Fracture Fixation, Internal -- adverse effects : Osteosynthesis in the hand : current concepts : FESSH instructional course 2008 / editors, Daniel B. Herren, Ladislav Nagy, Doug A. Campbell
Fracture Fixation, Intramedullary -- standards. : Intramedullary rods : clinical performance and related laboratory testing / J. Paul Harvey, Jr., A.U. Daniels, and Robert F. Games, editors
The use of internal devices (metal plates, nails, rods, etc.) to hold the position of a fracture in proper alignment
1
Fracture Functionally gradient materials : Fracture mechanics in layered and graded solids : analysis using boundary element methods / Hongtian Xiao, Zhongqi Yue
2014
1
Fracture Geology, Structural : Fractures, fluid flow, and mineralization / edited by Ken McCaffrey, Lidia Lonergan and Jamie Wilkinson
1999
1
Fracture Girders : Fracture analysis of layered beams with an elastically coupled behavior and hygrothermal stresses : application to metal-to-composite adhesive joints / Panayiotis Tsokanas
Fracture Glass Congresses : Fractography of glasses and ceramics VI : proceedings of the sixth Conference on the Fractography of Glasses and Ceramics, June 5-8, 2011, Jacksonville, Florida / edited by James R. Varner, Marlene Wightman
2012
1
Fracture Glass Statistical methods : A methodology to model the statistical fracture behavior of acrylic glasses for stochastic simulation / Marcel Berlinger
2021
1
Fracture Granite outcrops : Tensile fracturing in rocks : tectonofractographic and electromagnetic radiation methods / Dov Bahat, Avinoam Rabinovitch, Vladimir Frid
Fractures due to the strain caused by repetitive exercise. They are thought to arise from a combination of MUSCLE FATIGUE and bone failure, and occur in situations where BONE REMODELING predominates over repair. The most common sites of stress fractures are the METATARSUS; FIBULA; TIBIA; and FEMORAL NECK
Fracture Magnetic materials : Fracture mechanics of electromagnetic materials : nonlinear field theory and applications / by Xiaohong Chen, Yiu-Wing Mai
Fractures due to the strain caused by repetitive exercise. They are thought to arise from a combination of MUSCLE FATIGUE and bone failure, and occur in situations where BONE REMODELING predominates over repair. The most common sites of stress fractures are the METATARSUS; FIBULA; TIBIA; and FEMORAL NECK
Fracture mechanics -- Bibliography. : References and conference proceedings towards the understanding of fracture mechanics / Pir M. Toor, C. Michael Hudson, authors ; sponsored by ASTM Subcommittee E-24.06 on Fracture Mechanics Applications, ASTM Committee E-24 on Fracture Testing
Fracture mechanics -- Computer simulation -- Congresses. : Fracture of brittle, disordered materials : concrete, rock and ceramics : Proceedings of The International Union of Theoretical and Applied Mechanics (IUTAM) symposium on fracture of brittle, disordered materials : concrete, rock and ceramics, 20-24 September 1993, The University of Queensland, Brisbane, Australia / edited by G. Baker and B.L. Karihaloo
Fracture mechanics -- Experiments. : Experimental Evaluation of Stress Concentration and Intensity Factors : Useful Methods and Solutions to Experimentalist in Fracture Machanics / Edited by G.C. Sih