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Abstract

In this study, a series of short glass fiber-reinforced nylon 6 composites with different weight ratios of glass content viz., 15, 30, 40, and 50% have been fabricated by melt mixing. The fabricated nylon 6 composites have been characterized for physicomechanical properties such as specific gravity, tensile properties, and wear resistance. A marginal improvement in tensile strength and tensile modulus is observed with increase in high modulus fiber. Wear resistance is increased with the increase in rigid glass fiber content in the nylon matrix. The dimensional stability of the composite is improved with the increase in fiber content. The acoustic behavior of these composites has been measured using acoustic emission technique. The surface morphological behavior of the composites has been investigated by scanning electron microscopy (SEM). The SEM micrograph reveals fiber pullout and skin formation in the composites.

Keywords

nylon 6 short glass fiber tensile properties machinability morphology

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References

Tabacot, P. Cost Effective Manufacturing of Load bearing Polymer Composites Structures , In: Proceedings - Society of Automotive Engineers, Publ. By SAE-Warrendale, PA, USA, pp. 117-120 .

Rossler, Lisa (1998). Benefits Using Nylon Composite Materials for Automobile Application , In: Special Areas Annual Technical Conference - ANTEC, Proceedings, 3, Soc. Plast. Engg., Brookfield, CT, USA, pp. 2611-2617 .

Thiele, Eugene, W. Jr. , (1990). Comparative Machinability of Brasses, Steels and Aluminum Alloys , COA’S Universal Machniability Indese SAAE, Trans, 99: 362-371 .

Kim, Kisoo , Lec, Dai Gil , Kwak, Yoon Keun and Namgung, Suk (1992). Machinability of Carbon-fiber Epoxy Composites Materials in Turning , J. Matl. Processing Technology, 32(3): 553-570 .

Colligan, K. and Ramulu, M. (1992). The Effect of Edge Trimming on Composite Surface Plies , Manufact. Rev., 5(4): 274-283 .

Wang, D. II. , Ramulu, M. and Arola, D. (1995). Orthogonal Cutting Mechanisms of Graphite/Epoxy Composites, Part I: Unidirectional Laminate , Int. J. Mach. Tools and Manufact., 35(12): 1632-1638 .

An, S. O. , Lee, E. S. and Noh, S. L. (1997). A Study on the Cutting Characteristics of Glass Fibre Reinforced Plastics with Respect to Tool Materials and Geometry , J. Mater. Processing Technol., 68: 66-70 .

Lee, J. II. , Kim, D. E. and Lee, S. J. (1998). Statistical Analysis of Cutting Force Ratios for Flank-wear Monitoring , J. Mater. Processing Technol., 74: 104-114 .

Ramulu, M. (1997). Machining and Surface Integrity of Fibre-Reinforced Plastic Composites , Sadhana, 22(93): 449-472 .

10.

Bhatnagar, N. , Ramakrishana, N. , Nail, N. K. and Komanduri, R. (1985). On the Machining of Fiber Reinforced Plastic (FRP) Composites Laminates , Int. J. Mach. Tools Manufact., 35(5): 701-716 .

11.

Pwa, II. Y. and Iiocheng, II. (1998). Chip Formation Model of Cutting Fibre-reinforced Plastic Perpendicular to Fibre Axis , Trans. ASME, 120(9): 192-196 .

12.

Zhang, II. , Chen, W. , Chen, D. and Zhang, L. (2001). Assessment of the Exit Defects in Carbon Fibre-reinforced Plastic Plaics caused by Drilling , Key Engg Mater., 196(9): 43-52 .

13.

Caprino, G. , Santo, L. and Nele, L. (1998). Interpretation of Size Effect in Orthogonal Machining of Composite Materials, Part I: Unidirectional Glass-fiber-reinforced Plastics , Composites, Part A, 29A: 887-892 .

14.

Blakketter Donald M. (1991). Experimental Characterization of Strain Rate Dependent Properties of Fiber Reinforced Nylon Composites , In: International SAMPE Technical Conference, V23, Publ. by SAMPE, Covina, CA, USA, pp. 184-195 .

15.

Scowen, G. D. (1987). Glass Fiber Composites in the Automotive Industry , Met. Mater. (Inst Met), 3: 639-642 .

Physicomechanical Properties,Machinability,and Morphological Behavior of Short Glass Fiber-reinforced Nylon 6 Composites

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