BLEEDING FROM THE VARICOSE-EXPANDED VEINS OF A GULLET AT A CIRRHOSIS OF A LIVER

Studied clinical – epidemiological features of current and the analysis of lethal cases at patients with cirrhoses of a liver various aetiologies owing to bleedings from varicose -the expanded veins of a gullet (VEVG) are studied. It is lead skrining the analysis of 310 cards of stationary supervision of patients with a cirrhoses of a liver various aetiologies and the retrospective analysis of 37 case records of patients died owing to a bleeding from VEVG, was on hospitalization in 2015 and 2016 in MBUZ KGK BSMP «Hospital of the first help». The group of risk is revealed at VEVG on a floor, age; the greatest degree VEVG at a bleeding, aetiologies a cirrhosis of a liver at a bleeding and indications for the emergency surgical help

Bringing together materials and business ontologies for protective coatings

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FORMATION OF CELLULAR STRUCTURES FOR MODELING AND EXPERIMENTAL EVALUATION OF PROPERTIES OF ADDITIVE MANUFACTURING PRODUCTS

The technique of modeling and experimental evaluation of effective physical and mechanical properties of additive manufacturing products obtained by layer-by-layer laser synthesis on the basis of powder alloys 07X18H12M2 (analog AISI 316L) and 08XN53BMTYU (analog Inconel 718), with the formation of cellular structures in them, is presented.Представлена методика моделирования и экспериментальной оценки эффективных физико.механических свойств изделий аддитивного производства, полученных методом послойного лазерного синтеза на базе порошковых сплавов 07Х18Н12М2 (аналог AISI 316L) и 08ХН53БМТЮ (аналог Inconel 718), с помощью формирования в них ячеистых структур.Исследование проведено в рамках государственного задания Министерства образования и науки Российской Федерации, проект № 11.6682.2017/8.9

Materials characterisation and software tools as key enablers in Industry 5.0 and wider acceptance of new methods and products

Recently, the NMBP-35 Horizon 2020 projects - NanoMECommons, CHARISMA, and Easi-stress - organised a collaborative workshop to increase awareness of their contributions to the industry “commons” in terms of characterisation and digital transformation. They have established interoperability standards for knowledge management in characterisation and introduced new solutions for materials testing, aided by the standardisation of faster and more accurate assessment methods. The lessons learned from these projects and the discussions during the joint workshop emphasised the impact of recent developments and emerging needs in the field of characterisation. Specifically, the focus was on enhancing data quality through harmonisation and standardisation, as well as making advanced technologies and instruments accessible to a broader community with the goal of fostering increased trust in new products and a more skilled society. Experts also highlighted how characterisation and the corresponding experimental data can drive future innovation agendas towards technological breakthroughs. The focus of the discussion revolved around the characterisation and standardisation processes, along with the collection of modelling and characterisation tools, as well as protocols for data exchange. The broader context of materials characterisation and modelling within the materials community was explored, drawing insights from the Materials 2030 Roadmap and the experiences gained from NMBP-35 projects. This whitepaper has the objective of addressing common challenges encountered by the materials community, illuminating emerging trends and evolving techniques, and presenting the industry's perspective on emerging requirements and past success stories. It accomplishes this by providing specific examples and highlighting how these experiences can create fresh opportunities and strategies for newcomers entering the market. These advancements are anticipated to facilitate a more efficient transition from Industry 4.0 to 5.0 during the industrial revolution. © 2023The Workshop was supported by EU H2020 project NanoMECommons, GA 952869, CHARISMA, GA 952921, EASI-STRESS, GA 953219, and EsSENce COST ACTION CA19118. This article/publication is based upon work from COST Action EsSENce COST ACTION CA19118, supported by COST (European Cooperation in Science and Technology). Miguel A. Bañares, Raquel Portela, Nina Jeliazkova, Enrique Lozano, Bastian Barton and Iván Moya have received financial support from the EU H2020 project CHARISMA, GA n. 952921, Bojan Boskovic, Ennio Capria, Costas Charitidis, Donna Dykeman, Spyros Diplas, Gerhard Goldbeck, Marco Sebastiani, Elias Koumoulos, Silvia Giovanna Avataneo, Miguel A. Bañares, Raquel Portela, Anastasia Alexandratou, Athanasios Katsavrias, Fotis Mystakopoulos have received financial support from the EU H2020 project NanoMECommons, GA n. 952869, Nikolaj Zangernberg and Ennio Capria have received financial support from the EU H2020 project EASI-STRESS, GA n. 953219, Natalia Konchakova has received financial support from the EU H2020 project VIPCOAT, GA n. 952903, Costas Charitidis, Elias Koumoulos, and Spyros Diplas have received financial support from the EsSENce COST ACTION CA19118. All authors would like to specially acknowledge Anastasia Alexandratou, Athanasios Katsavrias and Fotis Mystakopoulos for their support in NMBP-35 joint Workshop organisation and documentation, and Steffen Neumann for his insights during the NMBP-35 joint Workshop discussions.Peer reviewe