SB332 is a one part low viscosity bismaleimide infusion carbon fiber reinforced resin developed for high temperature composite parts with service temperature up to 200°C. The resin is characterized by low viscosity at impregnation and molding temperatures (100 cP at 120°C), which makes it possible t

В180 is a prepreg based on epoxy carbon fiber reinforced resin for producing details with operating temperatures up to 150°C. Out-of-autoclave prepreg technology has the most advantages of autoclave. The autoclave is not required for processing the prepreg B180. Curing takes place in a vacuum bag, w

Prepreg PSB250 bismaleimide carbon fiber reinforced resin is designed for the production of composite parts or tools operated at temperatures up to 250°C. As a reinforcing material for a prepreg based on the bismaleimide resin PSB250, unidirectional belts and fabrics of various weave can be used. It

T107 is a prepreg based on epoxy carbon fiber reinforced resin for producing details with operating temperatures up to 150°C. It shows the following features and properties: High strength High impact- and cracking-resistance Glass-transition temperature is 175°CPropertiesMechanicalPropertyTemperatu

TK123 is a two-part low viscosity epoxy infusion carbon fiber reinforced resin developed for tooling up to 120°С, or CFRP parts with sustainable properties up to 90°С. The resin offers simple and flexible processing due to low viscosity at room temperature (lower than 500 mPa*s at 25°C). TK123 was d

T20-60 is a two-part low viscosity epoxy infusion carbon fiber reinforced resin developed for mass CFRP production. The resin offers simple and flexible processing due to low viscosity and room temperature impregnation. T20-60 was developed specially for vacuum infusion molding, to produce laminates

T107 is a prepreg based on epoxy carbon fiber reinforced resin and reinforcing filler (unidirectional tapes or fabrics of various weaving) for producing details with operating temperatures up to 150 °C. It shows the following features and properties: High mechanical performance High resistance to i

PN-3M is a single part phthalonitrile carbon fiber reinforced resin with higher glass transition temperature and outstanding thermal stability, specially developed for vacuum infusion and RTM technologies. Pre-curing at 180°C allows to remove parts from tool after cooling. Post-curing provides glass

Т26 is a single part low viscosity epoxy infusion resin, coated with UD tape, developed for high-loaded structures. T26 offers simple and flexible processing due to low viscosity at relatively low impregnation temperatures (110°С). T26 was developed specially for RTM and vacuum infusion molding, to

ТО200 (EP-CF) is a two-part epoxy carbon fiber reinforced resin with unique characteristics, combining high heat resistance, strength and processability. The impregnation temperature is 20-25°C. Flexible curing mode in combination with post-curing allows achieving the required heat resistance at the

GNPGraystar’s Fused MagnesiumAluminate Spinel is made of high purity raw materials in electric arc furnaces. The maximum amount of spinel crystals is achieved by using pure raw materials and electric arc furnaces. The product has a high thermal shock resistance and slag corrosion resistance, and goo

GNPGraystar’s Fused MagnesiumAluminate Spinel is made of high purity raw materials in electric arc furnaces. The maximum amount of spinel crystals is achieved by using pure raw materials and electric arc furnaces. The product has a high thermal shock resistance and slag corrosion resistance, and goo

GNPGraystar’s Fused MagnesiumAluminate Spinel is made of high purity raw materials in electric arc furnaces. The maximum amount of spinel crystals is achieved by using pure raw materials and electric arc furnaces. The product has a high thermal shock resistance and slag corrosion resistance, and goo

By adding Magnesia to Zirconia, the cubic and tetragonal phases are partially stabilized. This MgPSZ material is white and has excellent durability in cyclic-fatigue environments and is used in application that require high-strength and resistance to thermal shock.PropertiesGeneralPropertyValueComme

By adding Magnesia to Zirconia, the cubic and tetragonal phases are partially stabilized. This MgPSZ material is white and has excellent durability in cyclic-fatigue environments and is used in application that require high-strength and resistance to thermal shock.PropertiesGeneralPropertyValueComme

GNPGraystar’s Chemical Grade Yttria-Stabilized Zirconia is a non-toxic and tasteless white powder. It has good chemical stability and controlled specific surface area. In ceramics, Y203 partially stabilized zirconia has superior load bearing capabilites and offers the highest strength and toughness.

GNPGraystar’s Chemical Grade Yttria-Stabilized Zirconia is a non-toxic and tasteless white powder. It has good chemical stability and controlled specific surface area. In ceramics, Y203 partially stabilized zirconia has superior load bearing capabilites and offers the highest strength and toughness.

PropertiesGeneralPropertyTemperatureValueDensity23.0 °C17.6 g/cm³MechanicalPropertyTemperatureValueCommentElongation23.0 °C14 %Impact strength, Charpy notched23.0 °C1000 kJ/m²(5x5)Tensile strength23.0 °C1250 MPaYield strength23.0 °C1250 MPa

PropertiesGeneralPropertyTemperatureValueDensity23.0 °C17.6 g/cm³MechanicalPropertyTemperatureValueCommentElongation23.0 °C11 %Impact strength, Charpy notched23.0 °C1500 kJ/m²(5x5)Tensile strength23.0 °C1460 MPaYield strength23.0 °C1460 MPa

PropertiesGeneralPropertyTemperatureValueDensity23.0 °C17.55 g/cm³MechanicalPropertyTemperatureValueCommentElongation23.0 °C8 %Impact strength, Charpy notched23.0 °C600 kJ/m²(5x5)Tensile strength23.0 °C1525 MPaYield strength23.0 °C1510 MPa