Damage Tolerant Analysis of Cracked Al 2024-T3 Panels repaired with Single Boron/Epoxy Patch
It is known that damage tolerant analysis has two objectives, namely, remaining life prediction and residual strength evaluation. To achieve the these objectives, determination of accurate and reliable fracture parameter is very important. XFEM methodologies for fatigue and fracture analysis of crac...
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| Veröffentlicht in: | Journal of the Institution of Engineers (India). Series A, Civil, architectural, environmental and agricultural Engineering Civil, architectural, environmental and agricultural Engineering, 2018-06, Vol.99 (2), p.219-229 |
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| container_title | Journal of the Institution of Engineers (India). Series A, Civil, architectural, environmental and agricultural Engineering |
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| creator | Mahajan, Akshay D. Murthy, A. Ramachandra Nanda Kumar, M. R. Gopinath, Smitha |
| description | It is known that damage tolerant analysis has two objectives, namely, remaining life prediction and residual strength evaluation. To achieve the these objectives, determination of accurate and reliable fracture parameter is very important. XFEM methodologies for fatigue and fracture analysis of cracked aluminium panels repaired with different patch shapes made of single boron/epoxy have been developed. Heaviside and asymptotic crack tip enrichment functions are employed to model the crack. XFEM formulations such as displacement field formulation and element stiffness matrix formulation are presented. Domain form of interaction integral is employed to determine Stress Intensity Factor of repaired cracked panels. Computed SIFs are incorporated in Paris crack growth model to predict the remaining fatigue life. The residual strength has been computed by using the remaining life approach, which accounts for both crack growth constants and no. of cycles to failure. From the various studies conducted, it is observed that repaired panels have significant effect on reduction of the SIF at the crack tip and hence residual strength as well as remaining life of the patched cracked panels are improved significantly. The predicted remaining life and residual strength will be useful for design of structures/components under fatigue loading. |
| doi_str_mv | 10.1007/s40030-018-0279-6 |
| format | Article |
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Ramachandra ; Nanda Kumar, M. R. ; Gopinath, Smitha</creator><creatorcontrib>Mahajan, Akshay D. ; Murthy, A. Ramachandra ; Nanda Kumar, M. R. ; Gopinath, Smitha</creatorcontrib><description>It is known that damage tolerant analysis has two objectives, namely, remaining life prediction and residual strength evaluation. To achieve the these objectives, determination of accurate and reliable fracture parameter is very important. XFEM methodologies for fatigue and fracture analysis of cracked aluminium panels repaired with different patch shapes made of single boron/epoxy have been developed. Heaviside and asymptotic crack tip enrichment functions are employed to model the crack. XFEM formulations such as displacement field formulation and element stiffness matrix formulation are presented. Domain form of interaction integral is employed to determine Stress Intensity Factor of repaired cracked panels. Computed SIFs are incorporated in Paris crack growth model to predict the remaining fatigue life. The residual strength has been computed by using the remaining life approach, which accounts for both crack growth constants and no. of cycles to failure. From the various studies conducted, it is observed that repaired panels have significant effect on reduction of the SIF at the crack tip and hence residual strength as well as remaining life of the patched cracked panels are improved significantly. The predicted remaining life and residual strength will be useful for design of structures/components under fatigue loading.</description><identifier>ISSN: 2250-2149</identifier><identifier>EISSN: 2250-2157</identifier><identifier>DOI: 10.1007/s40030-018-0279-6</identifier><language>eng</language><publisher>New Delhi: Springer India</publisher><subject>Aluminum ; Boron-epoxy composites ; Civil Engineering ; Computation ; Crack propagation ; Damage tolerance ; Engineering ; Fatigue failure ; Fatigue life ; Formulations ; Fracture mechanics ; Life assessment ; Life prediction ; Mathematical models ; Original Contribution ; Panels ; Residual strength ; Stiffness matrix ; Stress intensity factors</subject><ispartof>Journal of the Institution of Engineers (India). 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Ramachandra</creatorcontrib><creatorcontrib>Nanda Kumar, M. R.</creatorcontrib><creatorcontrib>Gopinath, Smitha</creatorcontrib><title>Damage Tolerant Analysis of Cracked Al 2024-T3 Panels repaired with Single Boron/Epoxy Patch</title><title>Journal of the Institution of Engineers (India). Series A, Civil, architectural, environmental and agricultural Engineering</title><addtitle>J. Inst. Eng. India Ser. A</addtitle><description>It is known that damage tolerant analysis has two objectives, namely, remaining life prediction and residual strength evaluation. To achieve the these objectives, determination of accurate and reliable fracture parameter is very important. XFEM methodologies for fatigue and fracture analysis of cracked aluminium panels repaired with different patch shapes made of single boron/epoxy have been developed. Heaviside and asymptotic crack tip enrichment functions are employed to model the crack. XFEM formulations such as displacement field formulation and element stiffness matrix formulation are presented. Domain form of interaction integral is employed to determine Stress Intensity Factor of repaired cracked panels. Computed SIFs are incorporated in Paris crack growth model to predict the remaining fatigue life. The residual strength has been computed by using the remaining life approach, which accounts for both crack growth constants and no. of cycles to failure. From the various studies conducted, it is observed that repaired panels have significant effect on reduction of the SIF at the crack tip and hence residual strength as well as remaining life of the patched cracked panels are improved significantly. The predicted remaining life and residual strength will be useful for design of structures/components under fatigue loading.</description><subject>Aluminum</subject><subject>Boron-epoxy composites</subject><subject>Civil Engineering</subject><subject>Computation</subject><subject>Crack propagation</subject><subject>Damage tolerance</subject><subject>Engineering</subject><subject>Fatigue failure</subject><subject>Fatigue life</subject><subject>Formulations</subject><subject>Fracture mechanics</subject><subject>Life assessment</subject><subject>Life prediction</subject><subject>Mathematical models</subject><subject>Original Contribution</subject><subject>Panels</subject><subject>Residual strength</subject><subject>Stiffness matrix</subject><subject>Stress intensity factors</subject><issn>2250-2149</issn><issn>2250-2157</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><recordid>eNp1kF1LwzAUhoMoOOZ-gHcBr-NOTrKmvZxzfsBAwXknhKxNt86uqUmH7t-bUdErr87X875wXkIuOVxzADUOEkAAA54yQJWx5IQMECfAkE_U6W8vs3MyCmELAHEAlDggb7dmZ9aWLl1tvWk6Om1MfQhVoK6kM2_yd1vQaU0x4mwp6LNpbB2ot62pfDx9Vt2GvlTNurb0xnnXjOet-zpErss3F-SsNHWwo586JK938-XsgS2e7h9n0wXLUfCEyTTJpOIGV0YmqkAJxk5WSiKmKLkyYoWKY1ZwKQsh4zoXaSkjrHJpUlOKIbnqfVvvPvY2dHrr9j4-EjSChBSEQIwU76ncuxC8LXXrq53xB81BH3PUfY465qiPOeokarDXhMg2a-v_nP8XfQM343F4</recordid><startdate>20180601</startdate><enddate>20180601</enddate><creator>Mahajan, Akshay D.</creator><creator>Murthy, A. 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Ramachandra</creatorcontrib><creatorcontrib>Nanda Kumar, M. R.</creatorcontrib><creatorcontrib>Gopinath, Smitha</creatorcontrib><collection>CrossRef</collection><jtitle>Journal of the Institution of Engineers (India). Series A, Civil, architectural, environmental and agricultural Engineering</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Mahajan, Akshay D.</au><au>Murthy, A. Ramachandra</au><au>Nanda Kumar, M. R.</au><au>Gopinath, Smitha</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Damage Tolerant Analysis of Cracked Al 2024-T3 Panels repaired with Single Boron/Epoxy Patch</atitle><jtitle>Journal of the Institution of Engineers (India). Series A, Civil, architectural, environmental and agricultural Engineering</jtitle><stitle>J. Inst. Eng. India Ser. A</stitle><date>2018-06-01</date><risdate>2018</risdate><volume>99</volume><issue>2</issue><spage>219</spage><epage>229</epage><pages>219-229</pages><issn>2250-2149</issn><eissn>2250-2157</eissn><abstract>It is known that damage tolerant analysis has two objectives, namely, remaining life prediction and residual strength evaluation. To achieve the these objectives, determination of accurate and reliable fracture parameter is very important. XFEM methodologies for fatigue and fracture analysis of cracked aluminium panels repaired with different patch shapes made of single boron/epoxy have been developed. Heaviside and asymptotic crack tip enrichment functions are employed to model the crack. XFEM formulations such as displacement field formulation and element stiffness matrix formulation are presented. Domain form of interaction integral is employed to determine Stress Intensity Factor of repaired cracked panels. Computed SIFs are incorporated in Paris crack growth model to predict the remaining fatigue life. The residual strength has been computed by using the remaining life approach, which accounts for both crack growth constants and no. of cycles to failure. From the various studies conducted, it is observed that repaired panels have significant effect on reduction of the SIF at the crack tip and hence residual strength as well as remaining life of the patched cracked panels are improved significantly. The predicted remaining life and residual strength will be useful for design of structures/components under fatigue loading.</abstract><cop>New Delhi</cop><pub>Springer India</pub><doi>10.1007/s40030-018-0279-6</doi><tpages>11</tpages></addata></record> |
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| subjects | Aluminum Boron-epoxy composites Civil Engineering Computation Crack propagation Damage tolerance Engineering Fatigue failure Fatigue life Formulations Fracture mechanics Life assessment Life prediction Mathematical models Original Contribution Panels Residual strength Stiffness matrix Stress intensity factors |
| title | Damage Tolerant Analysis of Cracked Al 2024-T3 Panels repaired with Single Boron/Epoxy Patch |
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