Mechanical Properties | Metric | English | Comments |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | |
CoorsTek AD-94 Alumina (nom. 94% Al2O3) Thermal Shock Delta Tc = 250°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | |
CoorsTek AD-96 Alumina (nom. 96% Al2O3) Thermal Shock Delta Tc = 250°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | |
CoorsTek AD-995 Alumina (nom. 99.5% Al2O3) Thermal Shock Delta Tc = 200°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | Klc; Notched Beam |
CoorsTek AD-996 99.6% Alumina |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | |
CoorsTek AD-998 Alumina(nom. 99.8% Al2O3) Thermal Shock Delta Tc = 200°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | Klc; Notched Beam |
CoorsTek CAP 3 99.5% Alumina Ceramic Armor Material CoorsTek CeraShield™ ceramics provide: low weight, high hardness, controlled, uniform microstructure, dimensional stability over wide temperature range, compatibility for use in finished armor sys.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | Klc; Notched Beam |
CoorsTek CAP 4 98.5% Alumina Ceramic Armor Material CoorsTek CeraShield™ ceramics provide: low weight, high hardness, controlled, uniform microstructure, dimensional stability over wide temperature range, compatibility for use in finished armor sys.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | |
CoorsTek Direct Sintered Silicon Carbide, SC DS (SC-30, UltraSiC™) Thermal Shock Delta Tc = 300°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | Klc; Notched Beam |
CoorsTek FG-98 98% Alumina Ceramic Armor Material CoorsTek CeraShield™ ceramics provide: low weight, high hardness, controlled, uniform microstructure, dimensional stability over wide temperature range, compatibility for use in finished armor sys.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | |
CoorsTek FG-995 Alumina (nom. 98.5% Al2O3) Thermal Shock Delta Tc = 200°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | Notched Beam |
CoorsTek PlasmaPure™ Alumina (nom. 99.8% Al2O3) Thermal Shock Delta Tc = 200°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | Klc; Notched Beam |
CoorsTek PlasmaPure-UC™ 99.9% Alumina |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | |
CoorsTek Reaction Bonded Silicon Carbide, SCRB (SC-2) Thermal Shock Delta Tc = 400°C - Thermal shock tests are performed by quenching samples in water from different elevated temperatures. Delta Tc is the change in temperature which results in a shar.. |
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Fracture Toughness | 4.00 - 5.00 MPa-m½ | 3.64 - 4.55 ksi-in½ | Klc; Notched Beam |
CoorsTek Z-PLUS™ 94 Zirconia-Impr. Alumina Ceramic Armor Material CoorsTek CeraShield™ ceramics provide: low weight, high hardness, controlled, uniform microstructure, dimensional stability over wide temperature range, compatibility for use in finished armor sys.. |