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Advanced mechanics of materials 5th ed

Advanced mechanics of materials 5th ed (21회 대출)

자료유형
단행본
개인저자
Boresi, Arthur P. (Arthur Peter), 1924- Schmidt, Richard J. (Richard Joseph), 1954-. Sidebottom, Omar M. (Omar Marion).
서명 / 저자사항
Advanced mechanics of materials / Arthur P. Boresi, Richard J. Schmidt, Omar M. Sidebottom.
판사항
5th ed.
발행사항
New York :   Wiley,   c1993.  
형태사항
xvii, 811 p. : ill. ; 26 cm.
ISBN
0471551570
서지주기
Includes bibliographical references and index.
일반주제명
Strength of materials.
비통제주제어
Materials,,
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001 000000477004
005 19981118140241.0
008 920812s1993 nyua b 001 0 eng
010 ▼a 92030349
015 ▼a GB93-28366
020 ▼a 0471551570
040 ▼a DLC ▼c DLC ▼d UKM
049 1 ▼l 421115795 ▼f 과학
050 0 0 ▼a TA405 ▼b .B66 1993
082 0 0 ▼a 620.1/12 ▼2 20
090 ▼a 620.1 ▼b A244-5
100 1 ▼a Boresi, Arthur P. ▼q (Arthur Peter), ▼d 1924-
245 1 0 ▼a Advanced mechanics of materials / ▼c Arthur P. Boresi, Richard J. Schmidt, Omar M. Sidebottom.
250 ▼a 5th ed.
260 ▼a New York : ▼b Wiley, ▼c c1993.
300 ▼a xvii, 811 p. : ▼b ill. ; ▼c 26 cm.
504 ▼a Includes bibliographical references and index.
650 0 ▼a Strength of materials.
653 0 ▼a Materials
700 1 ▼a Schmidt, Richard J. ▼q (Richard Joseph), ▼d 1954-.
700 1 ▼a Sidebottom, Omar M. ▼q (Omar Marion).

소장정보

No. 소장처 청구기호 등록번호 도서상태 반납예정일 예약 서비스
No. 1 소장처 과학도서관/Sci-Info(2층서고)/ 청구기호 620.1 A244-5 등록번호 421115795 도서상태 대출가능 반납예정일 예약 서비스 B M

컨텐츠정보

저자소개

Arthur P. Boresi(지은이)

<동역학>

J. Richard(지은이)

Omar M. Sidebottom(지은이)

정보제공 : Aladin

목차


CONTENTS
PART Ⅰ FUNDAMENTAL CONCEPTS = 1
 1 Introduction = 3
  1.1 The Role of Design = 3
  1.2 Topics Treated in This Book = 4
  1.3 Load-Stress and Load-Deflection Relations = 5
  1.4 Stress-Strain Relations = 8
  1.5 Failure and Limits on Design = 17
  Problems = 24
  References = 26
 2 Theories of Stress and Strain = 28
  2.1 Definition of Stress at a Point = 28
  2.2 Stress Notation = 30
  2.3 Symmetry of the Stress Array and Stress on an Arbitrarily Oriented Plane = 32
  2.4 Transformation of Stress. Principal Stresses. Other Properties = 35
  2.5 Differential Equations of Motion of a Deformable Body = 52
  2.6 Deformation of a Deformable Body = 56
  2.7 Strain Theory. Transformation of Strain. Principal Strains = 57
  2.8 Small-Displacement Theory = 64
  2.9 Strain Measurement. Strain Rosettes = 73
  Problems = 75
  References = 84
 3 Linear Stress-Strain-Temperature Relations = 85
  3.1 First Law of Thermodynamics. Internal-Energy Density. Complementary Internal-Energy Density = 85
  3.2 Hooke's Law : Anisotropic Elasticity = 90
  3.3 Hooke's Law : Isotropic Elasticity = 92
  3.4 Equations fo Thermoelasticity for Isotropic Materials = 99
  3.5 Hooke's Law : Orthotropic Materials = 101
  Problems = 110
  References = 112
 4 Inelastic Material Behavior = 113
  4.1 Limitations of the Use of Uniaxial Stress-Strain Data = 113
  4.2 Nonlinear Material Response = 116
  4.3 Yield Criteria : General Concepts = 126
  4.4 Yielding of Ductile Metals = 130
  4.5 Alternative Yield Criteria = 140
  4.6 Comparison of Failure Criteria for General Yielding = 144
  Problems = 154
  References = 162
 5 Applications of Energy Methods = 163
  5.1 Principle of Stationary Potential Energy = 163
  5.2 Castigliano's Theorem on Deflections = 169
  5.3 Castigliano's Theorem on Deflections for Linear Load-Deflection Relations = 173
  5.4 Deflections of Statically Determinate Structures = 179
  5.5 Statically Indeterminate Structures = 196
  Problems = 208
  References = 232
PART Ⅱ CLASSICAL TOPICS IN ADVANCED MECHANICS = 235
 6 Torsion = 237
  6.1 Torsion of a Prismatic Bar of Circular Cross Section = 237
  6.2 Saint-Venant's Semi inverse Method = 243
  6.3 Linear Elastic Solution = 248
  6.4 The Prandtl Elastic-Membrane(Soap-Film) Analogy = 253
  6.5 Narrow Rectangular Cross Section = 257
  6.6 Hollow thin-Wall Torsion Members. Multiply Connected Cross Section = 260
  6.7 Thin-Wall Torsion Members with Restrained Ends = 266
  6.8 Numerical Solution of the Torsion Problem = 274
  6.9 Fully Plastic Torsion = 277
  Problems = 283
  References = 291
 7 Nonsymmetrical Bending of Straight Beams = 293
  7.1 Definition of Shear Center in Bending. Symmetrical and Nonsymmetrical Bending = 293
  7.2 Bending Stresses in Beams Subjected to Nonsymmetrical Bending = 302
  7.3 Deflections of Straight Beams Subjected to Nonsymmetrical Bending = 312
  7.4 Effect of Inclined Loads = 316
  7.5 Fully Plastic Load for Nonsymmetrical Bending = 318
  Problems = 320
  References = 330
 8 Shear Center for Thin-Wall Beam Cross Sections = 331
  8.1 Approximations for Shear in Thin-Wall Beam Cross Sections = 331
  8.2 Shear Flow in Thin-Wall Beam Cross Sections = 334
  8.3 Shear Center for a Channel Section = 336
  8.4 Shear Center of Composite Beams formed from Stringers and Thin Webs = 342
  8.5 Shear Center of Box Beams = 346
  Problems = 350
  References = 361
 9 Curved Beams = 362
  9.1 Introduction = 362
  9.2 Circumferential Stresses in a Curved Beam = 363
  9.3 Radial Stresses in Curved Beams = 373
  9.4 Correction of Circumferential Stresses in Curved Beams Having I-, T-, or Similar Cross Sections = 379
  9.5 Defections of Curved Beams = 385
  9.6 Statically Indeterminate Curved Beams. Closed Ring subjected to a Concentrated Load = 391
  9.7 Fully Plastic Loads for Curved Beams = 393
  Problems = 395
  References = 403
 10 Beams on Elastic Foundations = 404
  10.1 General Theory = 405
  10.2 Infinite Beam Subjected to a Concentrated Load : Boundary Conditions = 407
  10.3 Infinite Beam Subjected to a Distributed Load Segment = 417
  10.4 Semi infinite Beam Subjected to Loads at Its End = 421
  10.5 Semi infinite Beam with Concentrated Load near Its End = 422
  10.6 Short Beams = 424
  10.7 Thin-Wall Circular Cylinders = 426
  Problems = 432
  References = 439
 11 The Thick-Wall Cylinder = 440
  11.1 Basic Relations = 440
  11.2 Stress Components for a Cylinder with Closed Ends = 444
  11.3 Stress Components and Radial Displacement for Constant Temperature = 447
  11.4 Criteria of Failure = 451
  11.5 Fully Plastic Pressure. Autofrettage = 457
  11.6 Cylinder Solution for Temperature Change Only = 462
  Problems = 465
  References = 468
 12 Elastic and Inelastic Stability of Columns = 469
  12.1 Introduction to the Concept of Column buckling = 470
  12.2 Deflection Response of Columns to Compressive Loads = 472
  12.3 The Euler Formula for Columns with Pinned Ends = 475
  12.4 Euler Buckling of Columns with General End Constraints = 484
  12.5 Local Buckling of Columns = 488
  12.6 Inelastic buckling of Columns = 490
  Problems = 500
  References = 507
PART Ⅲ SELECTED ADVANCED TOPICS = 509
 13 Flat Plates = 511
  13.1 Introduction = 511
  13.2 Stress Resultants in a Flat Plate = 512
  13.3 Kinematics : Strain-Displacement Relations for Plates = 516
  13.4 Equilibrium Equations for Small-Displacement Theory of Flat Plates = 521
  13.5 Stress-Strain-Temperature Relations for Isotropic Elastic Plates = 523
  13.6 Strain Energy of a Plate = 526
  13.7 Boundary Conditions for Plates = 527
  13.8 Solution of Rectangular Plate Problems = 531
  13.9 Solution of Circular Plate Problems = 542
  Problems = 555
  References = 559
 14 Stress Concentrations = 560
  14.1 Nature of a Stress Concentration Problem. Stress Concentration Factor = 562
  14.2 Stress Concentration Factors. Theory of Elasticity = 565
  14.3 Stress Concentration Factors. Combined Loads = 574
  14.4 Stress Concentration Factors. Experimental Techniques = 581
  14.5 Effective Stress Concentration Factors = 591
  14.6 Effective Stress Concentration Factors. Inelastic Strains = 598
  Problems = 601
  References = 606
 15 Fracture Mechanics = 608
  15.1 Failure Criteria. Fracture = 608
  15.2 The Stationary Crack = 617
  15.3 Crack Propagation. Stress Intensity Factor = 621
  15.4 Fracture : Other Factors = 626
  Problems = 629
  References = 631
 16 Fatigue : Progressive Fracture = 634
  16.1 Progressive Fracture(High Cycle Fatigue of Number of Cycles N>$$10^6$$) = 635
  16.2 Effective Stress Concentration Factors : Repeated Loads = 642
  16.3 Effective Stress Concentration Factors : Other Influences = 644
  Problems = 649
  References = 653
 17 Creep. Time-Dependent Deformation = 655
  17.1 Definition of Creep. the Creep Curve = 655
  17.2 The Tension Creep Test for Metals = 657
  17.3 One-Dimensional Creep Formulas for Metals Subjected to Constant Stress and Elevated Temperature = 658
  17.4 One-Dimensional Creep of Metals Subjected to Variable Stress and Temperature = 663
  17.5 Creep Under Multiaxial States of Stress = 673
  17.6 Flow Rule for Creep of Metals Subjected to Multiaxial States of Stress = 677
  17.7 A Simple Application of Creep of Metals = 682
  17.8 Creep of Nonmetals = 683
  References = 688
 18 Contact Stresses = 692
  18.1 Introduction = 692
  18.2 The Problem of Determining Contact stresses = 693
  18.3 Geometry of the Contact Surface = 695
  18.4 Notation and Meaning of Terms = 700
  18.5 Expressions for Principal Stresses = 701
  18.6 Method of Computing Contact Stresses = 702
  18.7 Deflection of Bodies in Point Contact = 711
  18.8 Stress for Two Bodies in Line Contact. Loads Normal to Contact Area = 716
  18.9 Stresses for Two Bodies in Line Contact. Loads Normal and Tangent to Contact Area = 718
  Problems = 727
  References = 731
 19 The Finite Element Method = 732
  19.1 Introduction = 732
  19.2 Formulation for Plane Elasticity = 735
  19.3 The Bilinear Rectangle = 753
  19.4 The Linear Isoparametric Quadrilateral = 760
  19.5 the Plane Frame Element = 766
  19.6 Closing Remarks = 775
  Problems = 779
  References = 782
Appendix A Average Mechanical Properties of Selected Materials = 785
Appendix B Second Moment(Moment of Inertia) of a Plane Area = 788
 B.1 Moments of Inertia of a Plane Area = 788
 B.2 Parallel Axis Theorem = 789
 B.3 Transformation Equations for Moments and Products of Inertia = 791
 Problems = 794
Author Index = 797
Subject Index = 801


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