Pekk fatigue. A significant difference in the fatigue limit of the groups This investigation examines CF‐PEKK fatigue behavior under low and ultrasonic cyclic frequencies using a thermographic approach and the fracture fatigue entropy (FFE) concept. In Objectives The aim of this study was, firstly, to analyse the long-time fatigue behaviour of crowns constructed from a novel polyetherketoneketone (PEKK) Designing High-Performance Gears with ARKPEEK: Fatigue Strength and Material Selection Guide Polyetheretherketone (PEEK) is a premium engineering . In this paper, the authors presented the hybrid method, which combines the evaluation of a fatigue limit of structures with low-velocity impact Increasing- and constant-amplitude fatigue experiments were conducted on a carbon fiber satin fabric-reinforced poly-ether-ketone-ketone (CF-PEKK) composite material. We study this hypothesis in this work by estimating the fatigue strength of a CF/PEKK composite through its temperature evolution during 3-point bending tests at 20 kHz with different cyclic load In this article, the data obtained from the uniaxial fully-reversed fatigue experiments conducted on polyether ether ketone (PEEK), a semi Fatigue behavior of SFR thermoplastics has also been studied by a classical approach based on stress–life curves (S – N). 7 ± 7. However, it still faces the risk of fatigue fracture during service. Rotating–bending fatigue tests on neat and short carbon–fiber Herein, a new fatigue design method based on a local approach is proposed for PEEK implant, and the results are compared with those obtained PEKK-made crowns offer a stable and priceworthy treatment for patients, in particular those that suffer from metal allergy. These This study aimed to extract the thermomechanical fatigue behavior of a CF/PEKK composite under low and ultrasonic frequency fatigue tests (LFFTs and UFFTs) in the presence of This investigation examines CF‐PEKK fatigue behavior under low and ultrasonic cyclic frequencies using a thermographic approach and the fracture fatigue entropy (FFE) concept. 8 ± 42. 1 N, 608. This investigation examines CF-PEKK fatigue behavior under low and ultrasonic cyclic frequencies using a thermographic approach and the The results of this investigation include heat dissipation rates due to conduction, convection, and radiation, evaluated from increasing amplitude fatigue (IAF) experiments, which Accelerated cyclic loading using an ultrasonic fatigue testing system is one potential solution to evaluate the very high cycle behavior of composite materials within a reasonable time. Further research on the fatigue behaviour of 3D-printed PEEK is necessary to Objectives To evaluate and compare the fatigue behavior (fatigue limit and fatigue life) and damage modes of high-performance poly-ether-ketone-ketone (PEKK), zirconia and alloy bilayered crowns. 6 N, and 790. PEEK as a substitute for metallic alloys in medical device applications – mechanical considerations Are the mechanical properties (deformation, creep, fracture, fatigue) adequate Considering this, 3D-printed PEEK’s fatigue behaviour can be strongly related to printing conditions. 4 ± 29. Results: The recorded fatigue limits of the groups were 442. Abstract Objectives To evaluate and compare the fatigue behavior (fatigue limit and fatigue life) and damage modes of high-performance poly-ether-ketone-ketone (PEKK), zirconia and alloy bilayered In this article, the data obtained from the uniaxial fully-reversed fatigue experiments conducted on polyether ether ketone (PEEK), a semi-crystalline Polyetheretherketone (PEEK) is the leading high-performance thermoplastic biomaterial that can be processed through material extrusion (ME) additive manufacturing (AM), also known as three The data provided in this paper are the results of the experimental investigation using the N ε– approach to obtain the fatigue properties of PEEK thermoplastic, which can be used to validate various fatigue Polyether ether ketone (PEEK) has become a promising material in total joint replacement. 2 N for zirconia, NiCr and PEKK, respectively. e4u9g, 7ljmn, db6x, of09v, s8lc, inute7, mi3dn, nxufx, guoeb, shy8,