Равновесие и динамика адсорбции паров воды на металлорганическом каркасе MOF-801

В работе представлены результаты исследования равновесия и динамики адсорбции паров воды на металлоорганическом каркасе MOF-801 с целью оценки потенциала его применения в системах адсорбционного охлаждения. Показано, что адсорбция воды на MOF-801 характеризуется S-образными изобарами IV типа по классификации ИЮПАК. В условиях типичного рабочего цикла адсорбционного холодильника (АХ) MOF-801 обменивает 0,21 г/г и может быть регенерирован при 80-85°С, что позволяет использовать источники низкотемпературной теплоты (солнечная энергия). Динамика адсорбции на гранулах MOF-801 в условиях рабочего цикла АХ происходит в режиме, при котором скорость процесса определяется отношением S/m площади поверхности теплопереноса S к массе адсорбента m. Эффективность и удельная мощность АХ с использованием пары "MOF-801-вода" достигают 0,67 и 2 кВт/кг соответственно, что представляет большой практический интерес

Применение сверточной нейронной сети U-Net для сегментации текстовых областей на изображениях реальных сцен

Micro-blasting on PVD films has been documented, among others, as an efficient method for inducing compressive stresses, thus for increasing the coating hardness and potentially tool life of coated tools. Since contradictory results have been registered concerning the efficiency of wet micro-blasting on coated tools for improving the wear behaviour, the paper aims at explaining how this process can be successfully applied for post-treatment of PVD films. In this context, the employed conditions such as pressure and grain size affect significantly the wear resistance of the micro-blasted coated tools.In the described investigations, TiAlN coatings were post-treated through wet micro-blasting by Al2O3 abrasives of various grains' diameter. Abrasion mechanisms after micro-blasting were investigated by roughness measurements. Nanoindentations on micro-blasted film surfaces at various pressures revealed the influence of this process on coating superficial hardness. The relat ed residual stress changes were estimated considering the film yield stress alterations, which were analytically determined, based on nanoindentation results. Nano-impact tests were conducted for investigating the effect of the developed film compressive stresses at certain micro-blasting pressures and grain sizes on the film's brittleness. To monitor film thickness and cutting edge radius changes of coatings subjected to micro-blasting, ball cratering tests and white light scans were carried out respectively. In this way, micro-blasting conditions for improving the film hardness, without revealing the substrate in the cutting edge region, were detected. Finally, the wear behaviour of coated and variously wet micro-blasted tools was investigated in milling of hardened steel

Математическое моделирование теплового воздействия низового лесного пожара на фрагмент корневой системы дерева

В настоящей работе представлены результаты численного моделирования теплопереноса в слоистой структуре корневого ответвления при воздействии повышенной температуры от очага лесного пожара. Задача решена методом конечных разностей в цилиндрической системе координат с использованием одномерной постановки. Рассматриваются типичные времена воздействия и температуры во фронте лесного пожара. Представлены распределения температуры в системе "фрагмент корня-почва-ЛГМ-воздух". Выявлены характер распределения температуры и глубина прогрева слоя почвы до значений опасных для корневой системы хвойного дерева.We present the numerical simulation results of heat transfer in a layered structure of the root branch when exposed to a high temperature from a forest fire in this paper. The problem is solved by the method of finite differences in a cylindrical coordinate system using a one-dimensional formulation. Typical exposure times and temperatures in the forest fire front are considered. The temperature distributions are presented for the system "root fragment-soil-forest fuel-air". We revealed the character of the temperature distribution and the depth of the soil layer heating to the values which are dangerous for the coniferous tree root system

Разработка алгоритма для выполнения операции обратного проецирования

High Power Pulsed Magnetron Sputtering (HPPMS) techniques jointly with the deposition of a graded Cr/CrN-nanointerlayer on cutting inserts can increase the film adhesion and consequently the tool life. These improvements depend on the roughness of the employed cemented carbide substrates. The investigations described in the present paper intend to explain the effect of Cr/CrN-interlayer thickness and substrate roughness on the coating adhesion and cutting performance. To attain various roughnesses, the applied cemented carbide inserts were superficially treated. These treatments were grinding at a medium roughness level, or grinding with subsequent polishing for enhancing the surface integrity and finally, in all cases, micro-blasting by fine Al2O3 grains. After Ar-ion etching, graded Cr/CrN adhesive layers with different thicknesses were deposited by HPPMS technology on the variously pretreated substrates. Subsequently, an approximately 3m thick (Ti,Al)N film was depos ited by HPPMS PVD on all used inserts. Rockwell C indentations and inclined impact tests were performed to assess qualitatively and quantitatively the films' adhesion. The cutting performance of the coated tools was investigated in milling of 42CrMo4 QT. FEM supported calculations of the developed stresses during the material removal process contributed in explaining the obtained tool wear results. In these calculations, the adhesion, dependent on the substrate roughness characteristics and on the adhesive interlayer thickness, was taken into account. The results revealed that the effectiveness of HPPMS adhesive graded Cr/CrN-nanointerlayer strongly depends on the substrate surface integrity and on the interlayer thickness. Thus, the film adhesion and consequently the cutting performance can be significantly improved if the interlayer thickness is adapted to the substrate roughness

Coated tool wear behaviour in up and down milling at various chip lengths explained by the cutting edge impact loads

Milling operations for manufacturing dies and molds are commonly linked to complicated chip geometry and contact conditions between tool and workpiece. These parameters render the optimisation of the cutting conditions and the description of the tool wear difficult. In the described experiments, coated cemented carbide inserts fixed on a milling cutter were applied in down and up milling for monitoring the wear behaviour at various cutting edge entry conditions, which result in various chip lengths. The corresponding developed strain rates cause different film-substrate deformations and resulting loads. These phenomena were investigated with the aid of a new impact tester with adjustable impact force characteristics. The effective tool life up to a certain flank wear land width versus the cutting edge entry duration was explained and analytically described

Prediction of Coated Tools Performance in Milling Based on the Film Fatigue at Different Strain Rates

The knowledge of coated tool wear mechanisms in milling is pivotal forexplaining the film failure and selecting the appropriate cutting strategy and conditions. In this paper, tool wear experiments were carried out in milling of four different steels using coated cemented carbide inserts. The variable stress, strain and strain rate fields developed in the tool during cutting affect the film‐substrate deformations and in this way the resulting coatings loads and its fatigue failure. For investigating the influence of cyclic impact loads magnitude and duration on the films’ fatigue of coated specimens, an impact tester was employed which facilitates the modulation of the force signal. The attained tool life up to the films’ fatigue failure was associated to a critical force for the film fatigue endurance and to the cutting edge entry impact duration. These factors converge sufficiently to the tool life in all examined milling kinematics and workpiecematerial cases