{"_shards":{"failed":0,"skipped":0,"successful":3,"total":3},"hits":{"hits":[{"_id":"417110","_index":"publication","_score":12.128623,"_source":{"abstracts":[{"abstract":"Konik dişliler, mekanik güç iletimi için endüstriyel makinelerde oldukça yaygın kullanılan makine elemanlarıdır.Bir çift konik dişli genel anlamda, diş dibi eğilme gerilmesi ve yüzey temas gerilmesi olarak iki tür zorlanmayamaruz kalmaktadır. Bu zorlanmanın hesaplanması optimum tasarımın gerçekleştirilmesi için oldukça önemlidir.Bu çalışmada, bir konik dişli çiftinin diş dibi eğilme ve temas gerilmesi hesabı sonlu elemanlar yöntemi ile çözümyapan ANSYS 2019R3 ile ve analitik olarak gerçekleştirilmiştir. Analitik hesapta DIN 3991 yöntemiuygulanmıştır. Konik dişlinin düz silindirik sanal dişlisi tredgold yaklaşımı ile oluşturulmuştur ve çözüm bu sanaldişli üzerinden gerçekleştirilmiştir. Analitk olarak sanal dişliler he1saplanmış ve bu sanal düz dişli çifti için çözümyapılmıştır. Daha sonra konik dişlilerin katı modelleri CATIA V5 R20 ile oluşturulmuştur. ANSYS mechanicalbölümünde malzeme, temas ve mafsal tanımları yapılmıştır. Dişli çifti için en zor koşul olan tek diş teması içinnon-lineer çözüm Newton Rapson metodu ile gerçekleştirilmiştir. Sonuçlar, tredgold yöntemi ile gerçekleştirilençözüm ile ANSYS çözümü arasında % 3.2’lik fark olduğunu göstermiştir. Tredgold yöntemi ile gerçekleştirilençözümün standart dişliler için oldukça pratik","id":620446,"keywords":null,"language":"TUR","title":"Konik dişlilerin dayanım analizinde tredgold yaklaşımının ANSYS ile araştırılması"},{"abstract":"Bevel gears are machine elements that are widely used in industrial machines for mechanical power transmission. A pair of bevel gears is generally subjected to two types of stress: bending stress and surface contact stress. The calculation of this stress is very important for achieving the optimum design. In this study, the bending and contact stress calculation of a bevel gear pair was performed analytically with ANSYS 2019R3, which made a solution with the finite element method. In the analytical calculation, DIN 3991 method was applied. The straight cylindrical virtual gear of the bevel gear was created by the tredgold approach and the solution was realized over this virtual gear. Virtual gears have been calculated analytically and a solution has been made for this pair of virtual spur gears Then solid models of bevel gears were created with CATIA V5 R20. Material, contact and joint definitions were made in ANSYS mechanical section. The non-linear solution for single tooth contact, which is the most difficult condition for the gear pair, was realized by the Newton Rapson method. The results showed that there is a 3.2% difference between the solution realized with the tredgold method and the ANSYS solution. It has been determined that the solution realized with the Tredgold method is very practical for standard gears, and the use of the finite element method in modified and special gears will be advantageous.","id":127373,"keywords":null,"language":"ENG","title":"Investigation of tredgold approach in strength analysis of bevel gears with ANSYS"}],"accessType":"OPEN","attachments":null,"authors":[{"authorId":814344,"duty":"AUTHOR","inPublicationName":"Gürkan İRSEL","institution":{"city":["EDİRNE"],"code":["Mzc3ODk3"],"country":["Türkiye"],"fullTitle":["TRAKYA ÜNİVERSİTESİ \u003e MÜHENDİSLİK-MİMARLIK FAKÜLTESİ \u003e MAKİNE MÜHENDİSLİĞİ BÖLÜMÜ"],"rootCode":["MzY4MDkx"],"rootTitle":["TRAKYA ÜNİVERSİTESİ"],"status":["KAMU"],"title":["MAKİNE MÜHENDİSLİĞİ BÖLÜMÜ"],"type":[""]},"institutionName":["Trakya Üniversitesi, Makine Mühendisliği Bölümü, Edirne, Türkiye"],"isVerified":false,"name":"Gurkan Irsel","orcid":"0000-0003-0828-6560","order":1,"relationId":1604615,"userId":""}],"citedReferences":null,"createdBy":"4e35ce43-1eda-454b-a65a-616d3b8afdd0","databases":["SCIENCE"],"docType":"PAPER","doi":"10.24012/dumf.669831","downloadCount":1,"endDate":null,"endPage":"1080","facetAuthorCity":["EDİRNE"],"facetAuthorCountry":["Türkiye"],"facetAuthorInstitution":["TRAKYA ÜNİVERSİTESİ"],"firstIndexDate":"2021-06-02T00:00:00Z","id":417110,"indexDate":"2026-05-19T16:21:48.676926Z","indexedBy":"indexer","issue":{"id":53955,"isSpecial":false,"month":["9"],"number":"3","publishDate":"2020-09-01T00:00:00","volume":"11","year":"2020"},"journal":{"eissn":"2146-4391","id":"860","issn":"1309-8640","name":"Dicle Üniversitesi Mühendislik Fakültesi Mühendislik Dergisi"},"language":"TUR","orderCitationCount":0,"orderTitle":"Konikdişlilerin dayanım analizinde tredgold yaklaşımının ANSYS ile araştırılması","otherCitations":[{"count":0,"origin":"CrossRef"},{"count":0,"origin":"OpenAlex"},{"count":0,"origin":"OpenCitations"}],"pdf":"5aaa2852-e1bf-4395-8d4a-42d9940805a9","projectGroup":null,"projectnumber":null,"publicationProduct":null,"publicationType":"RESEARCH","publicationYear":2020,"references":[{"authors":null,"context":"[1] J. Zhan and M. Fard, “Effects of helix angle, mechanical errors, and coefficient of friction on the time-varying tooth-root stress of helical gears,” Meas. J. Int. Meas. Confed., vol. 118, no. January, pp. 135–146, 2018.","id":10027761,"journalCode":"","order":0,"targetPublication":0,"year":""},{"authors":null,"context":"[2] O. Doğan and F. Karpat, “Crack detection for spur gears with asymmetric teeth based on the dynamic transmission error,” Mech. Mach. Theory, vol. 133, pp. 417–431, 2019.","id":10027760,"journalCode":"","order":1,"targetPublication":0,"year":""},{"authors":null,"context":"[3] T. J. Lisle, B. A. Shaw, and R. C. Frazer, “External spur gear root bending stress: A comparison of ISO 6336:2006, AGMA 2101- D04, ANSYS finite element analysis and strain gauge techniques,” Mech. Mach. Theory, vol. 111, pp. 1–9, 2017.","id":10027759,"journalCode":"","order":2,"targetPublication":0,"year":""},{"authors":null,"context":"[4] T. J. Dolan and E. L. Broghamer, “A photoelastic study of stresses in gear tooth profiles,” Bulletin, no. 335, 1942.","id":10027758,"journalCode":"","order":3,"targetPublication":0,"year":""},{"authors":null,"context":"[5] P. R. N. Childs, Spur and helical gear stressing. 2018.","id":10027757,"journalCode":"","order":4,"targetPublication":0,"year":""},{"authors":null,"context":"[6] K. N. Naik and D. Dolas, “Static Analysis Bending Stress on Gear Tooth Profile By Variation of Gear Parameters With The Help of FEA,” vol. 3, no. 6, pp. 132–137, 2014.","id":10027756,"journalCode":"","order":5,"targetPublication":0,"year":""},{"authors":null,"context":"[7] S. Jyothirmai, R. Ramesh, T. Swarnalatha, and D. Renuka, “A Finite Element Approach to Bending, Contact and Fatigue Stress Distribution in Helical Gear Systems,” Procedia Mater. Sci., vol. 6, no. Icmpc, pp. 907–918, 2014.","id":10027755,"journalCode":"","order":6,"targetPublication":0,"year":""},{"authors":null,"context":"[8] G. Mehta, M. Somani, T. Narendiranath Babu, and T. Watts, “Contact Stress Analysis on Composite Spur Gear using Finite Element Method,” Mater. Today Proc., vol. 5, no. 5, pp. 13585–13592, 2018.","id":10027754,"journalCode":"","order":7,"targetPublication":0,"year":""},{"authors":null,"context":"[9] X. Liu, Y. Yang, and J. Zhang, “Investigation on coupling effects between surface wear and dynamics in a spur gear system,” Tribol. Int., vol. 101, pp. 383–394, 2016.","id":10027753,"journalCode":"","order":8,"targetPublication":0,"year":""},{"authors":null,"context":"[10] F. Zheng, M. Zhang, W. Zhang, R. Tan, and X. Guo, “On the deformed tooth contact analysis for forged bevel gear modification,” Mech. Mach. Theory, vol. 135, pp. 192–207, 2019.","id":10027752,"journalCode":"","order":9,"targetPublication":0,"year":""},{"authors":null,"context":"[11] A. Bahrami Ghahnavieh, S. Akbarzadeh, and P. Mosaddegh, “A numerical study on the performance of straight bevel gears operating under mixed lubrication regime,” Mech. Mach. Theory, vol. 75, pp. 27–40, 2014.","id":10027751,"journalCode":"","order":10,"targetPublication":0,"year":""},{"authors":null,"context":"[12] D. B. Dooner, M. Vivet, and D. Mundo, “Deproximating Tredgold’s Approximation,” Mech. Mach. Theory, vol. 102, pp. 36–54, 2016.","id":10027750,"journalCode":"","order":11,"targetPublication":0,"year":""},{"authors":null,"context":"[13] M. Vivet, D. Mundo, T. Tamarozzi, and W. Desmet, “An analytical model for accurate and numerically efficient tooth contact analysis under load, applied to face-milled spiral bevel gears,” Mech. Mach. Theory, vol. 130, pp. 137–156, 2018.","id":10027749,"journalCode":"","order":12,"targetPublication":0,"year":""}],"retreat":false,"startPage":"1073","startedDate":null,"subjects":[{"autoLabel":false,"fullName":"Fen \u003e Mühendislik \u003e Mühendislik, Makine","id":145,"name":"Mühendislik, Makine","rootId":1,"rootName":"Fen"}],"viewCount":11}}],"max_score":12.128623,"total":{"relation":"eq","value":1}},"timed_out":false,"took":2,"trdizinAddress":"https://search.trdizin.gov.tr/tr/yayin/detay/417110/Konik-dişlilerin-dayanım-analizinde-tredgold-yaklaşımının-ANSYS-ile-araştırılması"}