Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment
From an engineering perspective, hollow cylinders have various applications in the industry due to their strength, versatility, and geometric properties, making them vital for various applications in diverse industries. Therefore, it could be seen in many aspects such as fluid conveyance, manufactu...
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my.uthm.eprints.124702025-02-13T02:28:31Z http://eprints.uthm.edu.my/12470/ Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment Al-Moayed, Omar Mohammed M.F, Johan Ismail, Al Emran Kareem, Ali Kamil Jamian, Saifulnizan Shaker, Sufian Farid Hamad Abed, Tareq Aldulaym, Omar Hammad TA Engineering (General). Civil engineering (General) From an engineering perspective, hollow cylinders have various applications in the industry due to their strength, versatility, and geometric properties, making them vital for various applications in diverse industries. Therefore, it could be seen in many aspects such as fluid conveyance, manufacturing and fabrication, rotating machinery, structural components, storage, and pressure vessels. As it is well-known fracture is the most dominant type of failure in cylinders that is caused by defects or flaws. With time, these cracks (flaws) may extend and lead to a tragic failure, posing significant risks to both the nearby environment and humans. Moreover, crack cooperation which is known as (crack interaction) represents a chief apprehension, where cooperation or interaction may accelerate the crack growth and cause unpredictable failure. In this work, a wide variety of crack configurations were examined to quantify the interaction of double-interacting surface cracks located on a thick cylinder numerically via ANSYS software. The Stress Intensity Factor (SIFs) has been utilized as a driving force to describe the crack interaction. The results found that crack interaction influenced both cracks by the same rate, and SIFs distributed along the crack front by the same style as that of a single crack. Also, an inversely proportional relationship has been found between the crack interaction and the separation distance between the cracks. It is possible to conclude that the crack interaction of double interacting cracks exhibited a shielding effect, where SIFs for the case of double cracks were less than those of single crack. semarak ilmu 2024 Article PeerReviewed text en http://eprints.uthm.edu.my/12470/1/J17959_2fa40e66604eadafaed5e94edf139035.pdf Al-Moayed, Omar Mohammed and M.F, Johan and Ismail, Al Emran and Kareem, Ali Kamil and Jamian, Saifulnizan and Shaker, Sufian Farid and Hamad Abed, Tareq and Aldulaym, Omar Hammad (2024) Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment. Journal of Advanced Research in Applied Mechanics, 118 (1). pp. 131-143. ISSN 2289-7895 https://doi.org/10.37934/aram.118.1.131143 |
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TA Engineering (General). Civil engineering (General) Al-Moayed, Omar Mohammed M.F, Johan Ismail, Al Emran Kareem, Ali Kamil Jamian, Saifulnizan Shaker, Sufian Farid Hamad Abed, Tareq Aldulaym, Omar Hammad Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment |
| description |
From an engineering perspective, hollow cylinders have various applications in the industry due to their strength, versatility, and geometric properties, making them vital
for various applications in diverse industries. Therefore, it could be seen in many aspects such as fluid conveyance, manufacturing and fabrication, rotating machinery,
structural components, storage, and pressure vessels. As it is well-known fracture is the most dominant type of failure in cylinders that is caused by defects or flaws. With
time, these cracks (flaws) may extend and lead to a tragic failure, posing significant risks to both the nearby environment and humans. Moreover, crack cooperation which
is known as (crack interaction) represents a chief apprehension, where cooperation or interaction may accelerate the crack growth and cause unpredictable failure. In this work, a wide variety of crack configurations were examined to quantify the interaction of double-interacting surface cracks located on a thick cylinder numerically via ANSYS software. The Stress Intensity Factor (SIFs) has been utilized as a driving force to describe the crack interaction. The results found that crack interaction influenced both
cracks by the same rate, and SIFs distributed along the crack front by the same style as that of a single crack. Also, an inversely proportional relationship has been found
between the crack interaction and the separation distance between the cracks. It is possible to conclude that the crack interaction of double interacting cracks exhibited a
shielding effect, where SIFs for the case of double cracks were less than those of single crack. |
| format |
Article |
| author |
Al-Moayed, Omar Mohammed M.F, Johan Ismail, Al Emran Kareem, Ali Kamil Jamian, Saifulnizan Shaker, Sufian Farid Hamad Abed, Tareq Aldulaym, Omar Hammad |
| author_facet |
Al-Moayed, Omar Mohammed M.F, Johan Ismail, Al Emran Kareem, Ali Kamil Jamian, Saifulnizan Shaker, Sufian Farid Hamad Abed, Tareq Aldulaym, Omar Hammad |
| author_sort |
Al-Moayed, Omar Mohammed |
| title |
Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment |
| title_short |
Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment |
| title_full |
Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment |
| title_fullStr |
Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment |
| title_full_unstemmed |
Interaction Assessment of Stress Intensity Factors of Surface Cracks on Thick Cylinders under Tension Force and Bending Moment |
| title_sort |
interaction assessment of stress intensity factors of surface cracks on thick cylinders under tension force and bending moment |
| publisher |
semarak ilmu |
| publishDate |
2024 |
| url |
http://eprints.uthm.edu.my/12470/1/J17959_2fa40e66604eadafaed5e94edf139035.pdf http://eprints.uthm.edu.my/12470/ https://doi.org/10.37934/aram.118.1.131143 |
| _version_ |
1825163115599233024 |
| score |
13.244413 |