Evaluation of Static Compression and High Cycle Fatigue Strength of Biomedical Spinal Implant in Accordance with ASTM Standard F1717-15
These test covers the materials and methods for the static compression and high cycle fatigue strength of biomedical spinal implant.
Methods for static load and fatigue test are defined for the comparative evaluation of the implant assemblies. These methods are for measuring displacements, determining the yield load and evaluating the stiffness and strength of the specific spinal implant assembly in accordance to ASTM standard.
ASTM F1717-15 “Standard Test Methods for Spinal Implant Constructs in a Vertebrectomy Model”
Evaluation of Static Compression and High Cycle Fatigue Strength of Biomedical Metallic Bone Plates Implant in Accordance with ASTM Standard F382-17
These test covers the materials and methods for static compression and high cycle fatigue strength of metallic bone plates implant. The test materials for most combinations of various type of implants can be specific, depending on the intended implant location and intended method of application to the human bones.
Methods for static load and fatigue test are defined for the comparative evaluation of the implant assemblies. These methods are for measuring displacements, determining the yield load and evaluating the stiffness and strength of the specific plates implant fabricated in accordance to ASTM standard.
ASTM F382-17 “Standard Specification and Test Method for Metallic Bone Plates”
Evaluation of Pull Out of Biomedical Screw Implant in Accordance with ASTM Standard F543-17
These test covers the materials and methods for the static pull out testing of biomedical screw implant. The test materials for most combinations of various type of implants can be specific, depending on the intended implant location and intended method of application to the human bones.
Methods for static load and fatigue test are defined for the comparative evaluation of the implant assemblies. These methods are for measuring displacements, determining the yield load and evaluating the stiffness and strength of the specific implant assembly in accordance to ASTM standard.
ASTM F543-17 “Standard Specification and Test Methods for Metallic Medical Bone Screws”
Evaluation of Compression and High Cycle Fatigue Strength of Biomedical Metallic Angled Orthopaedic Fracture Fixation Devices Implant in Accordance with ASTM Standard F384-17
These test covers the materials and methods for compression and high cycle fatigue strength of biomedical metallic angled orthopaedic fracture fixation devices implant. The test materials for most combinations of various type of implants can be specific, depending on the intended implant location and intended method of application to the human bones.
Methods for static load and fatigue test are defined for the comparative evaluation of the implant assemblies. These methods are for measuring displacements, determining the yield load and evaluating the stiffness and strength of the specific implant assembly in accordance to ASTM standard.
ASTM F384-17 “Standard Specifications and Test Methods for Metallic Angled Orthopaedic Fracture Fixation Devices”
Evaluation of Tension and Compression Strength of Biomedical Metallic Implant and Metallic Materials in Accordance with ASTM Standard E8/E8M − 16a
These test covers the materials and methods for the tension and compression strength of biomedical metallic implant and metallic materials. The test materials for most combinations of various type of implants can be specific, depending on the intended implant location and intended method of application to the human bones.
Methods for static load and fatigue test are defined for the comparative evaluation of the implant assemblies. These methods are for measuring displacements, determining the yield load and evaluating the stiffness and strength of the specific implant assembly in accordance to ASTM standard.
ASTM E8/E8M − 16a “Standard Test Methods for Tension Testing of Metallic Materials”
