Study on the physical, mechanical, and thermal behaviour of RHN blend epoxy hybrid composites reinforced by Borassus flabellifer L. fibers
The objective of this investigation is to explore the influence of rice husk nano-particles (RHN) in determining the physical, mechanical, thermal, and morphological properties of Borassus leaf fiber (BLF) reinforced epoxy hybrid composites. The leaf of Borassus flabellifer L. was used to extract a...
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| Published in | Cellulose (London) Vol. 30; no. 8; pp. 5033 - 5049 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.05.2023
Springer Nature B.V |
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| Online Access | Get full text |
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| Abstract | The objective of this investigation is to explore the influence of rice husk nano-particles (RHN) in determining the physical, mechanical, thermal, and morphological properties of
Borassus
leaf fiber (BLF) reinforced epoxy hybrid composites. The leaf of
Borassus flabellifer L.
was used to extract a novel genus of natural cellulosic fiber and treated with a sodium hydroxide solution to reduce the non-cellulosic contents. RHN obtained from rice husk was blended with epoxy resin to modify them with 0.25, 0.45, and 0.65 wt.%, respectively, using mechanical stirring and sonication processes. The hand lay-up method was used for the fabrication of composites. Among the developed composites, the superior performance was observed with 0.45 wt.% RHN blend composites for tensile strength, tensile modulus, flexural modulus (14 MPa, 489 MPa, and 15 GPa, respectively), reduced voids, and reduced water absorption capability (1.707% and 4.62%, respectively). From the obtained results, it could be concluded that as the RHN wt.% increased, the hardness of the composites increased (30.25 to 35.25 HB), while the flexural strength (43.10 to 31.42 MPa) and impact strength (43.32 to 38.02 kJ/m
2
) gradually decreased. TG and DTG analysis confirm that the improved thermal stability and maximum degradation temperature were 381 °C and 411 °C, respectively, for the 0.45 wt.% RHN blend composites. SEM analysis of the fractured surface of the composites shows that the RHN blend with epoxy improved the fiber-matrix adhesion properties. The fabricated composites are to be used for low-cost building materials, home appliances, automotive parts, and other suitable commercial applications. |
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| AbstractList | The objective of this investigation is to explore the influence of rice husk nano-particles (RHN) in determining the physical, mechanical, thermal, and morphological properties of
Borassus
leaf fiber (BLF) reinforced epoxy hybrid composites. The leaf of
Borassus flabellifer L.
was used to extract a novel genus of natural cellulosic fiber and treated with a sodium hydroxide solution to reduce the non-cellulosic contents. RHN obtained from rice husk was blended with epoxy resin to modify them with 0.25, 0.45, and 0.65 wt.%, respectively, using mechanical stirring and sonication processes. The hand lay-up method was used for the fabrication of composites. Among the developed composites, the superior performance was observed with 0.45 wt.% RHN blend composites for tensile strength, tensile modulus, flexural modulus (14 MPa, 489 MPa, and 15 GPa, respectively), reduced voids, and reduced water absorption capability (1.707% and 4.62%, respectively). From the obtained results, it could be concluded that as the RHN wt.% increased, the hardness of the composites increased (30.25 to 35.25 HB), while the flexural strength (43.10 to 31.42 MPa) and impact strength (43.32 to 38.02 kJ/m
2
) gradually decreased. TG and DTG analysis confirm that the improved thermal stability and maximum degradation temperature were 381 °C and 411 °C, respectively, for the 0.45 wt.% RHN blend composites. SEM analysis of the fractured surface of the composites shows that the RHN blend with epoxy improved the fiber-matrix adhesion properties. The fabricated composites are to be used for low-cost building materials, home appliances, automotive parts, and other suitable commercial applications. The objective of this investigation is to explore the influence of rice husk nano-particles (RHN) in determining the physical, mechanical, thermal, and morphological properties of Borassus leaf fiber (BLF) reinforced epoxy hybrid composites. The leaf of Borassus flabellifer L. was used to extract a novel genus of natural cellulosic fiber and treated with a sodium hydroxide solution to reduce the non-cellulosic contents. RHN obtained from rice husk was blended with epoxy resin to modify them with 0.25, 0.45, and 0.65 wt.%, respectively, using mechanical stirring and sonication processes. The hand lay-up method was used for the fabrication of composites. Among the developed composites, the superior performance was observed with 0.45 wt.% RHN blend composites for tensile strength, tensile modulus, flexural modulus (14 MPa, 489 MPa, and 15 GPa, respectively), reduced voids, and reduced water absorption capability (1.707% and 4.62%, respectively). From the obtained results, it could be concluded that as the RHN wt.% increased, the hardness of the composites increased (30.25 to 35.25 HB), while the flexural strength (43.10 to 31.42 MPa) and impact strength (43.32 to 38.02 kJ/m2) gradually decreased. TG and DTG analysis confirm that the improved thermal stability and maximum degradation temperature were 381 °C and 411 °C, respectively, for the 0.45 wt.% RHN blend composites. SEM analysis of the fractured surface of the composites shows that the RHN blend with epoxy improved the fiber-matrix adhesion properties. The fabricated composites are to be used for low-cost building materials, home appliances, automotive parts, and other suitable commercial applications. |
| Author | Rout, Arun Kumar Singh, Jitesh Kumar |
| Author_xml | – sequence: 1 givenname: Jitesh Kumar surname: Singh fullname: Singh, Jitesh Kumar organization: Department of Production Engineering, Veer Surendra Sai University of Technology, Department of Mechanical Engineering, OP Jindal University – sequence: 2 givenname: Arun Kumar surname: Rout fullname: Rout, Arun Kumar email: arun.rout.6314@gmail.com organization: Department of Production Engineering, Veer Surendra Sai University of Technology |
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| CitedBy_id | crossref_primary_10_1016_j_mtcomm_2023_107971 crossref_primary_10_1080_1023666X_2023_2251792 crossref_primary_10_1038_s41598_024_53742_5 |
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| Snippet | The objective of this investigation is to explore the influence of rice husk nano-particles (RHN) in determining the physical, mechanical, thermal, and... |
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| StartPage | 5033 |
| SubjectTerms | Automotive parts Bioorganic Chemistry Building materials Cellulose fibers Ceramics Chemistry Chemistry and Materials Science Composite fabrication Composites Construction materials Epoxy resins Fiber-matrix adhesion Flexural strength Glass Hand lay-up Household appliances Hybrid composites Impact strength Modulus of elasticity Modulus of rupture in bending Nanoparticles Natural Materials Organic Chemistry Original Research Physical Chemistry Polymer Sciences Rice Sodium hydroxide Stability analysis Sustainable Development Tensile strength Thermal stability Thermodynamic properties Water absorption |
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| Title | Study on the physical, mechanical, and thermal behaviour of RHN blend epoxy hybrid composites reinforced by Borassus flabellifer L. fibers |
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