Interlaminar Shear, Bending, and Water Retention Behavior of Nano-SiO2 Filler-Incorporated Dharbai/Glass Fiber-Based Hybrid Composites under Cryogenic Environment
In current history, adding nanoscale and micron-sized filler materials to composite materials for fabrication has been a popular approach for improving the composite’s mechanical characteristics. Due to their lower friction coefficient, excellent mechanical strength modulus, and low moisture uptake,...
Saved in:
| Main Authors: | , , , , , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
SAGE Publishing
2022-01-01
|
| Series: | Adsorption Science & Technology |
| Online Access: | http://dx.doi.org/10.1155/2022/3810884 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1841564568696913920 |
|---|---|
| author | L. Natrayan T. Sathish S. Baskara Sethupathy S. Sekar Pravin P. Patil G. Velmurugan Hunde Hailu |
| author_facet | L. Natrayan T. Sathish S. Baskara Sethupathy S. Sekar Pravin P. Patil G. Velmurugan Hunde Hailu |
| author_sort | L. Natrayan |
| collection | DOAJ |
| description | In current history, adding nanoscale and micron-sized filler materials to composite materials for fabrication has been a popular approach for improving the composite’s mechanical characteristics. Due to their lower friction coefficient, excellent mechanical strength modulus, and low moisture uptake, filler-based hybrid composite materials are replacing metallic materials. Glass/Dharbai hybrid composites with nano-SiO2 fillers have been created in this study. After manufacture, the composite materials were treated with liquid nitrogen at 177 K for various durations. Every sample material was cut according to ASTM standards to investigate mechanical features such as ILSS, impact test, and flexural strength. The broken composite specimen was studied using a scanning electron microscope. Water retention studies have been conducted under two distinct liquid solutions: tab or regular water and seawater. ILSS, flexural strength, and water retention were all greater in 4 wt.% of nanofiller-rich composites than in ordinary composites. Compared to 30 minutes, the 15-minute cryo-treated specimens provide the highest mechanical strength. On the other hand, the automobile, aviation, and shipbuilding sectors would benefit from a nanofiller-based composite. |
| format | Article |
| id | doaj-art-aa1df12a29b64001bb0ceeb95037b917 |
| institution | Kabale University |
| issn | 2048-4038 |
| language | English |
| publishDate | 2022-01-01 |
| publisher | SAGE Publishing |
| record_format | Article |
| series | Adsorption Science & Technology |
| spelling | doaj-art-aa1df12a29b64001bb0ceeb95037b9172025-01-02T22:37:51ZengSAGE PublishingAdsorption Science & Technology2048-40382022-01-01202210.1155/2022/3810884Interlaminar Shear, Bending, and Water Retention Behavior of Nano-SiO2 Filler-Incorporated Dharbai/Glass Fiber-Based Hybrid Composites under Cryogenic EnvironmentL. Natrayan0T. Sathish1S. Baskara Sethupathy2S. Sekar3Pravin P. Patil4G. Velmurugan5Hunde Hailu6Department of Mechanical EngineeringDepartment of Mechanical EngineeringDepartment of Automobile EngineeringDepartment of Mechanical EngineeringDepartment of Mechanical EngineeringInstitute of Agricultural EngineeringDepartment of Construction Engineering and TechnologyIn current history, adding nanoscale and micron-sized filler materials to composite materials for fabrication has been a popular approach for improving the composite’s mechanical characteristics. Due to their lower friction coefficient, excellent mechanical strength modulus, and low moisture uptake, filler-based hybrid composite materials are replacing metallic materials. Glass/Dharbai hybrid composites with nano-SiO2 fillers have been created in this study. After manufacture, the composite materials were treated with liquid nitrogen at 177 K for various durations. Every sample material was cut according to ASTM standards to investigate mechanical features such as ILSS, impact test, and flexural strength. The broken composite specimen was studied using a scanning electron microscope. Water retention studies have been conducted under two distinct liquid solutions: tab or regular water and seawater. ILSS, flexural strength, and water retention were all greater in 4 wt.% of nanofiller-rich composites than in ordinary composites. Compared to 30 minutes, the 15-minute cryo-treated specimens provide the highest mechanical strength. On the other hand, the automobile, aviation, and shipbuilding sectors would benefit from a nanofiller-based composite.http://dx.doi.org/10.1155/2022/3810884 |
| spellingShingle | L. Natrayan T. Sathish S. Baskara Sethupathy S. Sekar Pravin P. Patil G. Velmurugan Hunde Hailu Interlaminar Shear, Bending, and Water Retention Behavior of Nano-SiO2 Filler-Incorporated Dharbai/Glass Fiber-Based Hybrid Composites under Cryogenic Environment Adsorption Science & Technology |
| title | Interlaminar Shear, Bending, and Water Retention Behavior of Nano-SiO2 Filler-Incorporated Dharbai/Glass Fiber-Based Hybrid Composites under Cryogenic Environment |
| title_full | Interlaminar Shear, Bending, and Water Retention Behavior of Nano-SiO2 Filler-Incorporated Dharbai/Glass Fiber-Based Hybrid Composites under Cryogenic Environment |
| title_fullStr | Interlaminar Shear, Bending, and Water Retention Behavior of Nano-SiO2 Filler-Incorporated Dharbai/Glass Fiber-Based Hybrid Composites under Cryogenic Environment |
| title_full_unstemmed | Interlaminar Shear, Bending, and Water Retention Behavior of Nano-SiO2 Filler-Incorporated Dharbai/Glass Fiber-Based Hybrid Composites under Cryogenic Environment |
| title_short | Interlaminar Shear, Bending, and Water Retention Behavior of Nano-SiO2 Filler-Incorporated Dharbai/Glass Fiber-Based Hybrid Composites under Cryogenic Environment |
| title_sort | interlaminar shear bending and water retention behavior of nano sio2 filler incorporated dharbai glass fiber based hybrid composites under cryogenic environment |
| url | http://dx.doi.org/10.1155/2022/3810884 |
| work_keys_str_mv | AT lnatrayan interlaminarshearbendingandwaterretentionbehaviorofnanosio2fillerincorporateddharbaiglassfiberbasedhybridcompositesundercryogenicenvironment AT tsathish interlaminarshearbendingandwaterretentionbehaviorofnanosio2fillerincorporateddharbaiglassfiberbasedhybridcompositesundercryogenicenvironment AT sbaskarasethupathy interlaminarshearbendingandwaterretentionbehaviorofnanosio2fillerincorporateddharbaiglassfiberbasedhybridcompositesundercryogenicenvironment AT ssekar interlaminarshearbendingandwaterretentionbehaviorofnanosio2fillerincorporateddharbaiglassfiberbasedhybridcompositesundercryogenicenvironment AT pravinppatil interlaminarshearbendingandwaterretentionbehaviorofnanosio2fillerincorporateddharbaiglassfiberbasedhybridcompositesundercryogenicenvironment AT gvelmurugan interlaminarshearbendingandwaterretentionbehaviorofnanosio2fillerincorporateddharbaiglassfiberbasedhybridcompositesundercryogenicenvironment AT hundehailu interlaminarshearbendingandwaterretentionbehaviorofnanosio2fillerincorporateddharbaiglassfiberbasedhybridcompositesundercryogenicenvironment |