Abstract: A method for forming a surface coating on at least a part of a solid substrate, comprising a step of cold spraying a flow comprising at least one carrier gas, and particles suitable for deposition on the said substrate, said flow having a speed of more than 350 m/s; The particles are obtained from inorganic materials and have dimensions smaller than 200 ?m. One or more mixtures of reaction precursor reagents are present in at least some of the particles. The mixtures are obtained from at least one pair of phases. The mixtures of reaction precursor reagents are characterized by at least one reaction having an adiabatic temperature of at least 800 ° C.

Abstract: A mechano-chemical reactor comprising, driving means extended along one or more parallel axis, a mass made oscillating by the driving means along the direction of a vertical axis and an elastic system for a partial compensation of the inertial forces generated by the oscillating mass. The oscillating mass includes at least one restricted environment loaded with solid and/or liquid substances are loaded in order to be treated by the kinetic energy of milling bodies. The elastic system comprises flexible elements made of a titanium alloy which are either one-dimensional, i.e. a plurality of rectilinear parallel rods, or bi-dimensional, i.e. at least a polygonal plate having two sides parallel to the axis of the driving means. In rest conditions the flexible elements are extended substantially perpendicular to the direction of the oscillations of the mass.

Abstract: A method for forming a surface coating on at least a part of a solid substrate, comprising a step of cold spraying a flow comprising at least one carrier gas, and particles suitable for deposition on the said substrate, said flow having a speed of more than 350 m/s; The particles are obtained from inorganic materials and have dimensions smaller than 200 ?m. One or more mixtures of reaction precursor reagents are present in at least some of the particles. The mixtures are obtained from at least one pair of phases. The mixtures of reaction precursor reagents are characterized by at least one reaction having an adiabatic temperature of at least 800 ° C.

Abstract: The invention relates to a method for producing sub-micrometric particles, which comprises: mechanochemical treatment of homogeneous or heterogeneous magnetic materials until a mass which consists mostly of magnetic nanocrystal aggregates is obtained; selection of aggregates so that the nanocrystals have a Curie temperature within a predefined variation range; functionalization of the aggregates in order to obtain coating thereof with molecules of one or more of the following types of substances: substances for which the tumour cells have a particular metabolic avidity; substances having a biochemical affinity with the tumour cells; substances having an affinity with the acid microenvironment which surrounds the neoplastic cells.

Abstract: A mechano-chemical reactor comprising, driving means extended along one or more parallel axis, a mass made oscillating by the driving means along the direction of a vertical axis and an elastic system for a partial compensation of the inertial forces generated by the oscillating mass. The oscillating mass includes at least one restricted environment loaded with solid and/or liquid substances are loaded in order to be treated by the kinetic energy of milling bodies. The elastic system comprises flexible elements made of a titanium alloy which are either one-dimensional, i.e. a plurality of rectilinear parallel rods, or bi-dimensional, i.e. at least a polygonal plate having two sides parallel to the axis of the driving means. In rest conditions the flexible elements are extended substantially perpendicular to the direction of the oscillations of the mass.

Abstract: The invention refers to a method and an apparatus for fabricating a tridimensional solid object by sintering inorganic particles of controlled size distribution. The particles are directed onto a target area in a powdery stream in the shape of a conical surface which is coaxial to a simultaneous heating flux while an at least bidimensional relative movement is maintained between the target area, the powdery stream and the heating flux. As a result the particles sinterization occurs in a single operation directly onto the target area.

Abstract: The invention refers to a method and an apparatus for fabricating a tridimensional solid object by sintering inorganic particles of controlled size distribution. The particles are directed onto a target area in a powdery stream in the shape of a conical surface which is coaxial to a simultaneous heating flux while an at least bidimensional relative movement is maintained between the target area, the powdery stream and the heating flux. As a result the particles sinterization occurs in a single operation directly onto the target area. The resulting tridimensional solid objects are also claimed.

Abstract: The invention is based on the use of high-energy grinding mills for treating by combined mechanical and chemical action materials comprising one or more polymers in the liquid state thereof, in view of modifying the chemical/physical performance properties thereof. The polymers may be treated in the mill either alone or mixed with other materials, even non-polymeric organic or inorganic ones, which may themselves be either in liquid form or in the form of particles. An elastic transpiring membrane and an additive for protective coatings for wooden surfaces are specifically indicated and claimed as typical products among a variety of products that can be obtained with this method.

Abstract: The present invention concerns a high energy oscillating ball mill, useful in the preparation of nanophase materials having crystallite sizes of the order of 5 to 20 nm, with high production capacity and consisting of a grinding jar (containing, in the working conditions, the grinding balls and the materials charge to be processed) driven in an alternate regime of motion. Such a grinding jar is elastically constrained in such a way that the inertial forces originated during the oscillations are compensated.

Abstract: A process for the preparation of composite materials consisting essentially of an oxide phase and a metal phase is effected by grinding a mixture of at least one oxide precursor of the metal phase of the composite with at least one reducing agent, the reducing agent being a precursor of the oxide phase. The grinding being performed in a high energy mechanical grinder for a sufficient length of time so that at least 80 percent of the oxide precursor is reduced to metal or to a metal alloy. The process is particularly valuable for the preparation of oxide/metal composite materials which have improved mechanical, electrical or radiation absorption properties.