Manufacturing techniques for metal matrix composites (MMC): an overview

Singh, Latika; Singh, Bharat; Saxena, Kuldeep K.

doi:10.1080/2374068x.2020.1729603

Cited by 67 publications

(30 citation statements)

References 81 publications

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“…They also stated the feasibility of methods to be used for particular applications. Singh et al [2] from their work, it is clear that the metal matrix plays a crucial role in industrial applications due to its unique properties. The unique properties of MMCs are excellent strength to weight ratio, dimensional stability, high specific stiffness.…”

Section: Fig-1: Schematic Of Sandwich Compositementioning

confidence: 99%

Manufacturing of Kevlar-Mg AZ31B Alloy Sandwich Composite

Lotake¹

2022

IJSREM

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–In this research manufacturing of the Kevlar-Mg AZ31B sandwich composite is done. Sandwich is prepared using Kevlar fiber and Mg AZ31B alloy. This sandwich composite is manufactured by Vacuum Assisted Resin Transfer Moulding (VARTM) method. This method uses the vacuum and pressure difference causes the bonding of fiber- metal surface using epoxy resin. In this sandwich composite Mg AZ31B alloy act as core material and Kevlar fiber as a face skin. This fiber-metal sandwich composite will have enhanced mechanical properties than core material. Key Words:Kevlar, Mg AZ31B alloy, Sandwich composite, VARTM.

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Section: Fig-1: Schematic Of Sandwich Compositementioning

confidence: 99%

Manufacturing of Kevlar-Mg AZ31B Alloy Sandwich Composite

Lotake¹

2022

IJSREM

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“…The inclusion of small particles as the second step increases the surface hardness, corrosion resistance, wear resistance, and rising temperature inertness of composite coatings [17]. These characteristics are primarily determined by each matrix phase of a composite coating, as well as the quantity and dispersion of co-deposited grains, which are controlled by some process factors including particle properties, electrolyte composition, and supplied current [18,19].…”

Section: Abstract a R T I C L E I N F O R M A T I O Nmentioning

confidence: 99%

Electrodeposition of Nickel matrix composite coatings via various Boride particles: A review

Torkamani

Velashjerdi

Abbas

et al. 2021

jcc

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Composite electrodeposition or Electroplating is a process primarily applied in the industry through which metal substrates are coated with an additional phase, such as low-thickness films of a range of metals. Lately, the advent of coating based on metal matrix through deposition has been vital because the superior hardness has more improved wear and corrosion resistance than alloy-based or pure coatings of metal. Nickel is an engineering material, which has been broadly utilized for metal matrix applications. This paper summarizes recent research on the electrodeposition of nickel matrix composite coatings with borides ceramic particles. Some of these particles are ZrB 2 , BN, TiB 2 , Ni 3 B, CrB 2 , etc. in the nickel matrix. In addition, the most important results achieved in the field of these composite coatings were collected in this review.

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“…This produces a significant improvement in Young's modulus and hardness due to the addition of a low weight fraction of A nanometric [1]. The influence of using Al 2 O 3 , TiO 2 , and ZrO 2 nanoparticles with a size of 40 nm on a base metal matrix (A356 aluminum cast alloy) was studied in [2,3]. With various fraction ratios ranging from 0 % to 5 %, they were stirred in the A356 matrix, by weight at variable stirring speeds varying from 270 to Furthermore, [4] investigated the influence of adding reinforcements into the metallic matrix on the mechanical properties.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Development in mechanical and fatigue properties of AA6061/AL2O3 nanocomposites under stirring temperature (ST)

Abed¹,

Khenyab

Al-Alkawi³

2021

EEJET

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Aluminum is expected to remain the core material for many critical applications such as aircraft and automobiles. This is due to the high resistance to different environmental conditions, desired and manageable mechanical properties, as well as high fatigue resistance. Aluminum nanocomposites such as AA6061/Al2O3 can be made in many ways using a liquid metallurgy method. The main challenges for this method in the production of nanocomposites are the difficulties of achieving a uniform distribution of reinforcing materials and possible chemical reactions between the reinforcing material and the matrix. For structural applications exclusive to aerospace sectors. The growing cost-effective nanocomposites mass production technology with essential operational and geometric flexibility is a big challenge all the time. Each method of preparing AA6061/Al2O3 nanocomposites can provide different mechanical properties. In the present study, nine nanocomposites were prepared at three stirring temperatures (800, 850, and 900 °C) with the level of Al2O3 addition of 0, 5, 7, and 9 wt %. The results of tensile, hardness and fatigue tests revealed that the composite including 9 wt % Al2O3 with 850 °C stirring temperatures has the best properties. It was also revealed that the 850 °C stirring temperature (ST) with 9 wt % Al2O3 composite provide an increase in tensile strength, VHN and reduction in ductility by 20 %, 16 % and 36.8 % respectively, compared to zero-nano. Also, the fatigue life at the 90 MPa stress level increased by 17.4 % in comparison with 9 wt % nanocomposite at 800 °C (ST). Uniform distributions were observed for all nine microstructure compositions.

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Manufacturing techniques for metal matrix composites (MMC): an overview

Cited by 67 publications

References 81 publications

Manufacturing of Kevlar-Mg AZ31B Alloy Sandwich Composite

Manufacturing of Kevlar-Mg AZ31B Alloy Sandwich Composite

Electrodeposition of Nickel matrix composite coatings via various Boride particles: A review

Development in mechanical and fatigue properties of AA6061/AL2O3 nanocomposites under stirring temperature (ST)

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