Twist Springback of Asymmetric Thin-walled Tube in Mandrel Rotary Draw Bending Process

AbstractThis paper aims to develop an effective numerical model and analyse the twist springback behaviour of asymmetric thin-walled tube in mandrel rotary draw bending. Yld2000-2d anisotropic yield criterion integrated with mixed isotropic and kinematic hardening model was used to describe the material properties including anisotropy and Bauschinger effect. The corresponding mechanical experiments such as uniaxial tension, monotonic and forward-reverse shear tests were performed to obtain the material parameters. A three-dimensional elastic-plastic finite element model was developed, and its validity was assessed by comparing the predicted twist springback with experiment one. Based on the present FE model, the tangential stress distribution during different bending steps were analysed to explore the source of twist springback. The results indicate that the torsion moment of cross sections caused by the non-homogenous stress states play a considerable role in twist springback prediction

Deposition Mechanism and Properties of Thin Polydopamine Films for High Added Value Applications in Surface Science at the Nanoscale

Polydopamine films have been introduced by Messersmith et al. as a possible “versatile” surface functionalization method allowing to coat the surface of almost all known materials even superhydrophobic surfaces. These new kinds of coatings also confer a plethora of functionalities to the coated materials owing to the complex chemistry of the catechol quinone moieties present on the surface of polydopamine. These coatings may hence become an interesting alternative to established surface coatings like self-assembled monolayers and polyelectrolyte multilayered films. In this review, we describe the knowledge acquired in the last 3 years about the deposition mechanisms of polydopamine films, their properties, and various applications in surface science at the nanoscale.Fonds Europeen de Developpement Economique et Regional (Chaptochem Project 2009-02-039-35

Integrated biomimetic carbon nanotube composites for in vivo systems

CESAMAs interest in using carbon nanotubes for developing biologically compatible systems continues to grow, biological inspiration is stimulating new directions for in vivo approaches. The ability to integrate nanotechnology-based systems in the body will provide greater successes if the implanted material is made to mimic elements of the biological milieu especially through tuning physical and chemical characteristics. Here, we demonstrate the highly successful capacity for in vivo implantation of a new carbon nanotube-based composite that is, itself, integrated with a hydroxyapatite-polymethyl methacrylate to create a nanocomposite. The success of this approach is grounded in finely tailoring the physical and chemical properties of this composite for the critical demands of biological integration. This is accomplished through controlling the surface modification scheme, which affects the interactions between carbon nanotubes and the hydroxyapatite-polymethyl methacrylate. Furthermore, we carefully examine cellular response with respect to adhesion and proliferation to examine in vitro compatibility capacity. Our results indicate that this new composite accelerates cell maturation through providing a mechanically competent bone matrix; this likely facilitates osteointegration in vivo. We believe that these results will have applications in a diversity of areas including carbon nanotube, regeneration, chemistry, and engineering research.NANO/NMed-AT/0115/2007SFRH/BPD/14677/2003FC

Treatment of anterior vaginal wall prolapse with and without polypropylene mesh: a prospective, randomized and controlled trial - Part I

Objective To compare the use of polypropylene mesh (PM) and the traditional anterior vaginal wall colporraphy in women with anterior vaginal wall prolapse (AVWP) using objective and subjective tests and evaluation of quality of life (QoL). Materials and Methods One hundred women were randomly distributed in two preoperatory groups. The first group (mesh) (n = 45) received a PM implant and the control group (n = 55) was submitted to traditional colporraphy. Postoperatory follow-up was done after 12 months. The primary objective was the correction of the Ba point ≤ -2 POP-Q (Pelvic Organ Prolapse Quantification System) and the secondary objective was the improvement of vaginal symptoms and QoL through ICIQ-VS (International Consultation on Incontinence Questionnaire - Vaginal Symptoms). Complications related to the use of PM or not were also described. Results There was a significant difference between all POP-Q measures of pre- and postoperatory periods of each group in particular. There was a significant difference of the Ba point of the postoperatory period between the Mesh and Control group. The mean of Ba point in the Mesh group was statistically lower than of the Control group, depicting the better anatomical result of the first group. Both techniques improved vaginal symptoms and QoL. The most frequent complication of the Mesh group was prepubic hematoma in the perioperative period. In 9.3% of the cases treated with mesh it was observed PM exposition at the anterior vaginal wall after 12 months, being most of them treated clinically. Conclusion The treatment of AVWP significantly improved the Ba point in the Mesh group in comparison to the Control group. There were no differences of the vaginal symptoms and QoL between the two groups after 12 months. There were few and low grade complications on both groups.Federal University of Sao Carlos Department of MedicineHealth Secretary of Jau Ambulatory of UrogynecologyFederal University of São Paulo Department of Urogynecology and Pelvic Surgery, Department of GynecologyUNIFESP, Department of Urogynecology and Pelvic Surgery, Department of GynecologySciEL