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Engineering Mechanics of Composite Materials 

Engineering Mechanics of Composite Materials refers to a process that analyses the behaviour and properties of composite materials which are rigid, has higher strength,the components are light in weight. It is utilized in aircraft, automobiles, biomedical products, infrastructure and a myriad of other goods.

Engineering mechanics of composite materials are compared on several basis such as, micromechanics, macromechanics, material characterization, design and optimization, fabrication technology, maintenance and durability, and cost effectiveness. And it can be improved by observing the following factors that is, corrosion resistance, wear resistance, appearance, temperature-dependent behavior, environmental stability, thermal insulation and conductivity, and acoustic insulation.

Some of the important topics covered by Engineering Mechanics of Composite Materials are as follows:

  • Fiber-Reinforced Composite Materials
  • Linear Elastic Stress-strain Characteristics
  • Prediction of Engineering Properties-Micro
  • Plane Stress-strain Assumptions / Relations
  • Classical Lamination Theory – Kirchoff’s
  • Hypothesis
  • Classical Lamination Theory – Laminate
  • Stiffness Matrix
  • Classical Lamination Theory - Examples
  • Failure Theories for Fiber-Reinforced Materials:
  • Maximum Stress Criterion
  • Failure Theories for Fiber-Reinforced Materials:
  • The Tsai-Wu Criterion
  • Fabrication of Laminated Composite Plates

 MECHANICS OF COMPOSITE MATERIALS

  • Advantage of composite materials 
  • composites and mechanics of composites for analytical approaches to model the behavior of material
  • various kinds of composite materials
  • composite fabrication techniques
  • physical and mechanical behavior of composites
  • analytical and experimental methodologies

Engineering Mechanics of Composite Materials 

  • composites, strong fibres, glass fibres, carbon fibres., silicon carbide, alumina and alumina/silica compounds, organic fibres , styles of reinforcement , functions of matrix, metals , polymeric materials, glasses ceramics ,
  • cement, making composite materials, polymermatrix composites metalmatrix composites ceramicmatrix composites, optical inspection , radiographic methods, rmal imaging, ultrasonic techniques , optical fibre sensors, microwave methods, dynamic mechanical analysis
  • acoustic emission methods, elastic properties of fibre composites, simple micromechanical models, halpintsai equations , compression , anisotropic properties of a thin lamina , orientationdependence of elastic properties of a unidirectional lamina,
  • laminates, shortfibre composites , strength of fibre composites, tensile strength, unidirectional continuous fibre composites, problem of strength of brittle fibres, progressive damage and failure in unidirectional composites, calculation of tensile strength of a unidirectional composite , transverse strength , orientationdependence of composite strength
  • strengths of multiply laminates, shortfibre composites, hybrid composites , compression strength, compression strength after impact, shear strength , shear strength of interfacial bond, flexural strength , failure criteria for complex stresses,
  • strength of ceramicmatrix composites, fracture and toughness of composites, fracture formalisms, matrix effects , fibre effects , simple fibre matrix addition effects, toughness deriving from composite action , toughening mechanisms in fibrereinforced plastics
  • toughness of hybrid composites, toughness of laminated structures , toughness of practical reinforced plastic laminates., shortfibre composites, design of damagetolerant composites , toughness of ceramicmatrix composites ,
  • matrix cracking , fibre bridging, fibrepull out, application of fracture mechanics to composites , strength of notched composites and notch sensitivity , application of fracture mechanics , application to specific composites,
  • references to chapter fatigue behaviour of fibre composites , damage in composites , definition of failure , experimental scatter, classical fatigue, stress/life curves , statistical aspects of analysis of fatigue data
  • materials factors affecting fatigue behaviour of reinforced plastics, or factors affecting fatigue of reinforced plastics , damage accumulation and residual strength, fatigue under conditions of variable stress,
  • block loading prediction, fatigue of metalmatrix , resin effects , composite effects, grp in corrosive environments , hightemperature strength and creep of composites, Composites, Composite Construction,
  • Properties of Unidirectional, Long Fiber Composites, Short Fiber Composites, Linear Elasticity for Anisotropic , Materials, Rotations of Stresses, Strains, Failure Criterion, Laminate Analysis, Residual Stresses, Fracture Mechanics of Composites, Environmental Issues, Composite Joints, Metal and Ceramic Matrix

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