Metal matrix composites (mmc)
NikhilDixit28
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May 30, 2017
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About This Presentation
Overview of metal matrix composites.
Slide Content
METAL MATRIX COMPOSITES (MMC)
Presented By:-
Nikhil Dixit (16MMF0010)
Presented By:-
Nikhil Dixit (16MMF0010)
CONTENTS
INTRODUCTION
METAL MATRIX COMPOSITES (MMCs)
CLASSIFICATION OF METAL MATRIX COMPOSITE
COMPOSITION AND REINFORCEMENT
PRODUCTION AND PROCESSING OF METAL MATRIX COMPOSITES
GENERAL APPLICATIONS OF METAL MATRIX COMPOSITES
CASE STUDY- AMMC
MICROSTRUCTURE
MECHANICAL PROPERTIES
APPLICATIONS
ADVANTAGES OF MMCs
DISADVANTAGES OF MMCs
FUTURE SCOPE
INTRODUCTION
METAL MATRIX COMPOSITES (MMCs)
CLASSIFICATION OF METAL MATRIX COMPOSITE
COMPOSITION AND REINFORCEMENT
PRODUCTION AND PROCESSING OF METAL MATRIX COMPOSITES
GENERAL APPLICATIONS OF METAL MATRIX COMPOSITES
CASE STUDY- AMMC
MICROSTRUCTURE
MECHANICAL PROPERTIES
APPLICATIONS
ADVANTAGES OF MMCs
DISADVANTAGES OF MMCs
FUTURE SCOPE
INTRODUCTION
•Conventional monolithic materials have limitations in achieving
good combination of strength, stiffness, toughness and density.
•Metal matrix composites (MMCs) possess significantly improved
properties including high specific strength; specific modulus,
damping capacity and good wear resistance compared to
unreinforced alloys.
•Conventional monolithic materials have limitations in achieving
good combination of strength, stiffness, toughness and density.
•Metal matrix composites (MMCs) possess significantly improved
properties including high specific strength; specific modulus,
damping capacity and good wear resistance compared to
unreinforced alloys.
METAL MATRIX COMPOSITES (MMCs)
•A metal matrix composite (MMC) is composite material with at least
two constituent parts, one being a metal.
•The other material may be a different metal or another material, such as
a ceramic or organic compound.
•Example
•When at least three materials are present, it is called a hybrid
composite. (Better substitutes for single reinforce composites)
•A metal matrix composite (MMC) is composite material with at least
two constituent parts, one being a metal.
•The other material may be a different metal or another material, such as
a ceramic or organic compound.
•Example
•When at least three materials are present, it is called a hybrid
composite. (Better substitutes for single reinforce composites)
Fig A Fig B
Fig A1 Fig B1
Fig A1 Fig B1
CLASSIFICATION MMCs
COMPOSITION AND REINFORCEMENT
MMCs are made by dispersing a reinforcing material into a metal matrix.
The reinforcement surface can be coated to prevent a chemical reaction
with the matrix.
The reinforcement material is embedded into the matrix.
It is used to change physical properties such as wear resistance, friction
coefficient, or thermal conductivity.
The reinforcement can be either continuous, or discontinuous.
Commonly used base matrices:
Aluminum, Titanium, Magnesium, Nickel
Commonly used reinforcements:
Silicon Carbide, Titanium Carbide, Boron Carbide, CNT, Fly ash,
Alumina
MMCs are made by dispersing a reinforcing material into a metal matrix.
The reinforcement surface can be coated to prevent a chemical reaction
with the matrix.
The reinforcement material is embedded into the matrix.
It is used to change physical properties such as wear resistance, friction
coefficient, or thermal conductivity.
The reinforcement can be either continuous, or discontinuous.
Commonly used base matrices:
Aluminum, Titanium, Magnesium, Nickel
Commonly used reinforcements:
Silicon Carbide, Titanium Carbide, Boron Carbide, CNT, Fly ash,
Alumina
Reinforcements for metal matrix composites have a manifold demand
profile, which is determined by production and processing and by the
matrix system of the composite material. The following demands are
generally applicable:
Low density,
Mechanical compatibility and Chemical compatibility
Thermal stability
High Young’s modulus
High compression and tensile strength
Good process ability
Economic efficiency
profile, which is determined by production and processing and by the
matrix system of the composite material. The following demands are
generally applicable:
Low density,
Mechanical compatibility and Chemical compatibility
Thermal stability
High Young’s modulus
High compression and tensile strength
Good process ability
Economic efficiency
PROCESSING TECHNIQUES OF MMC
•Stir Casting
Initial Treatment
Heating above Liquidus Temperature (650
o
C - 900
o
C)
Cooling down to a semi solid state
Addition of Pre-heated Reinforcement
Adding pre-heated reinforcement to semisolid state of matrix melt.
Heating mixture again to liquidus state.
Stirring
Gradually increasing stirring speed from 0 to 350 rpm
Cooling and Solidification
Stir Casting Process
Initial Treatment
Heating above Liquidus Temperature (650
o
C - 900
o
C)
Cooling down to a semi solid state
Addition of Pre-heated Reinforcement
Adding pre-heated reinforcement to semisolid state of matrix melt.
Heating mixture again to liquidus state.
Stirring
Gradually increasing stirring speed from 0 to 350 rpm
Cooling and Solidification
Stir Casting Process
•Powder Metallurgy
Preparation of Powder
Ball Mill
Blending
Hot Pressing
Compaction
Sintering (650
o
C, 450MPa)
Extrusion
Finishing
Polishing
Powder Metallurgy Process
Preparation of Powder
Ball Mill
Blending
Hot Pressing
Compaction
Sintering (650
o
C, 450MPa)
Extrusion
Finishing
Polishing
Powder Metallurgy Process
GENERAL APPLICATIONS
Source – Manufacturing Engg. And Technology, Robert Schmid
Source – Manufacturing Engg. And Technology, Robert Schmid
CASE STUDY- AMMC
Aluminum Metal + Other Metal+ Reinforcement = AMMC
Ex. Al + Mg + SiC
Properties
1.High Strength to Weight ratio.
2.High Stiffness.
3.Good Wear and Corrosion Resistance
Applications
Aerospace, Automobile, etc.
Aluminum Metal + Other Metal+ Reinforcement = AMMC
Ex. Al + Mg + SiC
Properties
1.High Strength to Weight ratio.
2.High Stiffness.
3.Good Wear and Corrosion Resistance
Applications
Aerospace, Automobile, etc.
MICROSTRUCTURES
Aluminum Base alloy
Al + 20p SiC
Al + 20p Al2O3
Base Alloy (Large
Grain Size)
Grain
Refinement,
Low
Segregation
High
agglomeration
rate
Aluminum Base alloy
Al + 20p SiC
Al + 20p Al2O3
Base Alloy (Large
Grain Size)
Grain
Refinement,
Low
Segregation
High
agglomeration
rate
EFFECT ON MECHANICAL PROPERTIES
Research Analysis
We conducted a brief research analysis to observe how various researchers
experimented with various aspects of AMMC.
In one of the papers written by Nageshwara et.al. the base metal was
taken as Al A356 and the reinforcement used was 0-8% SiC and RHA and
observed the cutting forces with respect to the amount of reinforcement
used and the various cutting parameters.
Amit et.al. performed a microstructure study AMMC reinforced with ball
milled nano particles. They studied various production techniques and used
XRD and SEM to study the microstructures.
We conducted a brief research analysis to observe how various researchers
experimented with various aspects of AMMC.
In one of the papers written by Nageshwara et.al. the base metal was
taken as Al A356 and the reinforcement used was 0-8% SiC and RHA and
observed the cutting forces with respect to the amount of reinforcement
used and the various cutting parameters.
Amit et.al. performed a microstructure study AMMC reinforced with ball
milled nano particles. They studied various production techniques and used
XRD and SEM to study the microstructures.
Analysis of Cutting Forces
Microstructure
Comparison of Various Production
Process (Observed by Amit et.al.)
Process (Observed by Amit et.al.)
Cont.
APPLICATIONS
AUTOMOBILE
BRAKE ROTOR
CYLINDER HEAD
DIESEL PISTON
DISC BRAKE CALIPER
BRAKE ROTOR
CYLINDER HEAD
DIESEL PISTON
DISC BRAKE CALIPER
AEROSPACE
ADVANTAGES
Higher temperature capability
Fire resistance
Higher transverse stiffness and strength
No moisture absorption
Higher electrical and thermal conductivities
Better radiation resistance
Fabric ability of whisker and particulate-reinforced MMCs with
conventional metalworking equipment.
Higher temperature capability
Fire resistance
Higher transverse stiffness and strength
No moisture absorption
Higher electrical and thermal conductivities
Better radiation resistance
Fabric ability of whisker and particulate-reinforced MMCs with
conventional metalworking equipment.
DISADVANTAGES
Higher cost of materials
Complex fabrication methods for fiber-reinforced systems (except
for casting)
Higher cost of materials
Complex fabrication methods for fiber-reinforced systems (except
for casting)
THANK YOU
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