TY - JOUR T1 - Performance and deformation behavior of a master jig on circular saw machine using finite element method TT - Sonlu eleman yöntemleri kullanılarak dairesel testere makinesinde bir ana şablonun performans ve deformasyon davranışı AU - Icha, Asibong AU - Ogbeche Odey, Simon PY - 2025 DA - June Y2 - 2025 DO - 10.33725/mamad.1663809 JF - Mobilya ve Ahşap Malzeme Araştırmaları Dergisi JO - MAMAD PB - Bekir Cihad BAL WT - DergiPark SN - 2636-8625 SP - 143 EP - 155 VL - 8 IS - 1 LA - en AB - This study investigates the performance, stress distribution, deformation and potential failure modes of a newly developed Master Jig (MJ) designed for circular saw machine operations. The MJ comprises three components: the master jig body (MJB), the master jig accessories (MJA) and the master jig guide (MJG). The jig was modelled and simulated under applied static loads of 520 N and 600 N using SOLIDWORKS software. The MJ performance was evaluated, results were recorded, and a deformation graph was presented and shape displayed in true and defined scales of 0.135238 and 0.036047, respectively. The analysis shows that, maximum directional deformations at 520 N and 600 N were 8.463 x 102 mm and 3.197 x 103 mm respectively, elastic strains at 6.540 x 10 and 1.433 x 10, von mises stresses at 2.580 x 106 MPa and 3.930 x 107 MPa respectively, the Yield Strengths at 2.000 x 107 MPa and 3.930 x 107 MPa respectively, and the factor of safety at 31 and 11 respectively. The study underscores the potential of finite element modelling in the predictive design of woodworking jigs. KW - Master Jig KW - Finite Element Modelling KW - Circular Saw Machine KW - Woodworking operations KW - Deformation Behaviour N2 - Bu çalışmada, dairesel testere tezgahı operasyonları için tasarlanmış yeni geliştirilmiş bir Ana Jig'in (MJ) performansı, gerilim dağılımı, deformasyonu ve potansiyel arıza modları araştırılmıştır. Geliştirilen MJ üç bileşenden oluşmaktadır: Ana Kalıp Gövdesi (MJB), Ana Kalıp Aksesuarları (MJA) ve Ana Kalıp Kılavuzu (MJG). MJ'nin modellenmesi, simülasyonu ve analizi için SOLIDWORKS yazılımı kullanılmış ve sırasıyla 520N ve 600N statik yükler uygulanmıştır. MJ'nin performansı değerlendirilmiş, sonuçlar kaydedilmiş, deformasyon grafiği sunulmuş ve şekli gerçek ve belirlenmiş ölçeklerde gösterilmiştir. Analizler, maksimum yönlendirilmiş deformasyonların sırasıyla 8.463 × 10² mm ve 3.197 × 10³ mm, eşdeğer elastik şekil değişimlerinin 6.540 × 10⁰ ve 1.433 × 10¹, von Mises gerilmelerinin 2.580 × 10⁶ MPa ve 3.930 × 10⁷ MPa, akma dayanımlarının 2.000 × 10⁷ N/m² ve 3.930 × 10⁷ N/m², güvenlik katsayısının ise sırasıyla 31 ve 11 olduğunu göstermektedir. Çalışma, ağaç işleme fikstürlerinin tahmini tasarımında sonlu elemanlar modellemesinin potansiyelini vurgulamaktadır CR - Autengruber, M., Lukacevic, M., Wenighofer G., Raimund Mauritz, R., & Füssl, J. (2021). 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Multi-scale finite element simulation on large deformation behaviour of wood under axial and transverse compression conditions, Acta Mechanica Sinica, 37, 1136-1151, DOI: 10.1007/s10409-021-01112-z UR - https://doi.org/10.33725/mamad.1663809 L1 - https://dergipark.org.tr/tr/download/article-file/4717245 ER -