 575(3)
Summary 578(2)
Porous Media in Internal Combustion Engines 580(16)
Miroslaw Weclas
Introduction 580(1)
Novel Engine Combustion Concepts with Homogeneous Combustion Processes 581(2)
Application of Porous-Medium Technology in IC Engines 583(4)
The PM Engine Concept: Internal Combustion Engine with Mixture Formation and Homogeneous Combustion in a PM Reactor 587(3)
PM Engine with Closed PM Chamber 588(1)
PM Engine with Open PM Chamber 589(1)
An Update of the MDI Engine Concept: Intelligent Engine Concept with PM Chamber for Mixture Formation 590(2)
Two-Stage Combustion System for DI Diesel Engine 592(2)
Summary 594(2)
Other Developments and Special Applications 596(25)
Paolo Colombo
Edwin P. Stankiewicz
Introduction 596(1)
Improving the Mechanical Properties of Reticulated Ceramics 596(4)
Ceramic Foams by Reaction Bonding 597(1)
Overcoating of Conventional Reticulated Ceramics 598(1)
Infiltration of the Struts of Reticulated Ceramics 599(1)
Microcellular Ceramic Foams 600(1)
Porous Ceramics with Aligned Pores 601(1)
Porous Superconducting Ceramics 602(1)
Porous Yb2O3 Ceramic Emitter for Thermophotovoltaic Applications 603(1)
Ceramic Foams for Advanced Thermal Management Applications 604(2)
Ceramic Foams for Impact Applications 606(3)
Hypervelocity Impact Shields for Spacecrafts and Satellites 606(2)
Armour Systems 608(1)
Heat Exchangers 609(2)
Ceramic Foams for Semiconductor Applications 611(1)
Duplex filters 611(1)
Lightweight Structures 612(1)
Ceramic Foams as Substrates for Carbon Nanotube Growth 613(1)
Metal Oxide Foams as Precursors for Metallic Foams 614(1)
Zeolite Cellular Structures 615(1)
Current Collectors in Solid Oxide Fuel Cells 616(1)
Sound Absorbers 616(1)
Bacteria/Cell Immobilization 617(1)
Light Diffusers 617(1)
Summary 618(3)
Concluding Remarks 621(4)
Index 625

간단리뷰 (0)

0/1000자
컨텐츠평가
5점 만점에
0점 1점 2점 3점 4점 5점
이미지첨부
(파일용량은 1MB 이하이며, 파일형식은 jpg, jpeg 파일만 업로드 가능합니다.)

    교환/반품/품절안내

    ※ 상품 설명에 반품/교환 관련한 안내가 있는 경우 그 내용을 우선으로 합니다. (업체 사정에 따라 달라질 수 있습니다.)

    교환/반품/품절안내
    반품/교환방법 마이룸 > 주문관리 > 주문/배송내역 > 주문조회 > 반품/교환신청 ,
    [1:1상담>반품/교환/환불] 또는 고객센터 (1544-1900)

    ※ 오픈마켓, 해외배송주문, 기프트 주문시 [1:1상담>반품/교환/환불]
        또는 고객센터 (1544-1900)
    반품/교환가능 기간 변심반품의 경우 수령 후 7일 이내,
    상품의 결함 및 계약내용과 다를 경우 문제점 발견 후 30일 이내
    반품/교환비용 변심 혹은 구매착오로 인한 반품/교환은 반송료 고객 부담
    반품/교환 불가 사유
    • 소비자의 책임 있는 사유로 상품 등이 손실 또는 훼손된 경우
      (단지 확인을 위한 포장 훼손은 제외)
    • 소비자의 사용, 포장 개봉에 의해 상품 등의 가치가 현저히 감소한 경우
      예) 화장품, 식품, 가전제품(악세서리 포함) 등
    • 복제가 가능한 상품 등의 포장을 훼손한 경우
      예) 음반/DVD/비디오, 소프트웨어, 만화책, 잡지, 영상 화보집
    • 소비자의 요청에 따라 개별적으로 주문 제작되는 상품의 경우 ((1)해외주문도서)
    • 디지털 컨텐츠인 eBook, 오디오북 등을 1회 이상 다운로드를 받았을 경우
    • 시간의 경과에 의해 재판매가 곤란한 정도로 가치가 현저히 감소한 경우
    • 전자상거래 등에서의 소비자보호에 관한 법률이 정하는 소비자 청약철회 제한 내용에
      해당되는 경우
    (1) 해외주문도서 : 이용자의 요청에 의한 개인주문상품으로 단순변심 및 착오로 인한 취소/교환/반품 시 ‘해외주문 반품/취소 수수료’ 고객 부담 (해외주문 반품/취소 수수료 : ①서양도서-판매정가의 12%, ②일본도서-판매정가의 7%를 적용)
    상품 품절 공급사(출판사) 재고 사정에 의해 품절/지연될 수 있으며, 품절 시 관련 사항에 대해서는
    이메일과 문자로 안내드리겠습니다.
    소비자 피해보상
    환불지연에 따른 배상
    • 상품의 불량에 의한 교환, A/S, 환불, 품질보증 및 피해보상 등에 관한 사항은
      소비자분쟁해결 기준 (공정거래위원회 고시)에 준하여 처리됨
    • 대금 환불 및 환불지연에 따른 배상금 지급 조건, 절차 등은 전자상거래 등에서의
      소비자 보호에 관한 법률에 따라 처리함
    바로가기
    • 우측 확장형 배너 2
    • 우측 확장형 배너 2
    최근 본 상품