Experimental Investigation of Surface Roughness in Electric Discharge Machining of Hybrid Metal Matrix Composite

Matharou, Gurpreet Singh; Bhuyan, Basanta Kumar

doi:10.1007/978-981-16-2794-1_30

Cited by 4 publications

(4 citation statements)

References 15 publications

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“…Table 3 (a-c) presents the physical and thermal properties of B 4 C [12], Al6063 [4], and SiC [13], respectively.…”

Section: Hmmc Properties and Test Analysis 51 Properties Of The Indiv...mentioning

confidence: 99%

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Selection and Fabrication of HMMC (AL6063-SIC-B4C-MG)

Matharou¹,

Kaur²

2023

Recent Developments in Nanofibers Research

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This unit deals with the selection and fabrication of HMMC (Al6063-10SiC-5B4C-Mg) constituents by extensive biography review and satisfactory fabrication design. Researchers have promoted an extensive collection of Al6063 composites employing organic and inorganic reinforcements. The fundamental purpose of the broken-up stages is to constrain the metal matrix in a relevant capacity to strengthen the properties of the base materials. In the case of Al6063, the reinforcement weighty subject matter in the composite varies from 5 wt.% to 30 wt.%. Diverse classes of reinforcements had sought to integrate and operate in the composite formulation as hybrid reinforcements. This chapter further discusses the comprehensive development stages of 84% wt of Al 6063, 10% wt of SiC, 5% wt of B4C with 1% wt of Mg hybrid metal matrix composite (HMMC) through the stir casting approach. During the stir casting process, the melting action of the material emanates numerous gases and residuals apart from the expected composite. The residuals have numerous environmental concerns, which require discussion since some of the vapors and substantial waste can lead to detrimental effects on the environment in terms of air and soil pollution.

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“…Table 3 (a-c) presents the physical and thermal properties of B 4 C [12], Al6063 [4], and SiC [13], respectively.…”

Section: Hmmc Properties and Test Analysis 51 Properties Of The Indiv...mentioning

confidence: 99%

“…Repeatedly, the entire mix is needed to get heated to produce a molten state, and in between, stirring is done to attain the entirely conceivable consistency. The capability of the stir casting method predominantly rests on stirring speed, stirring duration, and stirring temperature [3,4].…”

Section: Introductionmentioning

confidence: 99%

Selection and Fabrication of HMMC (AL6063-SIC-B4C-MG)

Matharou¹,

Kaur²

2023

Recent Developments in Nanofibers Research

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“…The material has been reported to offer more strength with less weight. [17][18][19][20] The design can be made using designing software's and analysis can be done using ANSYS-16 or above version. 21 In addition, the Arduino uno microprocessor can be attempted for varied applications.…”

Section: Future Scopementioning

confidence: 99%

The Design and Development of Advanced Braking System with Microcontroller

Matharou¹,

Gupta²,

Pradhan³

et al. 2022

ECS Trans.

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The Present embedded vehicle braking system is designed to offer the braking efforts through physical force operation by the operator. The sudden emergence of a blockade while driving is one of the most prevalent sources of Indian vehicle accidents. Most of the road accidents have been reported owing to delay in driver response to push the brake pedal and also due to wrongly calculating the distance and speed of the vehicle coming from the front. In addition, the vehicle braking responses ranges from individual to individual in a panic situation. To combat with the existing braking issues of the present vehicle, a unique braking mechanism has been introduced to reduce the reaction time of the driver and stop the vehicle in case no braking efforts are being applied by the driver. The ultrasonic sensor technology has been employed for assessing the distance between the vehicle and the obstruction. Depending on the detecting pulse information, a microcontroller is used to regulate the speed of the vehicle, causing the driver to press the brake pedal and apply tremendous force to the brakes of the vehicle for safety reasons. For enhancing vehicle safety and performance, the employment of computers, also known as ECUs (electronic control units), is a significant step forward in this direction. This paper illustrates the design, development and was tested for sensor response and braking distance on different terrains. The observed and theoretical values are within the suggested safety limits.

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“…Silicone/CNT nanocomposites have potential applications in a variety of fields, including electronics, aerospace, and biomedical engineering. For example, the high electrical conductivity of silicone/CNT nanocomposites makes them suitable for use in electromagnetic interference (EMI) shielding, while their biocompatibility and mechanical properties make them promising materials for medical implants and devices [11,12,13]. Studies have examined three different approaches to fabricating epoxy-based composite mold inserts and has revealed that a simple and economical method can be employed to produce such inserts.…”

Section: Introductionmentioning

confidence: 99%

Fractography and Tensile studies on the effect of different carbon fillers reinforced hybrid nanocomposites

Shetty,

Naveen

2023

Frattura Ed Integrità Strutturale

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The use of elastomers has become increasingly important in a variety of industries, including automotive, medical, and food packaging. The adaptability of elastomers to different mechanical stresses has made them a popular choice for these applications. However, the mechanical properties of elastomers can be further enhanced by adding suitable fillers. In this study, the effects of different carbon fillers, namely carbon black, carbon graphite, and carbon nanotubes, on the tensile strength of elastomeric materials were investigated. Different combinations of plain silicone with varying concentrations of CB, CG, and CNT fillers were prepared using a solution casting method. The concentrations of the fillers ranged from 5% to 15% with an interval of 5%. The tensile strength of each combination was measured, and the results showed that the maximum tensile strength was achieved with the combination of CNT at 15% loading. The results of this study highlight the importance of filler selection in enhancing the mechanical properties of elastomers. Carbon fillers, particularly CNTs, have shown to be effective in improving the tensile strength of elastomeric materials. This has important implications for various industries, particularly in the development of new materials for applications in the automotive and medical fields. The use of elastomers in the automotive industry has become increasingly important due to their ability to absorb mechanical shocks and vibrations. Elastomeric materials have also found applications in the medical field, such as in the development of artificial skin, blood pumps, drug delivery systems, and implants. The use of elastomers in food packaging has also become popular due to their ability to provide a barrier against oxygen and moisture. The use of carbon fillers in elastomeric materials has the potential to significantly enhance their mechanical properties, particularly their tensile strength. This study provides valuable insights into the effects of different carbon fillers on the tensile strength of elastomers, which can help in the development of new materials for various industrial applications.

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Experimental Investigation of Surface Roughness in Electric Discharge Machining of Hybrid Metal Matrix Composite

Cited by 4 publications

References 15 publications

Selection and Fabrication of HMMC (AL6063-SIC-B4C-MG)

Selection and Fabrication of HMMC (AL6063-SIC-B4C-MG)

The Design and Development of Advanced Braking System with Microcontroller

Fractography and Tensile studies on the effect of different carbon fillers reinforced hybrid nanocomposites

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