Study of molding structures and physicomechanical properties of carbon-ceramic composite materials of the SiC–C system

“…As shown previously [5], in the stage of forming a component, i.e. manufacture of the primary carbon-reinforced plastic billet, the overall volume and the structure of the pore space of carbon-carbon and carbon-ceramic composite materials are formed, mainly as a result of organizing the distribution of the primary polymer matrix within the volume of the carbon-reinforced plastic by the choice of regime for increasing the pressure in the hardening stage.…”

“…After pyrocompaction the open porosity decreased to the level~12%, and the apparent density increased to 1.25 g/cm 3 . As a result of siliciding the apparent density increased to 1.8 -1.95 g/cm 3 , the weight of the ceramic matrix increased to 70%, and open porosity decreased to a level less than 5%.…”

“…A common sequence for manufacturing the test components is described in [3]. Carbon-reinforced plastic technology for forming makes it possible to prepare components with stiffening ribs in order to provide local fastening, suitable for organizing assembly of structures of several fragments.…”

“…These results are provided for a study of the physicomechanical properties of the material of a series of full-scale objects for a single selection of raw materials and a single production scheme for manufacture, but differing methods of molding the original carbon-reinforced plastic preform. Analysis of the structure of carbonized precursor material and carbon-ceramic composite material based on it is provided in a previous communication [5], in which it was shown that the greatest strength occurs for material prepared by compression compaction of a prepreg.…”

“…It was shown in communication [5] that one of the main production factors controlling formation of a pore structure is the compaction pressure in the stage when the polymer binder contains a thinner or is in a readily melting condition. With a threshold level of external pressure there is a certain size of polymer interlayer thickness and correspondingly the pore size after carbonizing.…”

Study of the physicomechanical properties of full-scale objects of carbon-ceramic composite materials of the SiC–C system (communication 3)

“…As shown previously [5], in the stage of forming a component, i.e. manufacture of the primary carbon-reinforced plastic billet, the overall volume and the structure of the pore space of carbon-carbon and carbon-ceramic composite materials are formed, mainly as a result of organizing the distribution of the primary polymer matrix within the volume of the carbon-reinforced plastic by the choice of regime for increasing the pressure in the hardening stage.…”

“…After pyrocompaction the open porosity decreased to the level~12%, and the apparent density increased to 1.25 g/cm 3 . As a result of siliciding the apparent density increased to 1.8 -1.95 g/cm 3 , the weight of the ceramic matrix increased to 70%, and open porosity decreased to a level less than 5%.…”

“…A common sequence for manufacturing the test components is described in [3]. Carbon-reinforced plastic technology for forming makes it possible to prepare components with stiffening ribs in order to provide local fastening, suitable for organizing assembly of structures of several fragments.…”

“…These results are provided for a study of the physicomechanical properties of the material of a series of full-scale objects for a single selection of raw materials and a single production scheme for manufacture, but differing methods of molding the original carbon-reinforced plastic preform. Analysis of the structure of carbonized precursor material and carbon-ceramic composite material based on it is provided in a previous communication [5], in which it was shown that the greatest strength occurs for material prepared by compression compaction of a prepreg.…”

“…It was shown in communication [5] that one of the main production factors controlling formation of a pore structure is the compaction pressure in the stage when the polymer binder contains a thinner or is in a readily melting condition. With a threshold level of external pressure there is a certain size of polymer interlayer thickness and correspondingly the pore size after carbonizing.…”

Study of the physicomechanical properties of full-scale objects of carbon-ceramic composite materials of the SiC–C system (communication 3)