Cracked asphalt pavement under traffic loading – A 3D finite element analysis

https://digital.csic.es/bitstream/10261/131654/1/EG_2016-Freire.pdf

Thermal stress-induced microcracking in building granite

Load-induced cracking is one of the primary forms of distress in asphalt pavements at intermediate temperatures. Binder modification is a good alternative to promote the cracking resistance of asphalt mixtures. In the current research study, the effects of carbon nanotubes as a binder modifier on the fatigue and fracture performance of asphalt mixtures are investigated. The carbon nanotubes are added at five different percentages ranging from 0.2% to 1.5% to the base binder to study their effects on the fracture resistance and fatigue life of the asphalt mixtures. Using the cracked semi-circular bend specimen, the critical value of J-integral (Jc) was obtained for the investigated modified asphalt mixtures. Also, the fatigue behaviour of asphalt mixtures was studied using flexural beam fatigue test specimen. By employing the ratio of dissipated energy change approach, the plateau value of tested mixtures was determined as a measure of fatigue performance. Results showed that the carbon nanotubes can enhance both fracture resistance and fatigue performance of tested asphalt mixtures especially at higher percentages of the carbon nanotube.

Investigation of fatigue and fracture properties of asphalt mixtures modified with carbon nanotubes

Intrinsic temperature sensitive self-healing character of asphalt binders based on molecular dynamics simulations

Evaluation of inherent toxicology and biocompatibility of magnesium phosphate bone cement.

Effects of thermal-heating cycle treatment on thermal expansion behavior of different building stones

Fatigue crack growth in asphalt and asphalt-interfaces

Stiffness analysis of tibia-implant system under cyclic loading

BACKGROUND Intramedullary nailing is the treatment of choice in tibia fractures allowing for closed fracture reduction and internal fixation. Small-diameter nails that preserve the endosteal blood supply act as load-sharing devices after proximal and distal locking. Despite fracture healing is influenced by movements at the fracture gap, no data are available reporting on the micromovements at the fracture site if small-diameter nails were used. METHODS Using a Sawbone distal tibia fracture model, we assessed offset, elastic, plastic, permanent, and overall deformation at the fracture site for four small-diameter tibia nails (Expert, Synthes, Saluburg, Austria; Connex, ITS Spectromed, Lassnitzhohe, Austria; Versanail, DePuy, Vienna, Austria; T2, Stryker, Vienna, Austria) after mechanical testing with a servohydraulic material testing machine. Cyclic loading was performed with a sinusoidal load of 700 N (+/-600) for 40,000 cycles representing 6 weeks of full weight bearing. RESULTS Offset deformation was significantly higher for the Connex nail when compared with other nails (p < 0.001). Regarding elastic deformation, no significant difference was recorded between the implants. Plastic deformation was significantly lower if the Connex nail was used (0.134 [+/-0.053] mm; p < 0.001). Elastic deformation did not exceed 0.7 mm and plastic deformation did not exceed 0.4 mm. Regarding permanent and overall deformation, no significant difference between the implants was recorded. CONCLUSIONS Considerable deformation at the fracture gap can be assumed even after partial weight bearing with 100 N. Despite comparable material properties, differences in axial micromotion were recorded among the nail types used in this series. The number of distal locking screws (three or four) did not substantially influence the axial movements at the fracture gap.

Micromotion at the fracture site after tibial nailing with four unreamed small-diameter nails--a biomechanical study using a distal tibia fracture model.

BACKGROUND: Though, volar fixed-angle plating has become increasingly popular to treat distal radius fractures no studies are available comparing the mechanical properties of different screw configurations to fix the plate to the shaft. The aim of the present study was to evaluate the effect of an additional locking screw directly proximal to the fracture site and to assess if such a screw might be protective against secondary loss of reduction after volar fixed-angle plating.

METHODS: Ten Sawbones radii were used to simulate an extra-articular distal radius fracture model (AO/OTA 23-A3). In the first group (n = 5), volar fixed-angle plates (Aptus Radius 2.5, Medartis, Switzerland) were fixed to the radius shaft with a single nonlocking cortex screw in the oval hole and with two locking screws in the holes proximal to the long hole (LLNx); in the second group, the plates were fixed identically as in the first group, but an additional locking screw was inserted into the plate-hole distal to the oval hole, proximal to the fracture site (LLNL). After embedding, specimens were tested with a servohydaulic material testing machine under cyclic axial loading with 800 N for 2,000 cycles. Axial stiffness, elastic axial deformation (elastic dorsal tilt angle), and plastic deformation (plastic dorsal tilt angle) were recorded.

RESULTS: After 2,000 cycles, stiffness was 761.6 (+/-59.5) N/mm in group LLNx and 628.9 (+/-37.6) N/mm in group LLNL without significant difference. Elastic deformation and elastic tilt angle were 1.05 (+/-0.08) mm and 3.9 (+/-0.3) degree in group LLNx. In group LLNL, elastic deformation and elastic tilt angle were 1.27 (+/-0.08) mm and 4.7 (+/-0.3) degree, respectively. Plastic deformation and plastic tilt angle were significantly higher in group LLNx (p < 0.001). After 2,000 cycles, dorsal tilt angle was 1.9 (+/-0.3) degree in group LLNx and 0.7 (+/-1.0) in group LLNL.

CONCLUSION: This study showed the mechanical superiority of volar fixed-angle plates with a "protection screw" in an extra-articular fracture model. Further clinical investigation is needed to verify the results.

Influence of an Additional Locking Screw on Fracture Reduction After Volar Fixed-Angle Plating—Introduction of the “Protection Screw” in an Extra-Articular Distal Radius Fracture Model

Michael Jamek

Papers

Effects of thermal-heating cycle treatment on thermal expansion behavior of different building stones

Fatigue crack growth in asphalt and asphalt-interfaces

Stiffness analysis of tibia-implant system under cyclic loading

Micromotion at the fracture site after tibial nailing with four unreamed small-diameter nails--a biomechanical study using a distal tibia fracture model.

Influence of an Additional Locking Screw on Fracture Reduction After Volar Fixed-Angle Plating—Introduction of the “Protection Screw” in an Extra-Articular Distal Radius Fracture Model