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This review examines different fabrication methods of in-situ metal matrix composites, including their advantages and applications. It discusses the techniques used and the characteristics of these composites.
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Review on Fabrication Methods of in situ Metal Matrix Composites By: 1. Law Mei Lin B050810007 4BMFB1 2. MohdAqhairi Bin Bahari B050810175 4BMFB2 3. MohamadIzzudin Bin Abdul Hamid B050810048 4BMFB1 4. NoorAyuhaanBintiAbdLah B050910310 4BMFB1 5. RianahbintiJiren B050910060 4BMFB2 6. SitiSainillahBintiSulaiman B050910279 4BMFB1 7. NadiahBintiJaafar B050910296 4BMFB1
What is In Situ? In situ is a Latin phrase which translates literally to 'In position'.
What is in situ techniques? Involve a chemical reaction resulting in the formation of a very fine and thermodynamically stable reinforcing ceramic phase within a metal matrix.
Advantages of in situ techniques • There is thermodynamic compatibility at the matrix-reinforcement interface. 2. Also, the reinforcement surfaces are likely to be free of contamination. ~ Therefore, stronger matrix- dispersion bond can be achieved.
Technologies • Powder Metallurgy Method (Fabrication of in situ Fe/TiC) • Liquid-Gas Reaction (Fabrication AlN/Al composite) • Solid-Gas-Liquid Reaction Method (Formation of fine single crystal TiC platelets in the Al based matrix ) 4. In situ – Processed by Ingot Metallurgy (Fabrication of Al-TiC composites) 5. Plasma Metallurgy Method
In situ – Processed by Ingot Metallurgy What it means? in which the solidification process where the reinforcing particles are formed in situ in the molten alloy. Attractiveness: Simplicity Economy Flexibility
In situ – Processed by Ingot Metallurgy • Tong and Fang (1998) fabricated Al-TiC composites: • with refined microstructure, • enhanced dispersion hardening of the reinforcing phases
Al (99.9%) + Ti (99.7%) Graphite powder (40-50 μm) Ingot Metallurgy (Synthesis of composites) Melt in graphite-lined induction furnace with argon gas flow. Heated 1100 °C – 1200°C 1h 1300 °C – 1400°C 10 minutes Mixture direct chill cast into ingot bars
Diagram Example of Ingot Metallurgy
Video(chill block melt spinning) Ribbon shape
Chemical Analysis • The analysis of master ingots was done by the wet method. • Carbon was determined by using automatic combustion apparatus. • Sample is combusted in a stream of oxygen and the carbon of specimen is converted into CO2. • The CO2 is fed into a measuring chamber where the concentration peak is detected with nondispersive spectrometer. • The linear signal is integrated and displaced digitally after weight compensation and blank correction.
AUTOMATIC COMBUSTION APPARATUS Stream of oxygen Chamber Detection with a nondispersive spectrometer
Rapid Solidification Process Ex : TiC particulate-reinforced Al Vapor phase Infiltration Ex : Silica base aerogel/transition metal composite IN SITU MMC APPLICATIONS Controlled crystallization Ex : magnetic device such as choke coils & transfomers
APPLICATIONS OF IN SITU 1) Aerospace In the aerospace industry, equipment on-board aircraft must be tested in situ, or in place, to confirm everything functions properly as a system 2) Petroleum production In situ refers to recovery techniques which apply heat or solvents to heavy oil or bitumen reservoirs beneath the earth's crust. 3) Experimental Physics In situ refers to a method of data collection or manipulation of a sample without exposure to an external environment. 4) Biology In situ means to examine the phenomenon exactly in place where it occurs (i.e. without moving it to some special medium).
1. What is the criteria for reinforcement selection? In general, There are necessary criteria or conditions that must be satisfied for the selection of a ceramic as reinforcement in the manufacture of good and standard metal matrix composites. Such criteria include density, melting temperature, size and shape, elastic modulus, tensile strength, thermal stability, compatibility with matrix material, coefficient of thermal expansion, and cost.
2. Why choose Ti and Al for the In-situ processed by Ingot metallurgy? In general, selection of metal or its alloy as matrix for production of MMC depends on the type, required properties and the kind of application where such composite is required. From this experiment, Al based and Ti based metal matrix composites have a high potential for advanced structural applications when high specific strength as well as good elevated temperature resistance.
3. Why the particulate reinforced MMCs are more interesting due to their ease of fabrication, low costs, and isotropic properties?Answer : The properties of MMCs are controlled by the size and volume fraction of the reinforcement phase as well by the nature of the matrix reinforcement interface4. In traditional MMCs, wetting between molten metal and reinforcements is often poor. How this problem can be treated?Answer : This problem can be treated through a strongly reactive alloying addition, such as Mg and Li and through reinforcement coating.
5) How do we know if MMC is a hybrid composite? 6) What do you have in mind about in situ hybrid composite? 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. When at least three materials are present, it is called a hybrid composite. Scientist do hybrid to pick up good qualities. So there are 2 things better in something they try to mix and make a best item. For e.g. some flower have good looks but no smell and other have great smell but dull look so they mix and try to make a flower with great look and smell together. The authors suggest that it may name as in situ hybrid composite because: It can be achieved in a short processing time Many kinds of ceramic powder can be put into alloy liquid