Composite Materials: Analysis and Design - Sharifsharif.edu/~toufigh/cources/Lec1.pdf · Chapter 1:...
Transcript of Composite Materials: Analysis and Design - Sharifsharif.edu/~toufigh/cources/Lec1.pdf · Chapter 1:...
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Composite Materials: Analysis
and Design
Vahab Toufigh, Ph.D., P.E.
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Chapter 1:
Introduction to Composite
Materials
Composite Materials: Analysis and Design
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Chapter 1: Introduction
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Definition of Composite Materials
FRP Composite Constituent Materials
• Fibers
• Matrices
Characteristics of FRP Materials
Application of FRP Composites
Outline
Type of Composites
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Chapter 1: Introduction
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Definition of Composite Materials?
Materials created by
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Chapter 1: Introduction
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Definition of composite materials?
• Reinforcing phase:
• Matrix phase:
In the case of advanced composite materials
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Chapter 1: Introduction
Composite Materials:
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Fibers
Improved properties over parent
constituent materials are the
most desirable characteristic of
composites:
C
G
A
Serves to bind the reinforcement
together, transfers loads to the
reinforcement,
Matrix
Composite
P thermosets thermoplastics
M
C
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Chapter 1: Introduction
Description of Constituent Materials
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Chapter 1: Introduction
FRP Materials: Matrix + Fiber= FRP
Combing fibers and matrix gives a composite material
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Chapter 1: Introduction
Fiber Choice for Different Matrix Materials
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Chapter 1: Introduction
Fiber Components:
3 fibers commonly used in infrastructure applications
Factors influencing fiber suitability:
● S ● S
● C ● A
● En
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Chapter 1: Introduction
Fibers VS. Human Hair:
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Chapter 1: Introduction
Glass Fibers :
● Inexpensive
● Most commonly used
● Several grades available:
● High strength, moderate modulus, medium density
● Used in non weight/modulus critical applications.
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Chapter 1: Introduction
Typical Composition of Different Types of Glass
Fibers:
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Chapter 1: Introduction
Typical Properties of Glass Fibers :
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Chapter 1: Introduction
Carbon Fibers :
● Significantly higher cost than glass
● Several grades available:
•Standard modulus → GPa
•Intermediate → GPa
•High → GPa
•Ultra-high → GPa
● High strength, high modulus, low density
● Superior durability and fatigue characteristics
● Used in weight/modulus critical applications. 15
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Chapter 1: Introduction
Typical Properties of Carbon Fibers:
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Chapter 1: Introduction
Aramid (Organic) Fibers
● Moderate to high cost
● Verity grades available:
K29, K49, K149
● High
● Low
● Some durability concerns:
•Potential
•Potential 17
Kevlar is the most commercially recognized brand:
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Chapter 1: Introduction
Typical Properties of Aramid Fibers :
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Chapter 1: Introduction
Thermal Stability of Fibers:
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Steel melting point ≈ 1000 ℃
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Chapter 1: Introduction
Stress–strain behavior of various fibers:
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Chapter 1: Introduction
Fibrous Reinforcement:
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The theoretical longitudinal strength of a fiber is
approximately:
The typical measured strength of a fiber is
approximately:
where E is a fiber’s longitudinal modulus of elasticity.
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Chapter 1: Introduction
Matrix Constituents: The selection of matrix material is often influenced by the
required temperature performance of the composite.
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Polymers
Ceramics
Temperature range for different matrix materials.
Metals
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Chapter 1: Introduction
Matrix Constituents:
Metal and ceramic matrices have not been used in civil infrastructure
applications because of cost. Polymers are the most commonly used
form of matrix in civil infrastructure applications.
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Advantages of polymer matrices :
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Chapter 1: Introduction
Polymers: Polymer matrices are classified into thermosets and thermoplastics:
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Thermosets
Thermosets are
Typical
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Chapter 1: Introduction
Thermosets:
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Chapter 1: Introduction
Thermoplastics:
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Thermoplastics are
Typical thermoplastics include
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Chapter 1: Introduction
Characteristics of FRP Materials?
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Chapter 1: Introduction
Fatigue
● Fatigue:
● Carbon FRPs:
● Glass FRPs:
● Aramid FRPs:
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Chapter 1: Introduction
Creep and Creep-Rupture
●Creep:
●Fibers:
●Matrix:
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●For Unidirectional FRPs
Creep not a
Glass
Aramid
Carbon
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Chapter 1: Introduction
Temperature
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Chapter 1: Introduction
Fire
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